Refine
Has Fulltext
- yes (148)
Year of publication
Document Type
- Journal article (128)
- Doctoral Thesis (16)
- Conference Proceeding (3)
- Preprint (1)
Language
- English (148) (remove)
Keywords
- multiple sclerosis (10)
- B cells (7)
- EAE (6)
- MS (6)
- expression (6)
- inflammation (5)
- Biologie (4)
- ELISPOT (4)
- NPY (4)
- SGLT1 (4)
- experimental autoimmune encephalomyelitis (4)
- induced pluripotent stem cells (4)
- microglia (4)
- oligodendrocytes (4)
- 5-HT1A (3)
- 5-HT2C (3)
- CNS (3)
- RS1 (3)
- Stammzelle (3)
- blood vessel (3)
- cardiomyocytes (3)
- mRNA (3)
- macrophages (3)
- mice (3)
- neurodegeneration (3)
- relapse (3)
- 18F-FDG (2)
- Coexpression (2)
- FGFR1 (2)
- GLUT2 (2)
- Glucosetransportproteine (2)
- Glukose (2)
- Kation (2)
- Myokarditis (2)
- NLS (2)
- PET (2)
- Regulation (2)
- TGFβ signaling (2)
- aging (2)
- angiogenesis (2)
- animal models (2)
- bariatric surgery (2)
- biomedical applications (2)
- brain (2)
- cell adhesion (2)
- central nervous system (2)
- diabetes (2)
- diabetic nephropathy (2)
- diabetic retinopathy (2)
- differential expression (2)
- emphysema (2)
- extracellular matrix (2)
- fatty acid (2)
- hiPSC-CM (2)
- human induced pluripotent stem cells (2)
- in vitro (2)
- inhibition (2)
- ischemia (2)
- lesions (2)
- medical research (2)
- mitochondria (2)
- mouse (2)
- mucoepidermoid carcinoma (2)
- myocarditis (2)
- neuroinflammation (2)
- neuroprotection (2)
- neurotrophins (2)
- organoid (2)
- organoids (2)
- oxidative stress (2)
- parotid gland (2)
- peroxisomes (2)
- photon-counting (2)
- pleomorphic adenoma (2)
- positron emission tomography (2)
- predictive value (2)
- regeneration (2)
- regulation (2)
- remyelination (2)
- retinitis pigmentosa (2)
- stem cell therapy (2)
- stroke (2)
- tracer (2)
- transgenic mice (2)
- triple in situ hybridization (2)
- vasculogenesis (2)
- A549 cell line (1)
- ADHD (1)
- AMD (1)
- ARF (1)
- ATF6 (1)
- AZD4547 (1)
- Adventitia (1)
- Akt (1)
- Alemtuzumab (1)
- Alzheimers disease (1)
- Aminosäuren (1)
- Amyotrophic-lateral-sclerosis (1)
- Aryl Hydrocarbon Hydroxylase (1)
- Atherosklerose (1)
- Autoimmunity (1)
- Axon degeneration (1)
- Axon growth (1)
- Axonal transport (1)
- BDNF (1)
- BSTA (1)
- Basal Ganglia (1)
- Basalganglien (1)
- Benzo(a)pyrene (1)
- Bindestelle (1)
- Bioprozessmethode (1)
- Blut-Hirn-Schranke (1)
- Bombesin ; Bombesin receptor ; Chromosomal localization (1)
- Brain (1)
- Brain-derived neurotrophic factor (1)
- Brombeere (1)
- CD4 T cells (1)
- CD52 (1)
- CMV (1)
- COPD (1)
- COS cell expression (1)
- CPFE (1)
- CXCL12-abundant reticular (CAR)-cells (1)
- Cadherine (1)
- Cancellous bone (1)
- Cancer models (1)
- Cancer therapeutic resistance (1)
- Carcinogen (1)
- Cell reprogramming (1)
- Cell therapy (1)
- Cell-cell communication (1)
- Cells (1)
- ChAT (1)
- ChT1 (1)
- Chirurgie (1)
- Cone-beam computed tomography (1)
- Copaxone® (1)
- Cortico-striatal projection neurons (1)
- Corticosteroide (1)
- CreERT2 (1)
- Cx3cr1 (1)
- DAMGO (1)
- DNA (1)
- DNA methylation (1)
- DNA weight (1)
- DNA-Binding (1)
- DSG2 (1)
- Desmogleine (1)
- Desmosom (1)
- Developmental biology (1)
- Dieldrin (1)
- Drosophilia (1)
- Durchflusscytometrie (1)
- Dünndarm (1)
- EBV (1)
- ECM (1)
- EEOS (1)
- ER stress (1)
- ER-Stress (1)
- ERK (1)
- Elbow (1)
- Elbow joint (1)
- Electron microscopy (1)
- Embryonic stem cell (1)
- Endoplasmic-Reticulum Stress (1)
- Endothel (1)
- Endothelzelle (1)
- Enzyme (1)
- Enzyme-Linked Immunospot assay (ELISPOT) (1)
- Evolution (1)
- Exosom <Vesikel> (1)
- Exosomes (1)
- Extracellular Vesicles (1)
- FGF (1)
- FGF/FGFR signalling (1)
- FGFR (1)
- FGFR signaling (1)
- FTY720 (1)
- Ficaria ambigua (1)
- Ficaria calthifolia (1)
- Ficaria verna (1)
- G-protein-coupled receptor (1)
- GLUT1 (1)
- GLUT3 (1)
- GLUT4 (1)
- GLUT5 (1)
- Genom (1)
- Glukosetransporter -1 (1)
- Glutamatergic synapses (1)
- Guinea-pig uterus (1)
- HCMV infection (1)
- Habichtskraut (1)
- Hematopoietic Stem (1)
- Heme-regulated inhibitor (1)
- Herzmuskelzelle (1)
- Hieracium (1)
- Hueter interval (1)
- Human Muse Cells (1)
- II type-2 receptor (1)
- IL-6 (1)
- IL6 (1)
- Immune tolerance (1)
- Induction (1)
- Intermediate filaments (1)
- Ionentransport (1)
- KATP channel (1)
- Kationentransporter 1 der Ratte (1)
- Kern (1)
- Konfokale Mikroskopie (1)
- Konformationsänderungen (1)
- L cells (1)
- L-typ Calciumkanal Antagonist (1)
- LINGO-1 (1)
- LPS (1)
- Lacking neurofilaments (1)
- Latrophilin (1)
- MAP kinase pathway (1)
- MK801 (1)
- MNV type 3 (1)
- Mactel 2 (1)
- Medium spiny neurons (1)
- Messenger-RNAs (1)
- Microtubules (1)
- Microvesicles (1)
- Missense mutation (1)
- Mitomycin C (1)
- Monosaccharid-abhängig (1)
- Motoneuron disease (1)
- Motor learning (1)
- Motorisches Lernen (1)
- Mouse model (1)
- Multidetector computed tomography (1)
- Multiple Sklerose (1)
- Multiple sclerosis (1)
- Mutationsanalyse (1)
- Mycobacterium tuberculosis (1)
- N-Myc (1)
- NES (1)
- NF-kappa-B (1)
- NMDA-Antagonist (1)
- NMDA-Rezeptor (1)
- NMDAR (1)
- Nanog protein (1)
- Natrium-abhängigen Glukosetransporter-1 (1)
- Netherlands (1)
- Neural Differentiation (1)
- Neurofilament (1)
- Neurotrophic factors (1)
- Nimodipin (1)
- OCT (1)
- OCT1 (1)
- ODC (1)
- OXPHOS (1)
- Oct4 (1)
- Organic cation transporters (1)
- Ornithindecarboxylase (1)
- PCDHGC3 (1)
- PIK3R1 (1)
- PKB/Akt phosphorylation (1)
- PP2A (1)
- PSP (1)
- Parkinson Krankheit (1)
- Parkinson's disease (1)
- Parkinson’s disease (1)
- Pemphigus (1)
- Peyer's patches (1)
- Pflanzen (1)
- Phedimus middendorffianus, var. diffusus (1)
- Phedimus spurius subsp. oppositifolius (1)
- Phenobarbitone (1)
- Phosphorylation (1)
- Plasma-membrane (1)
- Plastizität (1)
- Pluripotency (1)
- Progenitor (1)
- Progressive motor neuronopathy (1)
- Protein kinase B (1)
- Protein transduction (1)
- Proteinkinase C (1)
- Proteinkinase CK2 (1)
- Pruno-Rubion sprengelii (1)
- Quality-control (1)
- RAP (1)
- RNA sequencing (1)
- RNA-sequencing (1)
- RNS (1)
- ROS (1)
- Rats (1)
- Regulation of SGLT1 (1)
- Regulation von SGLT1 (1)
- Regulatory T cells (1)
- Regulierung (1)
- Relapsing-remitting MS (1)
- Rhamno-Prunetea (1)
- Rictor-mTOR complex (1)
- Rubella virus (1)
- Rv3034c (1)
- SAP47 gene (1)
- SARS-CoV-2 (1)
- SEMA3A (1)
- SLC2A3 (1)
- SP-fixation (1)
- Schlaganfall (1)
- Schwann cells (1)
- Sedum oppositifolium (1)
- Senescence (1)
- Sodium dependent glucose transporter-1 (1)
- Spinal Muscular-arthropy (1)
- Stat3 (1)
- Stathmin (1)
- Stem cells (1)
- Stofftransport <Biologie> (1)
- Striatum (1)
- Substance P receptor (1)
- Syap1 localization (1)
- Synaptic plasticity (1)
- T cell assay (1)
- T cells (1)
- T-cadherin (1)
- TGF-beta (1)
- TGF-β1 (1)
- TLO (1)
- TNF-α (1)
- TTS (1)
- Targeted therapies (1)
- Transcription factor NRF1 (1)
- Transgenic mice (1)
- Translation Initiation (1)
- Transporters (1)
- Triple in situ hybridization (1)
- TrkB (1)
- Tumour angiogenesis (1)
- VAChT (1)
- VE-Cadherin (1)
- VEGF (1)
- VPP mouse model (1)
- Vesikel (1)
- Viability (1)
- WNT signaling (1)
- X-ray computed (1)
- XBP1 (1)
- Y-gastric bypass (1)
- Zelladhäsion (1)
- Zellkommunikation (1)
- Zellzyklus (1)
- aPC (1)
- abdominal imaging (1)
- acceptance (1)
- acetylcholine (1)
- acetyltransferase (1)
- acinic cell carcinoma (1)
- activation (1)
- adenocarcinoma (1)
- adenoid cystic carcinoma (ACC) (1)
- adhesion GPCR (1)
- adhesion molecule-1 (1)
- adipose tissue (1)
- adipose-derived stromal cells (1)
- adventitia (1)
- age-related macular degeneration (1)
- age-related macular degeneration (AMD) (1)
- agricultural landscape (1)
- amygdala (1)
- anatomical landmark (1)
- anatomy (1)
- angiotensin II (1)
- antibodies (1)
- anti‐aging (1)
- anxiety (1)
- aorta ring (1)
- aortic adventitia (1)
- apoptosis (1)
- assembloid (1)
- astrocytoma (1)
- atrial natriuretic peptide (1)
- autoimmunity (1)
- axonal damage (1)
- axonal degeneration (1)
- axonal injury (1)
- axons (1)
- beta-aminopropionitrile (1)
- bile duct (1)
- biliary glycoprotein CD66A (1)
- biliopancreatic diversion (1)
- biomedicine (1)
- bioprinting (1)
- bioprocessing (1)
- blood coagulation (1)
- blood pressure (1)
- blood-brain barrier (1)
- blood-brain barrier (BBB) model (1)
- body weight (1)
- bone marrow-derived monocytes (1)
- brain-retina axis (1)
- breast cancer (1)
- breast cancer cells (1)
- breast cancer model (1)
- brush cell (1)
- brush cells (1)
- c-Myc (1)
- cable-clamp implants (1)
- cadherin-13 (CDH13) (1)
- cadherins (1)
- calcitonin gene-related peptide (1)
- calcium (1)
- calcium channel antagonists (1)
- cancellous bone (1)
- cancer (1)
- cancer therapy (1)
- carcinoembryonic anitgen family (1)
- cardiac hyperthrophy (1)
- catalase (1)
- caveolin-1 (1)
- cell biology (1)
- cell culture (1)
- cell cycle (1)
- cell penetrating peptides (1)
- cells (1)
- cellular internalization (1)
- cerebEND (1)
- cerebellum (1)
- chemistry (1)
- chemotherapy (CH) (1)
- cholinergic (1)
- choroidal neovascularization (CNV) (1)
- chromatin (1)
- chronic kidney disease (1)
- chronic viral infection (1)
- ciliary neurotrophic factor (CNTF) (1)
- classification (1)
- coexpression (1)
- confluence (1)
- contextual anxiety (1)
- contractility (1)
- convolution kernel (1)
- cortical pathology (1)
- corticosterone (1)
- cotransporter SGLT1 (1)
- cytokine secretion kinetics (1)
- cytokines (1)
- cytomegalovirus (1)
- dCIRL (1)
- degeneration (1)
- demyelination (1)
- dendric cells (1)
- desmosomal cadherins (1)
- desmosomes (1)
- developmental biology (1)
- dexamethasone (1)
- diabetes mellitus (1)
- diagnostic markers (1)
- dilated cardiomyopathy with ataxia (1)
- direct anterior approach (1)
- disability (1)
- disease (1)
- distinction (1)
- dorsal raphe (1)
- dovitinib (1)
- drug transport (1)
- duodenal jejunal bypass (1)
- early neural precursors (1)
- editorial (1)
- electron microscopy (1)
- elispot (1)
- embryonic stem cells (1)
- endothelial cell infection (1)
- enteroendocrine cells (1)
- enzyme-linked immunoassays (1)
- epithelial cells (1)
- epithelial salivary gland (1)
- exhaustion (1)
- exocytosis (1)
- exocytotic pathway (1)
- experimentelle autoimmune Enzephalomyelitis (1)
- extinction (1)
- extracellular matrix disorganisation (1)
- extrusion of hiMPC-containing bioinks alginate + collagen type I (1)
- factor XII (1)
- factor binding profiles (1)
- fear conditioning (1)
- fentanyl (1)
- ferroptosis (1)
- fingolimod (1)
- flora (1)
- food intake (1)
- fracture (1)
- fructose intolerance (1)
- frühe neurale Vorläufer (1)
- functional characterization (1)
- gall bladder (1)
- gene expression (1)
- gene locus (1)
- genetics (1)
- genome (1)
- glioblastoma multiforme (1)
- glioma (1)
- glucagon like peptide-1 (1)
- glucagon-like peptide-1 (GLP-1) (1)
- glucocorticoid receptor (1)
- glucokinase (1)
- glucose (1)
- glucose transporter (1)
- glucose-galactose malabsorption (1)
- glucosetransporter (1)
- glut1 (1)
- growth-factor (1)
- gut bacteria (1)
- gut hormones (1)
- hACE2 (1)
- hcv infection (1)
- heart (1)
- heart failure (1)
- heart-brain axis (1)
- hematopoietic (1)
- hematopoietic stem cells (1)
- high contrast (1)
- hip replacement (1)
- histone H1 (1)
- homebox genes (1)
- homeodomain transcription factors (1)
- human (1)
- human cytomegalovirus (HCMV) (1)
- human endothelial cells (1)
- human iPSC-derived mesodermal cells (hiMPCs) (1)
- human induced pluripotent stem cells (hiPSCs)human induced pluripotent stem cells (hiPSCs) (1)
- human neurons (1)
- human osteosarcoma xenografts (1)
- human primary cells (1)
- humanen induzierte pluripotente Stammzellen (1)
- hyaluronic acid (1)
- hypertonic solution (1)
- hypoxia (1)
- hypoxia inducible factor 1 (1)
- iconography (1)
- immune response (1)
- immunofluorescence (1)
- immunohistochemistry (1)
- immunosenescence (1)
- immunotherapy (1)
- in-situ hybridization (1)
- induced neural stem cells (1)
- inflammatory diseases (1)
- influenza virus ; virion RNA segments ; oligonucleotide mapping ; gene reassortment (1)
- innate immunity (1)
- insulin signaling (1)
- integrin α5β1 (1)
- integrin αvβ3 (1)
- interferon beta-1a (1)
- interleukin-1β (1)
- internalization (1)
- intestinal glucose (1)
- intestine (1)
- intraoperative radiotherapy (1)
- ischemic stroke (1)
- isosteviol sodium (STVNA) (1)
- l-type calcium channel antagonist (1)
- lectotype (1)
- leukemia inhibitory factor (1)
- lipids (1)
- lung (1)
- lung fibrosis (1)
- macular neovascularization (1)
- management (1)
- markers (1)
- mechanotransduction (1)
- megakaryocytes (1)
- membrane vesicles (1)
- memory cells (1)
- meninges (1)
- mesenchymal stem cells (1)
- mesenchymal stromal cells (1)
- mesodermal organoid (1)
- metabolism (1)
- metabotropic signalling (1)
- microRNA (1)
- microvascular complications (1)
- microvasculature (1)
- microvessel permeability (1)
- minimally-invasive (1)
- model (1)
- molecular biology (1)
- monocytes (1)
- monosaccharide-dependent (1)
- mouse models (1)
- mucociliary clearance (1)
- multilayered vessel wall with intimate, media and adventitia (1)
- multipotent fetal neural stem cells (fNSCs) (1)
- mutation analysis (1)
- mutational analysis (1)
- mutationen (1)
- mutations (1)
- myelin (1)
- myeloid (1)
- myeloid cells (1)
- myocardial infarction (1)
- natural history (1)
- neotype (1)
- nerve fibers (1)
- nervous system (1)
- neural (1)
- neural crest (1)
- neural organoid (1)
- neuro-/photoreceptor degeneration (1)
- neurodevelopment (1)
- neuroepithelial progenitors (1)
- neuroepitheliale Vorläufer (1)
- neuroimmunology (1)
- neuroprotective pathways (1)
- neurovascular unit in vitro (1)
- nicotinic acetylcholine receptors (1)
- nonneuronal acetylcholine (1)
- nuclear export signal (1)
- nuclear localization signal (1)
- nucleus (1)
- open-access database (1)
- p27(KIP1) (1)
- pancreatic cancer (1)
- pathology (1)
- pemphigus vulgaris (1)
- penetratin (1)
- perforator (1)
- peripheral nerve (1)
- peripheral nervous system (1)
- peroxisome (1)
- persistant infection (1)
- personalized treatment (1)
- phenotype (1)
- phosphatidylinositol (1)
- phosphocholine (1)
- podocytes (1)
- polyamines (1)
- preclinical research (1)
- prefrontal cortex (1)
- probe level data (1)
- progenitor (1)
- progenitor cells (1)
- progenitors (1)
- proliferation (1)
- protein (1)
- protein conformational changes (1)
- protein phosphorylation (1)
- protein synthesis (1)
- psychiatric disorders (1)
- psychology (1)
- pubic symphysis (1)
- pulmonary hypertension (1)
- rOCT1 (1)
- radial glia (1)
- radiation (1)
- radiotherapy (1)
- rat heart (1)
- reactive oxygen species (1)
- recurrence (1)
- reorganization (1)
- reprogramming (1)
- resident CD34-positive cells (1)
- retina (1)
- retinal angiomatous proliferation (1)
- salivary (1)
- salivary gland (1)
- salivary gland tumors (1)
- sasculature (1)
- scale-up (1)
- scanning electron micrographs (1)
- secretion (1)
- self-renewal (1)
- sensory ganglia (1)
- sensory neuron (1)
- sensory physiology (1)
- sepsis (1)
- serial block face EM (1)
- serotonergic system (1)
- serotonin (1)
- sglt1 (1)
- signature (1)
- single‐cell RNA‐seq (1)
- small intestine (1)
- sodium channels (1)
- solid tumors (1)
- spectral shaping (1)
- spheroids (1)
- spinal cord (1)
- stem cells (1)
- stroma (1)
- suppressor cells (1)
- suspension culture (1)
- synapse (1)
- synaptic vesicles (1)
- taste (1)
- taste receptor cells (1)
- tin prefiltration (1)
- tomography (1)
- transcapillary pressure gradient (1)
- transcription-3 (STAT3) (1)
- transinteraction (1)
- transmission electron microscopy (1)
- transporter regulator (1)
- trial (1)
- tube formation (1)
- tuft cells (1)
- tumor (1)
- tumor microenvironment (1)
- tumor spheroids (1)
- tumor-vessel wall-interface model (1)
- tumorigenic properties (1)
- tumors (1)
- ultra-low-dose CT (1)
- ultrastructure (1)
- unfolded protein response (1)
- urinary calculi (1)
- vagus nerve stimulation (1)
- vascular biofabrication (1)
- vascular network and hierarchical organized vessels (1)
- vascular normalization (1)
- vascular wall stem and progenitor cells (1)
- vascularization model (1)
- vasculature (1)
- vegetation (1)
- vesicular acetylcholine transporter (1)
- vessel wall resident stem cells (1)
- viability (1)
- white matter (1)
- xerostomia (1)
- µ-Opioid receptor (1)
Institute
- Institut für Anatomie und Zellbiologie (148) (remove)
Sonstige beteiligte Institutionen
- Department of Biomedical Imaging, National Cerebral and Cardiovascular Research Center, Suita, Japan (2)
- Division of Medical Technology and Science, Department of Medical Physics and Engineering, Course of Health Science, Osaka University Graduate School of Medicine, Suita Japan (2)
- Institut for Molecular Biology and CMBI, Department of Genomics, Stem Cell Biology and Regenerative Medicine, Leopold-Franzens-University Innsbruck, Innsbruck, Austria (2)
- Johns Hopkins School of Medicine, The Russell H Morgan Department of Radiology and Radiological Science, Baltimore, MD, USA (2)
- Johns Hopkins School of Medicine (1)
- Johns Hopkins School of Medicine, Baltimore, MD, U.S. (1)
Barley stripe mosaic virus (BSMV) RNA which was previously reported to contain poly(A) sequences (Agranovsky et al., 1978) can be specifically esterified with tyrosine in vitro in the presence of an aminoacyl-tRNA synthetase fraction from wheat embryos. All the three RNA components of the BSMV strain with a three-component genome (Norwich) and both RNA components of a two-component strain (Russian) can be tyrosylated. The poly(A)-containing (bound to oligo(dT)-cellulose) and poly(A)-deficient(not bound to oligo(dT)-cellulose) fractions of BSMV RNA display a similar amino acidaccepting ability. The nucleotide sequence which accepts tyrosine is coupled with the intact genomic polyadenylated BSMV RNA. The viral RNA isolated after sucrose density gradient centrifugation under drastic denaturing conditions retains its aminoacylating activity, which suggests that this activity is not due to the presence in a BSMV RNA preparation of a tyrosine tRNA associated with BSMV RNA. Inhibition of aminoacylation of the 3’-oxidized (treated with sodium metaperiodate) BSMV RNA suggests that the tyrosine-accepting structure is localized at the 3’ terminus of BSMV RNA molecules. It is shown that segments of different lengths obtained upon random fragmentation can be tyrosylated. The 3’-terminal (tyrosine-accepting) poly(A)+ segments can be isolated. The shortest segments of viral RNA capable of being aminoacylated [i.e., containing both tRNA-like structure and poly(A)] consists of approximately 150-200 nucleotides. The analysis of the oligonucleotides derived from individual BSMV RNA components labeled with 32P at the 3’ end revealed two types of 3’-terminal sequences different from poly(A). It is suggested that a poly(A) sequence is intercalated between a 3’-terminal tyrosineaccepting structure and the 5’-terminal portion of poly(A)+ BSMV RNA.
The Best for the Most Important: Maintaining a Pristine Proteome in Stem and Progenitor Cells
(2019)
Pluripotent stem cells give rise to reproductively enabled offsprings by generating progressively lineage-restricted multipotent stem cells that would differentiate into lineage-committed stem and progenitor cells. These lineage-committed stem and progenitor cells give rise to all adult tissues and organs. Adult stem and progenitor cells are generated as part of the developmental program and play critical roles in tissue and organ maintenance and/or regeneration. The ability of pluripotent stem cells to self-renew, maintain pluripotency, and differentiate into a multicellular organism is highly dependent on sensing and integrating extracellular and extraorganismal cues. Proteins perform and integrate almost all cellular functions including signal transduction, regulation of gene expression, metabolism, and cell division and death. Therefore, maintenance of an appropriate mix of correctly folded proteins, a pristine proteome, is essential for proper stem cell function. The stem cells' proteome must be pristine because unfolded, misfolded, or otherwise damaged proteins would interfere with unlimited self-renewal, maintenance of pluripotency, differentiation into downstream lineages, and consequently with the development of properly functioning tissue and organs. Understanding how various stem cells generate and maintain a pristine proteome is therefore essential for exploiting their potential in regenerative medicine and possibly for the discovery of novel approaches for maintaining, propagating, and differentiating pluripotent, multipotent, and adult stem cells as well as induced pluripotent stem cells. In this review, we will summarize cellular networks used by various stem cells for generation and maintenance of a pristine proteome. We will also explore the coordination of these networks with one another and their integration with the gene regulatory and signaling networks.
Effects of dopamine on BDNF / TrkB mediated signaling and plasticity on cortico-striatal synapses
(2021)
Progressive loss of voluntary movement control is the central symptom of Parkinson's disease (PD). Even today, we are not yet able to cure PD. This is mainly due to a lack of understanding the mechanisms of movement control, network activity and plasticity in motor circuits, in particular between the cerebral cortex and the striatum. Brain-derived neurotrophic factor (BDNF) has emerged as one of the most important factors for the development and survival of neurons, as well as for synaptic plasticity. It is thus an important target for the development of new therapeutic strategies against neurodegenerative diseases. Together with its receptor, the Tropomyosin receptor kinase B (TrkB), it is critically involved in development and function of the striatum. Nevertheless, little is known about the localization of BDNF within presynaptic terminals in the striatum, as well as the types of neurons that produce BDNF in the cerebral cortex. Furthermore, the influence of midbrain derived dopamine on the control of BDNF / TrkB interaction in striatal medium spiny neurons (MSNs) remains elusive so far. Dopamine, however, appears to play an important role, as its absence leads to drastic changes in striatal synaptic plasticity. This suggests that dopamine could regulate synaptic activity in the striatum via modulation of BDNF / TrkB function. To answer these questions, we have developed a sensitive and reliable protocol for the immunohistochemical detection of endogenous BDNF. We find that the majority of striatal BDNF is provided by glutamatergic, cortex derived afferents and not dopaminergic inputs from the midbrain. In fact, we found BDNF in cell bodies of neurons in layers II-III and V of the primary and secondary motor cortex as well as layer V of the somatosensory cortex. These are the brain areas that send dense projections to the dorsolateral striatum for control of voluntary movement. Furthermore, we could show that these projection neurons significantly downregulate the expression of BDNF during the juvenile development of mice between 3 and 12 weeks.
In parallel, we found a modulatory effect of dopamine on the translocation of TrkB to the cell surface in postsynaptic striatal Medium Spiny Neurons (MSNs). In MSNs of the direct pathway (dMSNs), which express dopamine receptor 1 (DRD1), we observed the formation of TrkB aggregates in the 6-hydroxydopamine (6-OHDA) model of PD. This suggests that DRD1 activity controls TrkB surface expression in these neurons. In contrast, we found that DRD2 activation has opposite effects in MSNs of the indirect pathway (iMSNs). Activation of DRD2 promotes a rapid decrease in TrkB surface expression which was reversible and depended on cAMP. In parallel, stimulation of DRD2 led to induction of phospho-TrkB (pTrkB). This effect was significantly slower than the effect on TrkB surface expression and indicates that TrkB is transactivated by DRD2. Together, our data provide evidence that dopamine triggers dual modes of plasticity on striatal MSNs by acting on TrkB surface expression in DRD1 and DRD2 expressing MSNs. This surface expression of the receptor is crucial for the binding of BDNF, which is released from corticostriatal afferents. This leads to the induction of TrkB-mediated downstream signal transduction cascades and long-term potentiation (LTP). Therefore, the dopamine-mediated translocation of TrkB could be a mediator that modulates the balance between dopaminergic and glutamatergic signaling to allow synaptic plasticity in a spatiotemporal manner. This information and the fact that TrkB is segregated to persistent aggregates in PD could help to improve our understanding of voluntary movement control and to develop new therapeutic strategies beyond those focusing on dopaminergic supply.
In vitro models of the human blood-brain barrier (BBB) are highly desirable for drug development. This study aims to analyze a set of ten different BBB culture models based on primary cells, human induced pluripotent stem cells (hiPSCs), and multipotent fetal neural stem cells (fNSCs). We systematically investigated the impact of astrocytes, pericytes, and NSCs on hiPSC-derived BBB endothelial cell function and gene expression. The quadruple culture models, based on these four cell types, achieved BBB characteristics including transendothelial electrical resistance (TEER) up to 2,500 Ω cm\(^{2}\) and distinct upregulation of typical BBB genes. A complex in vivo-like tight junction (TJ) network was detected by freeze-fracture and transmission electron microscopy. Treatment with claudin-specific TJ modulators caused TEER decrease, confirming the relevant role of claudin subtypes for paracellular tightness. Drug permeability tests with reference substances were performed and confirmed the suitability of the models for drug transport studies.
BACKGROUND:
The etiology of multiple sclerosis (MS) has remained unclear, but a causative contribution of factors outside the central nervous system (CNS) is conceivable. It was recently suggested that gut bacteria trigger the activation of CNS-reactive T cells and the development of demyelinative disease.
METHODS:
C57BL/6 (B6) mice were kept either under specific pathogen free or conventional housing conditions, immunized with the myelin basic protein (MBP)-proteolipid protein (PLP) fusion protein MP4 and the development of EAE was clinically monitored. The germinal center size of the Peyer's patches was determined by immunohistochemistry in addition to the level of total IgG secretion which was assessed by ELISPOT. ELISPOT assays were also used to measure MP4-specific T cell and B cell responses in the Peyer's patches and the spleen. Ear swelling assays were performed to determine the extent of delayed-type hypersensitivity reactions in specific pathogen free and conventionally housed mice.
RESULTS:
In B6 mice that were actively immunized with MP4 and kept under conventional housing conditions clinical disease was significantly attenuated compared to specific pathogen free mice. Conventionally housed mice displayed increased levels of IgG secretion in the Peyer's patches, while the germinal center formation in the gut and the MP4-specific TH17 response in the spleen were diminished after immunization. Accordingly, these mice displayed an attenuated delayed type hypersensitivity (DTH) reaction in ear swelling assays.
CONCLUSIONS:
The data corroborate the notion that housing conditions play a substantial role in the induction of murine EAE and suggest that the presence of gut bacteria might be associated with a decreased immune response to antigens of lower affinity. This concept could be of importance for MS and calls for caution when considering the therapeutic approach to treat patients with antibiotics."
Structural peculiarities of the S'-end segments of genomic RNA were studied in F potato virus (F-PV) and white clover mosaic virus (WCMV). The methods of affinity chromatography on oligo(dT) cellulose and oligonucleotide mapping revealed a prolonged (up to 210 nucleotides) polyadenyl sequence at the 3'-end of F-PV RNA. A polyadenyl sequence is missing at the 3'end of WCMV RNA. A study of the translation products of WCMV and F-PV RNAs in a oe11-free protein-synthesizing system derived from rabbit reticulocytes showed that polypeptides electrophoretically comigrating with a structural protein of either virus were synthesized alongside high-molecular-weight polypeptides (M\(_r\)\(\approx\) 180-150 kdaltons).
Differential effects of FTY720 on the B cell compartment in a mouse model of multiple sclerosis.
(2017)
Background:
MP4-induced experimental autoimmune encephalomyelitis (EAE) is a mouse model of multiple sclerosis (MS), which enables targeted research on B cells, currently much discussed protagonists in MS pathogenesis. Here, we used this model to study the impact of the S1P1 receptor modulator FTY720 (fingolimod) on the autoreactive B cell and antibody response both in the periphery and the central nervous system (CNS).
Methods:
MP4-immunized mice were treated orally with FTY720 for 30 days at the peak of disease or 50 days after EAE onset. The subsequent disease course was monitored and the MP4-specific B cell/antibody response was measured by ELISPOT and ELISA. RNA sequencing was performed to determine any effects on B cell-relevant gene expression. S1P\(_{1}\) receptor expression by peripheral T and B cells, B cell subset distribution in the spleen and B cell infiltration into the CNS were studied by flow cytometry. The formation of B cell aggregates and of tertiary lymphoid organs (TLOs) was evaluated by histology and immunohistochemistry. Potential direct effects of FTY720 on B cell aggregation were studied in vitro.
Results:
FTY720 significantly attenuated clinical EAE when treatment was initiated at the peak of EAE. While there was a significant reduction in the number of T cells in the blood after FTY720 treatment, B cells were only slightly diminished. Yet, there was evidence for the modulation of B cell receptor-mediated signaling upon FTY720 treatment. In addition, we detected a significant increase in the percentage of B220\(^{+}\) B cells in the spleen both in acute and chronic EAE. Whereas acute treatment completely abrogated B cell aggregate formation in the CNS, the numbers of infiltrating B cells and plasma cells were comparable between vehicle- and FTY720-treated mice. In addition, there was no effect on already developed aggregates in chronic EAE. In vitro B cell aggregation assays suggested the absence of a direct effect of FTY720 on B cell aggregation. However, FTY720 impacted the evolution of B cell aggregates into TLOs.
Conclusions:
The data suggest differential effects of FTY720 on the B cell compartment in MP4-induced EAE.
Mycobacterium tuberculosis (Mtb) inhibits host oxidative stress responses facilitating its survival in macrophages; however, the underlying molecular mechanisms are poorly understood. Here, we identified a Mtb acetyltransferase (Rv3034c) as a novel counter actor of macrophage oxidative stress responses by inducing peroxisome formation. An inducible Rv3034c deletion mutant of Mtb failed to induce peroxisome biogenesis, expression of the peroxisomal β-oxidation pathway intermediates (ACOX1, ACAA1, MFP2) in macrophages, resulting in reduced intracellular survival compared to the parental strain. This reduced virulence phenotype was rescued by repletion of Rv3034c. Peroxisome induction depended on the interaction between Rv3034c and the macrophage mannose receptor (MR). Interaction between Rv3034c and MR induced expression of the peroxisomal biogenesis proteins PEX5p, PEX13p, PEX14p, PEX11β, PEX19p, the peroxisomal membrane lipid transporter ABCD3, and catalase. Expression of PEX14p and ABCD3 was also enhanced in lungs from Mtb aerosol-infected mice. This is the first report that peroxisome-mediated control of ROS balance is essential for innate immune responses to Mtb but can be counteracted by the mycobacterial acetyltransferase Rv3034c. Thus, peroxisomes represent interesting targets for host-directed therapeutics to tuberculosis.
Hereditary retinal degenerations like retinitis pigmentosa (RP) are among the leading causes of blindness in younger patients. To enable in vivo investigation of cellular and molecular mechanisms responsible for photoreceptor cell death and to allow testing of therapeutic strategies that could prevent retinal degeneration, animal models have been created. In this study, we deeply characterized the transcriptional profile of mice carrying the transgene rhodopsin V20G/P23H/P27L (VPP), which is a model for autosomal dominant RP. We examined the degree of photoreceptor degeneration and studied the impact of the VPP transgene-induced retinal degeneration on the transcriptome level of the retina using next generation RNA sequencing (RNASeq) analyses followed by weighted correlation network analysis (WGCNA). We furthermore identified cellular subpopulations responsible for some of the observed dysregulations using in situ hybridizations, immunofluorescence staining, and 3D reconstruction. Using RNASeq analysis, we identified 9256 dysregulated genes and six significantly associated gene modules in the subsequently performed WGCNA. Gene ontology enrichment showed, among others, dysregulation of genes involved in TGF-β regulated extracellular matrix organization, the (ocular) immune system/response, and cellular homeostasis. Moreover, heatmaps confirmed clustering of significantly dysregulated genes coding for components of the TGF-β, G-protein activated, and VEGF signaling pathway. 3D reconstructions of immunostained/in situ hybridized sections revealed retinal neurons and Müller cells as the major cellular population expressing representative components of these signaling pathways. The predominant effect of VPP-induced photoreceptor degeneration pointed towards induction of neuroinflammation and the upregulation of neuroprotective pathways like TGF-β, G-protein activated, and VEGF signaling. Thus, modulation of these processes and signaling pathways might represent new therapeutic options to delay the degeneration of photoreceptors in diseases like RP.
Transforming growth factor β (TGFβ) signaling has manifold functions such as regulation of cell growth, differentiation, migration, and apoptosis. Moreover, there is increasing evidence that it also acts in a neuroprotective manner. We recently showed that TGFβ receptor type 2 (Tgfbr2) is upregulated in retinal neurons and Müller cells during retinal degeneration. In this study we investigated if this upregulation of TGFβ signaling would have functional consequences in protecting retinal neurons. To this end, we analyzed the impact of TGFβ signaling on photoreceptor viability using mice with cell type-specific deletion of Tgfbr2 in retinal neurons and Müller cells (Tgfbr2\(_{ΔOC}\)) in combination with a genetic model of photoreceptor degeneration (VPP). We examined retinal morphology and the degree of photoreceptor degeneration, as well as alterations of the retinal transcriptome. In summary, retinal morphology was not altered due to TGFβ signaling deficiency. In contrast, VPP-induced photoreceptor degeneration was drastically exacerbated in double mutant mice (Tgfbr2\(_{ΔOC}\); VPP) by induction of pro-apoptotic genes and dysregulation of the MAP kinase pathway. Therefore, TGFβ signaling in retinal neurons and Müller cells exhibits a neuroprotective effect and might pose promising therapeutic options to attenuate photoreceptor degeneration in humans.
Background: The angiotensin II receptor subtype 2 (AT2 receptor) is ubiquitously and highly expressed in early postnatal life. However, its role in postnatal cardiac development remained unclear.
Methodology/Principal Findings: Hearts from 1, 7, 14 and 56 days old wild-type (WT) and AT2 receptor-deficient (KO) mice were extracted for histomorphometrical analysis as well as analysis of cardiac signaling and gene expression. Furthermore, heart and body weights of examined animals were recorded and echocardiographic analysis of cardiac function as well as telemetric blood pressure measurements were performed. Moreover, gene expression, sarcomere shortening and calcium transients were examined in ventricular cardiomyocytes isolated from both genotypes. KO mice exhibited an accelerated body weight gain and a reduced heart to body weight ratio as compared to WT mice in the postnatal period. However, in adult KO mice the heart to body weight ratio was significantly increased most likely due to elevated systemic blood pressure. At postnatal day 7 ventricular capillarization index and the density of \(\alpha\)-smooth muscle cell actin-positive blood vessels were higher in KO mice as compared to WT mice but normalized during adolescence. Echocardiographic assessment of cardiac systolic function at postnatal day 7 revealed decreased contractility of KO hearts in response to beta-adrenergic stimulation. Moreover, cardiomyocytes from KO mice showed a decreased sarcomere shortening and an increased peak Ca\(^{2+}\) transient in response to isoprenaline when stimulated concomitantly with angiotensin II.
Conclusion: The AT2 receptor affects postnatal cardiac growth possibly via reducing body weight gain and systemic blood pressure. Moreover, it moderately attenuates postnatal vascularization of the heart and modulates the beta adrenergic response of the neonatal heart. These AT2 receptor-mediated effects may be implicated in the physiological maturation process of the heart.
Pharmacobehavioral studies in experimental animals, and imaging studies in humans, indicate that serotonergic transmission in the amygdala plays a key role in emotional processing, especially for anxiety-related stimuli. The lateral and basolateral amygdaloid nuclei receive a dense serotonergic innervation in all species studied to date. We investigated interrelations between serotonergic afferents and neuropeptide Y (NPY)-producing neurons, which are a subpopulation of inhibitory interneurons in the rat lateral and basolateral nuclei with particularly strong anxiolytic properties. Dual light microscopic immunolabeling showed numerous appositions of serotonergic afferents on NPY-immunoreactive somata. Using electron microscopy, direct membrane appositions and synaptic contacts between serotonin-containing axon terminals and NPY-immunoreactive cellular profiles were unequivocally established. Double in situ hybridization documented that more than 50 %, and about 30–40 % of NPY mRNA-producing neurons, co-expressed inhibitory 5-HT1A and excitatory 5-HT2C mRNA receptor subtype mRNA, respectively, in both nuclei with no gender differences. Triple in situ hybridization showed that individual NPY mRNA-producing interneurons co-express both 5-HT1A and 5-HT2C mRNAs. Co-expression of NPY and 5-HT3 mRNA was not observed. The results demonstrate that serotonergic afferents provide substantial innervation of NPY-producing neurons in the rat lateral and basolateral amygdaloid nuclei. Studies of serotonin receptor subtype co-expression indicate a differential impact of the serotonergic innervation on this small, but important, population of anxiolytic interneurons, and provide the basis for future studies of the circuitry underlying serotonergic modulation of emotional stimulus processing in the amygdala.
Multiple fluorescence in situ hybridization is the method of choice for studies aimed at determining simultaneous production of signal transduction molecules and neuromodulators in neurons. In our analyses of the monoamine receptor mRNA expression of peptidergic neurons in the rat telencephalon, double tyramide-signal-amplified fluorescence in situ hybridization delivered satisfactory results for coexpression analysis of neuropeptide Y (NPY) and serotonin receptor 2C (5-HT2C) mRNA, a receptor subtype expressed at high-to-moderate abundance in the regions analyzed. However, expression of 5-HT1A mRNA, which is expressed at comparatively low abundance in many telencephalic areas, could not be unequivocally identified in NPY mRNA-reactive neurons due to high background and poor signal-to-noise ratio in fluorescent receptor mRNA detections. Parallel chromogenic in situ hybridization provided clear labeling for 5-HT1A mRNA and additionally offered the possibility to monitor the chromogen deposition at regular time intervals to determine the optimal signal-to-noise ratio. We first developed a double labeling protocol combining fluorescence and chromogenic in situ hybridization and subsequently expanded this variation to combine double fluorescence and chromogenic in situ hybridization for triple labelings. With this method, we documented expression of 5-HT2C and/or 5-HT1A in subpopulations of telencephalic NPY-producing neurons. The method developed in the present study appears suitable for conventional light and fluorescence microscopy, combines advantages of fluorescence and chromogenic in situ hybridization protocols and thus provides a reliable non-radioactive alternative to previously published multiple labeling methods for coexpression analyses in which one mRNA species requires highly sensitive detection.
Multiple fluorescence in situ hybridization is the method of choice for studies aimed at determining simultaneous production of signal transduction molecules and neuromodulators in neurons. In our analyses of the monoamine receptor mRNA expression of peptidergic neurons in the rat telencephalon, double tyramide-signal-amplified fluorescence in situ hybridization delivered satisfactory results for coexpression analysis of neuropeptide Y (NPY) and serotonin receptor 2C (5-HT2C) mRNA, a receptor subtype expressed at high-to-moderate abundance in the regions analyzed. However, expression of 5-HT1A mRNA, which is expressed at comparatively low abundance in many telencephalic areas, could not be unequivocally identified in NPY mRNA-reactive neurons due to high background and poor signal-to-noise ratio in fluorescent receptor mRNA detections. Parallel chromogenic in situ hybridization provided clear labeling for 5-HT1A mRNA and additionally offered the possibility to monitor the chromogen deposition at regular time intervals to determine the optimal signal-to-noise ratio. We first developed a double labeling protocol combining fluorescence and chromogenic in situ hybridization and subsequently expanded this variation to combine double fluorescence and chromogenic in situ hybridization for triple labelings. With this method, we documented expression of 5-HT2C and/or 5-HT1A in subpopulations of telencephalic NPY-producing neurons. The method developed in the present study appears suitable for conventional light and fluorescence microscopy, combines advantages of fluorescence and chromogenic in situ hybridization protocols and thus provides a reliable non-radioactive alternative to previously published multiple labeling methods for coexpression analyses in which one mRNA species requires highly sensitive detection.
Multiple fluorescence in situ hybridization is the method of choice for studies aimed at determining simultaneous production of signal transduction molecules and neuromodulators in neurons. In our analyses of the monoamine receptor mRNA expression of peptidergic neurons in the rat telencephalon, double tyramide-signal-amplified fluorescence in situ hybridization delivered satisfactory results for coexpression analysis of neuropeptide Y (NPY) and serotonin receptor 2C (5-HT2C) mRNA, a receptor subtype expressed at high-to-moderate abundance in the regions analyzed. However, expression of 5-HT1A mRNA, which is expressed at comparatively low abundance in many telencephalic areas, could not be unequivocally identified in NPY mRNA-reactive neurons due to high background and poor signal-to-noise ratio in fluorescent receptor mRNA detections. Parallel chromogenic in situ hybridization provided clear labeling for 5-HT1A mRNA and additionally offered the possibility to monitor the chromogen deposition at regular time intervals to determine the optimal signal-to-noise ratio. We first developed a double labeling protocol combining fluorescence and chromogenic in situ hybridization and subsequently expanded this variation to combine double fluorescence and chromogenic in situ hybridization for triple labelings. With this method, we documented expression of 5-HT2C and/or 5-HT1A in subpopulations of telencephalic NPY-producing neurons. The method developed in the present study appears suitable for conventional light and fluorescence microscopy, combines advantages of fluorescence and chromogenic in situ hybridization protocols and thus provides a reliable non-radioactive alternative to previously published multiple labeling methods for coexpression analyses in which one mRNA species requires highly sensitive detection.
Primary infection of HEp-2 cells with rubella virus resulted in non-cytophatic longterm persistent infection. During four years of persistence the virus was produced in sufficient quantities (up to 6 logs PFU/ml) and did not differ from the parental variant in its pathogenicity for BHK-21 or RK-13 cells, or hemagglutinating activity, but formed smaller plaques. Persistent virus preserved the original antigenicity as judged from reciprocal hemagglutination-inhibition or plaque reduction-neutralization tests with polyclonal antisera. Both original and persistent rubella viruses were thermoresistant (T 56° C) and sligthly temperature-sensitive. Clonal analysis revealed presence of ts-mutants among both original and persistent virus clones with different degrees of plating efficiency at 40°/34° C. RNA fingerprinting showed only minor changes in persistent rubella virus.
The size of the synaptic subcomponents falls below the limits of visible light microscopy. Despite new developments in advanced microscopy techniques, the resolution of transmission electron microscopy (TEM) remains unsurpassed. The requirements of tissue preservation are very high, and human post mortem material often does not offer adequate quality. However, new reprogramming techniques that generate human neurons in vitro provide samples that can easily fulfill these requirements. The objective of this study was to identify the culture technique with the best ultrastructural preservation in combination with the best embedding and contrasting technique for visualizing neuronal elements. Two induced neural stem cell lines derived from healthy control subjects underwent differentiation either adherent on glass coverslips, embedded in a droplet of highly concentrated Matrigel, or as a compact neurosphere. Afterward, they were fixed using a combination of glutaraldehyde (GA) and paraformaldehyde (PFA) followed by three approaches (standard stain, Ruthenium red stain, high contrast en-bloc stain) using different combinations of membrane enhancing and contrasting steps before ultrathin sectioning and imaging by TEM. The compact free-floating neurospheres exhibited the best ultrastructural preservation. High-contrast en-bloc stain offered particularly sharp staining of membrane structures and the highest quality visualization of neuronal structures. In conclusion, compact neurospheres growing under free-floating conditions in combination with a high contrast en-bloc staining protocol, offer the optimal preservation and contrast with a particular focus on visualizing membrane structures as required for analyzing synaptic structures.
Aims
Cardiac atrial natriuretic peptide (ANP) participates in the maintenance of arterial blood pressure and intravascular volume homeostasis. The hypovolaemic effects of ANP result from coordinated actions in the kidney and systemic microcirculation. Hence, ANP, via its guanylyl cyclase-A (GC-A) receptor and intracellular cyclic GMP as second messenger, stimulates endothelial albumin permeability. Ultimately, this leads to a shift of plasma fluid into interstitial pools. Here we studied the role of caveolae-mediated transendothelial albumin transport in the hyperpermeability effects of ANP.
Methods and results
Intravital microscopy studies of the mouse cremaster microcirculation showed that ANP stimulates the extravasation of fluorescent albumin from post-capillary venules and causes arteriolar vasodilatation. The hyperpermeability effect was prevented in mice with conditional, endothelial deletion of GC-A (EC GC-A KO) or with deleted caveolin-1 (cav-1), the caveolae scaffold protein. In contrast, the vasodilating effect was preserved. Concomitantly, the acute hypovolaemic action of ANP was abolished in EC GC-A KO and Cav-1−/− mice. In cultured microvascular rat fat pad and mouse lung endothelial cells, ANP stimulated uptake and transendothelial transport of fluorescent albumin without altering endothelial electrical resistance. The stimulatory effect on albumin uptake was prevented in GC-A- or cav-1-deficient pulmonary endothelia. Finally, preparation of caveolin-enriched lipid rafts from mouse lung and western blotting showed that GC-A and cGMP-dependent protein kinase I partly co-localize with Cav-1 in caveolae microdomains.
Conclusion
ANP enhances transendothelial caveolae-mediated albumin transport via its GC-A receptor. This ANP-mediated cross-talk between the heart and the microcirculation is critically involved in the regulation of intravascular volume.
RS1 is the intron less singel copy gene involved in regulation of plasme membrane transporters. Ornithine decarboxylase is identified as the receptor of RS1 specific for the release of vesicles containing SGLT1 specifically at the trans-golgi network. RS1 decreases the activity of ODC there by inhibiting the release of vesicles containing specifically SGLT1.
Post-fabrication formation of a proper vasculature remains an unresolved challenge in bioprinting. Established strategies focus on the supply of the fabricated structure with nutrients and oxygen and either rely on the mere formation of a channel system using fugitive inks or additionally use mature endothelial cells and/or peri-endothelial cells such as smooth muscle cells for the formation of blood vessels in vitro. Functional vessels, however, exhibit a hierarchical organization and multilayered wall structure that is important for their function. Human induced pluripotent stem cell-derived mesodermal progenitor cells (hiMPCs) have been shown to possess the capacity to form blood vessels in vitro, but have so far not been assessed for their applicability in bioprinting processes. Here, we demonstrate that hiMPCs, after formulation into an alginate/collagen type I bioink and subsequent extrusion, retain their ability to give rise to the formation of complex vessels that display a hierarchical network in a process that mimics the embryonic steps of vessel formation during vasculogenesis. Histological evaluations at different time points of extrusion revealed the initial formation of spheres, followed by lumen formation and further structural maturation as evidenced by building a multilayered vessel wall and a vascular network. These findings are supported by immunostainings for endothelial and peri-endothelial cell markers as well as electron microscopic analyses at the ultrastructural level. Moreover, endothelial cells in capillary-like vessel structures deposited a basement membrane-like matrix at the basal side between the vessel wall and the alginate-collagen matrix. After transplantation of the printed constructs into the chicken chorioallantoic membrane (CAM) the printed vessels connected to the CAM blood vessels and get perfused in vivo. These results evidence the applicability and great potential of hiMPCs for the bioprinting of vascular structures mimicking the basic morphogenetic steps of de novo vessel formation during embryogenesis.
The genus Ficaria is now considered to comprize eight Eurasian species. The most widespread European species is the tetraploid F. verna Huds. The present study provides evidence for the existence of two main lineages of F. verna that differ considerably in their genomic size by about 3 pg. A Western F. verna lineage west of river Rhine displays a mean genome size (2C-value) of 34.2 pg and is almost precisely codistributed with the diploid F. ambigua Boreau (20 pg) north of the Mediterranean. The remaining part of Europe appears to be occupied by the Eastern F. verna lineage solely (mean genome size of 31.3 pg) which codistributes in South-Eastern Europe with the diploid F. calthifolia Rchb. (15 pg). There is little overlap at the boundary of Western and Eastern F. verna lineages with the occurrence of a separate intermediate group in the Netherlands (mean genomic size of 33.2 pg) that appears to result from hybridization of both lineages. On the basis of these observations and further considerations we propose development of F. ambigua and F. calthifolia south of the Alps with subsequent divergence to populate their current Western and Eastern European ranges, respectively. The Western F. verna lineage is proposed to originate from autotetraploidization of F. ambigua (precursor) with moderate genomic downsizing and the Eastern F. verna lineage from auto¬tetraploidization of F. calthifolia (precursor).
Extracellular vesicle (EV)-mediated intercellular communication through exosomes, microvesicles (MVs) and apoptotic bodies has been shown to be implicated in various physiological as well as pathological processes such as the development and progression of atherosclerosis. While the cellular machinery controlling EV formation and composition has been studied extensively, little is known about the underlying morphological processes. This study focuses on a detailed ultrastructural analysis of the different steps of EV formation and release in Myocardial Endothelial (MyEnd) and Aortic Endothelial (AoEnd) cells cultured under serum starvation and inflammatory stimulation with TNF-α. Detailed morphological analyses were conducted applying and comparing different high- resolution light and electron microscopic methods. In this study, we could depict all steps of MV biogenesis named in literature. However, during the study of exosome biogenesis, we discovered a yet undescribed process: Instead of a direct fusion with the plasma membrane, multivesicular bodies were incorporated into a new distinct cellular compartment bound by fenestrated endothelium first. This may present a novel step in exosome biogenesis and warrants further study. Regarding the conditions of cell cultivation, we observed that the commonly used serum starvation causes MyEnd cells, but not AoEnd cells, to enter apoptosis after 48 hours. When preparing functional EV studies, we therefore recommend assessing the morphological condition of the serum-starved cells at different cultivation points first. When evaluating MV production, a statistical analysis showed that the more time AoEnd cells spent in cultivation under serum starvation, the higher the percentage of MV producing cells. However, additional TNF-α stimulation induced a significantly higher MV production than serum starvation alone. Lastly, our results show that TNF-α stimulation of AoEnd cells in vitro leads to the upregulation of CD44, an adhesion molecule critical in the early stages of atherosclerosis. CD44 was then depicted on the surface of generated MVs and exosomes. We conclude that under inflammatory conditions, EVs can mediate the transfer of CD44 from endothelial cells to target cells. This could be a novel mechanism by which MVs contribute to the development and progression of atherosclerotic disease and should be clarified by further studies.
Protocadherins (PCDHs) belong to the cadherin superfamily and represent the largest subgroup of calcium-dependent adhesion molecules. In the genome, most PCDHs are arranged in three clusters, α, β, and γ on chromosome 5q31. PCDHs are highly expressed in the central nervous system (CNS). Several PCDHs have tumor suppressor functions, but their individual role in primary brain tumors has not yet been elucidated. Here, we examined the mRNA expression of PCDHGC3, a member of the PCDHγ cluster, in non-cancerous brain tissue and in gliomas of different World Health Organization (WHO) grades and correlated it with the clinical data of the patients. We generated a PCDHGC3 knockout U343 cell line and examined its growth rate and migration in a wound healing assay. We showed that PCDHGC3 mRNA and protein were significantly overexpressed in glioma tissue compared to a non-cancerous brain specimen. This could be confirmed in glioma cell lines. High PCDHGC3 mRNA expression correlated with longer progression-free survival (PFS) in glioma patients. PCDHGC3 knockout in U343 resulted in a slower growth rate but a significantly faster migration rate in the wound healing assay and decreased the expression of several genes involved in WNT signaling. PCDHGC3 expression should therefore be further investigated as a PFS-marker in gliomas. However, more studies are needed to elucidate the molecular mechanisms underlying the PCDHGC3 effects.
Background: During early prenatal stages of brain development, serotonin (5-HT)-specific neurons migrate through somal translocation to form the raphe nuclei and subsequently begin to project to their target regions. The rostral cluster of cells, comprising the median and dorsal raphe (DR), innervates anterior regions of the brain, including the prefrontal cortex. Differential analysis of the mouse 5-HT system transcriptome identified enrichment of cell adhesion molecules in 5-HT neurons of the DR. One of these molecules, cadherin-13 (Cdh13) has been shown to play a role in cell migration, axon pathfinding, and synaptogenesis. This study aimed to investigate the contribution of Cdh13 to the development of the murine brain 5-HT system.
Methods: For detection of Cdh13 and components of the 5-HT system at different embryonic developmental stages of the mouse brain, we employed immunofluorescence protocols and imaging techniques, including epifluorescence, confocal and structured illumination microscopy. The consequence of CDH13 loss-of-function mutations on brain 5-HT system development was explored in a mouse model of Cdh13 deficiency.
Results: Our data show that in murine embryonic brain Cdh13 is strongly expressed on 5-HT specific neurons of the DR and in radial glial cells (RGCs), which are critically involved in regulation of neuronal migration. We observed that 5-HT neurons are intertwined with these RGCs, suggesting that these neurons undergo RGC-guided migration. Cdh13 is present at points of intersection between these two cell types. Compared to wildtype controls, Cdh13-deficient mice display increased cell densities in the DR at embryonic stages E13.5, E17.5, and adulthood, and higher serotonergic innervation of the prefrontal cortex at E17.5.
Conclusion: Our findings provide evidence for a role of CDH13 in the development of the serotonergic system in early embryonic stages. Specifically, we indicate that Cdh13 deficiency affects the cell density of the developing DR and the posterior innervation of the prefrontal cortex (PFC), and therefore might be involved in the migration, axonal outgrowth and terminal target finding of DR 5-HT neurons. Dysregulation of CDH13 expression may thus contribute to alterations in this system of neurotransmission, impacting cognitive function, which is frequently impaired in neurodevelopmental disorders including attention-deficit/hyperactivity and autism spectrum disorders.
The RS1 protein (gene RSC1A1) participates in regulation of Na+-D-glucose cotransporter SGLT1 and some other solute carriers. In subconfluent LLC-PK1 cells, RS1 inhibits release of SGLT1 from the trans-Golgi network and transcription of SGLT1. In subconfluent cells, RS1 is localized in the nucleus and the cytoplasm whereas confluent cells contain predominantly cytoplasmic RS1. In the present study, the mechanism and regulation of confluence-dependent nuclear location of RS1 was investigated. Confluence dependent nuclear location of RS1 was shown to be regulated by the cell cycle. A nuclear shuttling signal (NS) in pRS1 was identified that ensures confluence-dependent distribution of pRS1 and comprises nuclear localization signal (NLS) and nuclear export signal (NES). The NLS and NES of RS1 mediate translocation into and out of the nucleus via importin ß1 and CRM1, respectively, and the nuclear/cytoplasmic distribution of the RS1 protein is determined by the nuclear export activity. The adjacent protein kinase C (PKC) phosphorylation site at serine 370 of pRS1 was shown to control nuclear localization driven by NS and is necessary for the differential localization of RS1 in quiescent versus proliferating cells. Basing on the data of site-directed mutagenesis, PKC activation experiments and mass spectrometry analysis of RS1 phosphorylation, the following model of the regulation of RS1 nuclear location in LLC-PK1 cells was proposed. In subconfluent cells, RS1 is actively imported into the nucleus whereas nuclear export of RS1 is not active leading to accumulation of RS1 in the nucleus. After confluence, phosphorylation of serine 370 of pRS1 by PKC takes place leading to enhancement of RS1 nuclear export and predominantly cytoplasmic distribution of the protein in the confluent cells. The confluence-dependent regulation of RS1 localization may control SGLT1 expression during regeneration of enterocytes in small intestine and during regeneration of renal tubular cells after hypoxemic stress. Moreover, the gene expression profiling of mouse embryonic fibroblasts with RS1-/- genotype suggests that transcriptional regulation by RS1 might be important for the cell cycle and cell division. Since RS1 localization depends on the cell cycle, RS1 might play a role in the regulation of the solute carriers during specific phases of the cell cycle.
This paper deals with the taxonomical position and the nomenclature of two taxa belonging to the genus Sedum (Crassulaceae), today treated as Phedimus, namely Sedum middendorffianum Maxim var. diffusum Praeger and Sedum oppositifolium Sims. The correct taxonomical application of names is based on the nomenclatural types designated here.
Since exposure therapy for anxiety disorders incorporates extinction of contextual anxiety, relapses may be due to reinstatement processes. Animal research demonstrated more stable extinction memory and less anxiety relapse due to vagus nerve stimulation (VNS). We report a valid human three-day context conditioning, extinction and return of anxiety protocol, which we used to examine effects of transcutaneous VNS (tVNS). Seventy-five healthy participants received electric stimuli (unconditioned stimuli, US) during acquisition (Day1) when guided through one virtual office (anxiety context, CTX+) but never in another (safety context, CTX−). During extinction (Day2), participants received tVNS, sham, or no stimulation and revisited both contexts without US delivery. On Day3, participants received three USs for reinstatement followed by a test phase. Successful acquisition, i.e. startle potentiation, lower valence, higher arousal, anxiety and contingency ratings in CTX+ versus CTX−, the disappearance of these effects during extinction, and successful reinstatement indicate validity of this paradigm. Interestingly, we found generalized reinstatement in startle responses and differential reinstatement in valence ratings. Altogether, our protocol serves as valid conditioning paradigm. Reinstatement effects indicate different anxiety networks underlying physiological versus verbal responses. However, tVNS did neither affect extinction nor reinstatement, which asks for validation and improvement of the stimulation protocol.
Reversible protein phosphorylation is a posttranslational modification of regulatory proteins involved in cardiac signaling pathways. Here, we focus on the role of protein phosphatase 2A (PP2A) for cardiac gene expression and stress response using a transgenic mouse model with cardiac myocyte-specific overexpression of the catalytic subunit of PP2A (PP2A-TG). Gene and protein expression were assessed under basal conditions by gene chip analysis and Western blotting. Some cardiac genes related to the cell metabolism and to protein phosphorylation such as kinases and phosphatases were altered in PP2A-TG compared to wild type mice (WT). As cardiac stressors, a lipopolysaccharide (LPS)-induced sepsis in vivo and a global cardiac ischemia in vitro (stop-flow isolated perfused heart model) were examined. Whereas the basal cardiac function was reduced in PP2A-TG as studied by echocardiography or as studied in the isolated work-performing heart, the acute LPS- or ischemia-induced cardiac dysfunction deteriorated less in PP2A-TG compared to WT. From the data, we conclude that increased PP2A activity may influence the acute stress tolerance of cardiac myocytes.
The homology screening approach has been used to clone a new member of the guanine-nucleotidebinding-protein-coupled receptor superfamily from guinea pig uterus. The cloned cDNA encodes a 399-amino-acid protein and shows the highest amino acid similarity to members of the bombesin receptor family; 52% and 47% similarity to the gastrin-releasing-peptide (GRP) receptor and the neuromedin-B receptor, respectively. Bindingexperiments with the stably transfected LLC-PK<sub>1</sub> cell line expressing the new receptor protein confmned the bombesin-like nature of the cloned receptor. The relative order ofligand affinity, GRP = neuromedin C >> neuromedin B, suggests that the cloned cDNA represents the GRP subtype rather than the neuromedin-B subtype of bombesin receptors. Northern-blot analysis of mRNA species from several guinea-pig tissues showed that the mRNA for the new bombesin receptor subtype is expressed mainly in uteri of pregnant animals.
A cDNA encoding guinea-pig uterine substance P (SP) receptor has been isolated using the homology screening approach. Northern blot analysis reveals that the corresponding mRNA, of approx. 4.8 kb, is expressed in all tissues tested, but predominantly in the uteri of non-pregnant animals; during pregnancy its expression is reduced. The guinea-pig SP receptor was expressed in COS-7 cells and demonstrated relative Iigand affinity in the order: SP >> neurokinin A > neurokinin B.
The gene encoding the human homologue of the guinea pig uterine bombesm receptor [( 1992) Eur. J. Biochem. 208,405] was isolated from a genomic lambda library by the PCR/homology screening approach. The gene spans more than 4 kb and consists of 3 exons and 2 introns. The deduced amino acid sequence shows about 86% identity to that of guinea pig bombesin receptor. This subtype of bombesin receptor is expressed in the pregnant uterus and in two human tumour cell lines, T47D (ductal breast carcinoma) and A431 (epidermal carcinoma). PCR analysis of genomic DNA from human-mouse cell hybrids allows the cloned gene to be localized to the region q26q28 on chromosome X.
The minor form of vallne tBNA from baker's yeaat - tRNA\(^{Val}_{2b}\) - purified by column chromatography was completely digesteft with guanylo-BNase and pancreatic ENase. The products of these digestions were separated by a combination of thin-layer chromatography on cellulose and high voltage electrophoresis on DEAE-paper and then identified. The halves of tRNA Val 2b were prepared by partial digestion with pancreatic Mass and their complete guanylo-BNase and pancreatic ENase, digests were analysed. Basing on the obtained data the primary structure of baker1s yeast tRNA\(^{Val}_{2b}\) was reconstructed.
Rat organic cation transporter 1 (rOCT1): investigation of conformational changes and ligand binding
(2008)
Polyspecific organic cation transporters (OCTs) of the SLC22 family mediate downhill transport of organic cations and play an essential role in excretion and distribution of endogenous organic cations and for the uptake, elimination and distribution of cationic drugs and toxins. Although physiological and pharmacological significance of OCTs is widely accepted, many questions concerning structure and transport mechanism still remain open. To investigate conformational changes of the rat OCT1 during transport cycle, voltage-clamp fluorometry was performed with a cysteine-deprived mutant in which phenylalanine 483 in transmembrane helix (TMH) 11 close to the extracellular surface was replaced by cysteine and covalently labeled with tetramethylrhodamine-6-maleimide. Potential-dependent fluorescence changes were observed that were sensitive to the presence of substrates choline, tetraethylammonium (TEA), 1-methyl-4-phenylpyridinium (MPP), and of the contransported inhibitor tetrabutylammonium (TBuA). The data suggest that the transporter undergoes conformational changes in voltage- and substrate-dependent manner which are compatible with alternating access mechanism. Using potential-dependent fluorescence changes as readout, one high-affinity binding site per substrate and two highaffinity binding sites for TBuA were identified in addition to the previously described single interaction sites. Coexisting high-affinity cation binding sites in organic cation transporters may collect xenobiotics and drugs; however, translocation of organic cations across the membrane may only be induced when a low-affinity cation binding site is loaded. Whereas high-affinity binding of TBuA has no effect on cation uptake by wildtype rat OCT1, replacement by cysteine or serine of amino acids W147, F483, and F486 located in a modeled contact region between TMH2 and TMH11 outside the binding pocket leads to inhibition of MPP or TEA uptake. Thus, mutations of amino acids in transport relevant key positions, which can be distinct from the cation binding region, may transform noninhibitory highaffinity binding sites of high-affinity inhibition sites and thereby cause adverse drug reactions in patients.
Iconography of the Genus Hieracium in central Europe - Part 1: General Description and Morphotypes
(2005)
The genus Hieracium comprises more than one thousand sexual and apomictic species in Europe, with numerous intermediates and microspecies. Only a small fraction of the members of the genus Hieracium has been illustrated or photo-documented in the literature. Since many of these publications are difficult to obtain, only a few specialists are familiar with most of the species and subspecies described in the literature. In order to overcome this problem and encourage geobotanical research on the genus Hieracium, we decided to edit an iconography of central and southern European Hieracia in an electronical journal (Forum geobotanicum) with free international access through the internet. Part I of this endeavour contains descriptions and photographs of the morphological spectrum of the genus Hieracium. Here, we categorize the genus into 15 basic morphotypes. These types conform partly to the sections and subsections of the genus Hieracium, but are in some cases informal and may even include members of different sections. Classification of morphotypes is considered helpful to obtain a first rough picture of an unknown species that then can be traced to the species and subspecies level by using keys or, after completion of this iconography, simply by screening the relevant images. One particularly novel aspect of the present endeavour will be the regular inclusion of magnified images and scanning electron micrographs.
Combined pulmonary fibrosis and emphysema (CPFE) is a recently recognized syndrome that, as its name indicates, involves the existence of both interstitial lung fibrosis and emphysema in one individual, and is often accompanied by pulmonary hypertension. This debilitating, progressive condition is most often encountered in males with an extensive smoking history, and is presented by dyspnea, preserved lung volumes, and contrastingly impaired gas exchange capacity. The diagnosis of the disease is based on computed tomography imaging, demonstrating the coexistence of emphysema and interstitial fibrosis in the lungs, which might be of various types and extents, in different areas of the lung and several relative positions to each other. CPFE bears high mortality and to date, specific and efficient treatment options do not exist. In this review, we will summarize current knowledge about the clinical attributes and manifestations of CPFE. Moreover, we will focus on pathophysiological and pathohistological lung phenomena and suspected etiological factors of this disease. Finally, since there is a paucity of preclinical research performed for this particular lung pathology, we will review existing animal studies and provide suggestions for the development of additional in vivo models of CPFE syndrome.
Background
Elbow imaging is challenging with conventional multidetector computed tomography (MDCT), while cone-beam CT (CBCT) provides superior options. We compared intra-individually CBCT versus MDCT image quality in cadaveric elbows.
Methods
A twin robotic x-ray system with new CBCT mode and a high-resolution clinical MDCT were compared in 16 cadaveric elbows. Both systems were operated with a dedicated low-dose (LD) protocol (equivalent volume CT dose index [CTDI\(_{vol(16 cm)}\)] = 3.3 mGy) and a regular clinical scan dose (RD) protocol (CTDI\(_{vol(16 cm)}\) = 13.8 mGy). Image quality was evaluated by two radiologists (R1 and R2) on a seven-point Likert scale, and estimation of signal intensity in cancellous bone was conducted. Wilcoxon signed-rank tests and intraclass correlation coefficient (ICC) statistics were used.
Results
The CBCT prototype provided superior subjective image quality compared to MDCT scans (for RD, p ≤ 0.004; for LD, p ≤ 0.001). Image quality was rated very good or excellent in 100% of the cases by both readers for RD CBCT, 100% (R1) and 93.8% (R2) for LD CBCT, 62.6% and 43.8% for RD MDCT, and 0.0% and 0.0% for LD MDCT. Single-measure ICC was 0.95 (95% confidence interval 0.91–0.97; p < 0.001). Software-based assessment supported subjective findings with less “undecided” pixels in CBCT than dose-equivalent MDCT (p < 0.001). No significant difference was found between LD CBCT and RD MDCT.
Conclusions
In cadaveric elbow studies, the tested cone-beam CT prototype delivered superior image quality compared to high-end multidetector CT and showed a potential for considerable dose reduction.
CATIO~IC drugs of different types and structures (antihistaminics, antiarrhythmics, sedatives, opiates, cytostatics and antibiotics, for example) are excreted in mammals by epithelial cells of the renal proximal tubules and by hepatocytes in the liver<sup>1-4</sup>. In the proximal tubules, two functionally disparate transport systems are involved which are localized in the basolateral and luminal plasma membrane and are different from the previously identified neuronal monoamine transporters and A TP-dependent multidrug exporting proteins<sup>1-3,5-12</sup>. Here we report the isolation of a complementary DNA from rat kidney that encodes a 556-amino-acid membrane protein, OCT1, which has the functional characteristics of organic cation uptake over the basolateral membrane of renal proximal tubules and of organic cation uptake into hepatocytes. OCTl is not homologous to any other known protein and is found in kidney, liver and intestine. As OCTl translocates hydrophobic and hydrophilic organic cations of different structures, it is considered to be a new prolotype of polyspecific transporters that are important for drug elimination.
Aberrant immune responses represent the underlying cause of central nervous system (CNS) autoimmunity, including multiple sclerosis (MS). Recent evidence implicated the crosstalk between coagulation and immunity in CNS autoimmunity. Here we identify coagulation factor XII (FXII), the initiator of the intrinsic coagulation cascade and the kallikrein–kinin system, as a specific immune cell modulator. High levels of FXII activity are present in the plasma of MS patients during relapse. Deficiency or pharmacologic blockade of FXII renders mice less susceptible to experimental autoimmune encephalomyelitis (a model of MS) and is accompanied by reduced numbers of interleukin-17A-producing T cells. Immune activation by FXII is mediated by dendritic cells in a CD87-dependent manner and involves alterations in intracellular cyclic AMP formation. Our study demonstrates that a member of the plasmatic coagulation cascade is a key mediator of autoimmunity. FXII inhibition may provide a strategy to combat MS and other immune-related disorders.
Generation of early human neuroepithelial progenitors from primary cells for biomedical applications
(2018)
Patient-specific induced pluripotent stem cells (iPSCs) emerged as a promising cell source for disease modeling and drug screening as well as a virtually unlimited source for restorative therapy. The thesis deals with three major topics to help realizing biomedical applications with neural stem cells.
To enable the generation of transgene-free iPSCs, alternatives to retroviral reprogramming were developed. Hence, the adaptation and evaluation of reprogramming using excisable lentiviral constructs, Sendai virus (SeV) and synthetic mRNA-based methods was assessed in the first part of this thesis. hiPSCs exhibit the pluripotency markers OCT4, SSEA-4, TRA1-60 which were confirmed by immunofluorescence and flow cytometry. Besides, the potential to differentiate in cell types of all three germ layers was detected, confirming pluripotent identity of proliferating colonies resulting from various reprogramming strategies. However, major differences such as high efficiency with SeV in contrast to a relatively low efficiency with mRNA in regard to passage number and the phenotype of starting fibroblasts were observed. Furthermore, a prolonged clone- and passage-dependent residual presence of viral RNA genes was identified in SeV-iPSCs for up to 23 passages using RT-PCR underlining the importance of careful monitoring of clone selection. In contrast, viral-free reprogramming by synthetic mRNA represents a fully non-integrative approach but requires further refinement to be efficiently applicable to all fibroblasts.
The second part of this thesis deals with the establishment of a rapid monolayer approach to differentiate neural progenitor cells from iPSCs. To achieve this, a two-step protocol was developed allowing first the formation of a stable, primitive NPC line within 7 days which was expanded for 2-3 passages. In a second step, a subsequent adaptation to conditions yielding neural rosette-like NPCs followed. Both neural lines were demonstrated to be expandable, cryopreservable and negative for the pluripotency marker OCT4. Furthermore, a neural precursor identity including SOX1, SOX2, PAX6, Nestin was confirmed by immunofluorescence and quantitative RT-PCR. Moreover, the differentiation resulted in TUJ1-positive neurons and GFAP-positive astrocytes. Nonetheless, the outcome of glial differentiation from primitive NSCs remained low, whereas FGF/EGF-NPCs were efficiently differentiated into GFAP-positive astrocytes which were implicated in a cellular model of the blood brain barrier.
The third and major objective of this study was to generate human early neural progenitor cells from fetal brain tissue with a wide neural differentiation capacity. Therefore, a defined medium composition including small molecules and growth factors capable of modulation of crucial signaling pathways orchestrating early human development such as SHH and FGF was assessed. Indeed, specific culture conditions containing TGFβ inhibitor SB431542, SHH agonist Purmorphamine, GSK3β inhibitor CHIR99021 and basic FGF, but no EGF enabled robust formation of early neuroepithelial progenitor (eNEP) colonies displaying a homogeneous morphology and a high proliferation rate. Moreover, primary eNEPs exhibit a relatively high clonogenicity of more than 23 % and can be monoclonally expanded for more than 45 passages carrying a normal karyotype. Characterization by immunofluorescence, flow cytometry and quantitative RT-PCR revealed a distinct NPC profile including SOX1, PAX6, Nestin and SOX2 and Prominin. Furthermore, primary eNEPs show NOTCH and HES5 activation in combination with non-polarized morphology, indicative of an early neuroepithelial identity. Microarray analysis unraveled SOX11, BRN2 and other HES-genes as characteristic upregulated genes. Interestingly, eNEPs were detected to display ventral midbrain/hindbrain regional identity. The validation of yielded cell types upon differentiation indicates a strong neurogenic potential with more than 90 % of TUJ1-positive neurons. Moreover, astrocytes marked by GFAP and putative myelin structures indicating oligodendrocytes were identified. Electrophysiological recordings revealed functionally active neurons and immunofluorescence indicate GABAergic, glutamatergic, dopaminergic and serotonergic subtypes. Additionally, putative physiological synapse formation was observed by the presence of Synapsin and PSD-95 as well as by ultrastructural examination. Notably, rare neurons stained positive for the peripheral neuronal marker Peripherin suggesting the potential of eNEPS to give rise to cells of neural tube and neural crest origin. By the application of specific differentiation protocols an increase of TH-positive neurons or neural crest-derivatives such as putative A- and C-sensory neurons and mesenchymal cells was identified. Taken together, primary eNEPs might help to elucidate mechanisms of early human neurodevelopment and will serve as a novel source for cell replacement and further biomedical applications.
BACKGROUND:
Oct4 is a transcription factor that plays a major role for the preservation of the pluripotent state in embryonic stem cells as well as for efficient reprogramming of somatic cells to induced pluripotent stem cells (iPSC) or other progenitors. Protein-based reprogramming methods mainly rely on the addition of a fused cell penetrating peptide. This study describes that Oct4 inherently carries a protein transduction domain, which can translocate into human and mouse cells.
RESULTS:
A 16 amino acid peptide representing the third helix of the human Oct4 homeodomain, referred to as Oct4 protein transduction domain (Oct4-PTD), can internalize in mammalian cells upon conjugation to a fluorescence moiety thereby acting as a cell penetrating peptide (CPP). The cellular distribution of Oct4-PTD shows diffuse cytosolic and nuclear staining, whereas penetratin is strictly localized to a punctuate pattern in the cytoplasm. By using a Cre/loxP-based reporter system, we show that this peptide also drives translocation of a functionally active Oct4-PTD-Cre-fusion protein. We further provide evidence for translocation of full length Oct4 into human and mouse cell lines without the addition of any kind of cationic fusion tag. Finally, physico-chemical properties of the novel CPP are characterized, showing that in contrast to penetratin a helical structure of Oct4-PTD is only observed if the FITC label is present on the N-terminus of the peptide.
CONCLUSIONS:
Oct4 is a key transcription factor in stem cell research and cellular reprogramming. Since it has been shown that recombinant Oct4 fused to a cationic fusion tag can drive generation of iPSCs, our finding might contribute to further development of protein-based methods to generate iPSCs. Moreover, our data support the idea that transcription factors might be part of an alternative paracrine signalling pathway, where the proteins are transferred to neighbouring cells thereby actively changing the behaviour of the recipient cell.
Desmosomes provide intercellular adhesive strength required for integrity of epithelial and some non-epithelial tissues. Within the epidermis, the cadherin-type adhesion molecules desmoglein (Dsg) 1-4 and desmocollin (Dsc) 1-3 build the adhesive core of desmosomes. In keratinocytes, several isoforms of these proteins are co-expressed. However, the contribution of specific isoforms to overall cell cohesion is unclear. Therefore, in this study we investigated the roles of Dsg2 and Dsg3, the latter of which is known to be essential for keratinocyte adhesion based on its autoantibody-induced loss of function in the autoimmune blistering skin disease pemphigus vulgaris (PV). The pathogenic PV antibody AK23, targeting the Dsg3 adhesive domain, led to profound loss of cell cohesion in human keratinocytes as revealed by the dispase-based dissociation assays. In contrast, an antibody against Dsg2 had no effect on cell cohesion although the Dsg2 antibody was demonstrated to interfere with Dsg2 transinteraction by single molecule atomic force microscopy and was effective to reduce cell cohesion in intestinal epithelial Caco-2 cells which express Dsg2 as the only Dsg isoform. To substantiate these findings, siRNA-mediated silencing of Dsg2 or Dsg3 was performed in keratinocytes. In contrast to Dsg3-depleted cells, Dsg2 knockdown reduced cell cohesion only under conditions of increased shear. These experiments indicate that specific desmosomal cadherins contribute differently to keratinocyte cohesion and that Dsg2 compared to Dsg3 is less important in this context.
On the basis of four relevées of hedges around Straiton en Dailly in South Ayrshire, Scotland, some features of hedges are discussed. On the basis of the brambles, the vegetation of these hedges can be assigned to the Pruno-Rubion sprengelii, which comprises the bramble scrubs of circumneutral and nutrient rich soils in West Europe (Haveman et al. 2017, Haveman & de Ronde 2019). Until now, this alliance was thought to be restricted to the northwestern edge of the European continent, but based on these relevées and the known distribution area of Rubus nemoralis and Rubus polyanthemus, both characteristic for the Pruno-Rubion sprengelii, large parts of North England and Scotland have to be included in the distribution area of the alliance.
The Pruno-Rubion sprengelii is optimally developed in rather narrow structures, like hedges, which are pruned every year. Here, brambles and herbs alike can grow with and under the shrubs, facilitated by the light that reaches large parts of the ground. Where the economic base of hedges perishes, they are not longer maintained, and the shrubs can grow out to their natural proportions. This changes the amount of light reaching the surface in the inner parts of the thicket, changing the competition between the species. The brambles as well as the herbs are displaced to the outer edges of the scrub, and the vegetation "dissociates" in a high-growing scrub, a fore-mantle ("cuff") with brambles, and a fringe with perennial herbs. These elements can hardly ever be assigned to the Pruno-Rubion anymore.
The Pruno-Rubion sprengelii in optima forma is a scrub in which the three elements (shrubs, brambles, and herbs) grow closely intertwined. This is rarely found in natural landscapes, and thus the alliance is a typical element of the old farmer landscape. What is more: the typical species of the alliance, like Rubus nemoralis and R. polyanthemus, could only evolve after the landscape was opened by farmers in the last six millennia (Matzke-Hajek 1997), giving way to Rubus ulmifolius to expand its distribution area. This caused an explosion of hybrids which stabilised through apomixis into the wealth of Rubus species inhibiting the West European landscape nowadays (Sochor et al. 2015). Many of these species have their original home in a man-made landscape. Therefore, the Pruno-Rubion sprengelii can be characterised as a "farmers alliance" pur sang.
Solid tumors are complex organ-like structures that consist not only of tumor cells but also of vasculature, extracellular matrix (ECM), stromal, and immune cells. Often, this tumor microenvironment (TME) comprises the larger part of the overall tumor mass. Like the other components of the TME, the ECM in solid tumors differs significantly from that in normal organs. Intratumoral signaling, transport mechanisms, metabolisms, oxygenation, and immunogenicity are strongly affected if not controlled by the ECM. Exerting this regulatory control, the ECM does not only influence malignancy and growth of the tumor but also its response toward therapy. Understanding the particularities of the ECM in solid tumor is necessary to develop approaches to interfere with its negative effect. In this review, we will also highlight the current understanding of the physical, cellular, and molecular mechanisms by which the pathological tumor ECM affects the efficiency of radio-, chemo-, and immunotherapy. Finally, we will discuss the various strategies to target and modify the tumor ECM and how they could be utilized to improve response to therapy.
Ca2+ dependent cell adhesion molecules (cadherins) are central for a variety of cell and tissue functions such as morphogenesis, epithelial and endothelial barrier formation, synaptic function and cellular signaling. Of paramount importance for cadherin function is their specific extracellular adhesive trans-interaction. Cadherins are embedded in a cellular environment of intracellular and extracellular regulators that modify cadherin binding in response to various physiological and pathological stimuli. Most experimental approaches used for studying cadherin interaction however lack a physiological proof of principle mostly by not investigating cadherins in their physiological environment. In the present cumulative dissertation, experimental approaches were applied to characterize and modulate vascular endothelial (VE)-cadherin and desmocadherin functions in the (patho-)physiological contexts of endothelial permeability regulation and disturbance of epidermal barrier function, which is typical to the blistering skin disease pemphigus, respectively. Whereas VE-cadherin is a key regulator of the endothelial barrier that separates the blood compartment from the interstitial space of tissues, desmosomal cadherins are crucial for maintenance of epidermal integrity and separation of the external environment from the body’s internal milieu. Cadherin functions were both investigated in cell-free and cell-based conditions: by using biophysical single molecule techniques like atomic force microscopy (AFM), cadherin function could be investigated in conditions, where contributions of intracellular signaling were excluded. These experiments were, however, compared and combined with cell-based experiments in which cadherins of epidermal or endothelial cell cultures were probed by laser force microscopy (laser tweezers), fluorescence recovery after photobleaching (FRAP) and other techniques. The autoimmune blistering skin diseases pemphigus foliaceus (PF) and pemphigus vulgaris (PV) are caused by autoantibodies directed against the extracellular domains of the desmosomal cadherins desmoglein (Dsg) 1 and 3, which are important for epidermal adhesion. The mechanism of autoantibody-induced cell dissociation (acantholysis) in pemphigus, however, is still not fully understood. For the first time, it is shown by AFM force spectroscopy that pemphigus autoantibodies directly inhibit Dsg3 adhesion by steric hindrance but do not inhibit adhesion of Dsg1. However, the full pathogenicity of the autoantibodies depended on cellular signaling processes, since autoantibodies targeting Dsg1 also resulted in loss of cadherin-mediated adhesion in cell-based experiments. However, two other signaling pathways that have been reported to be involved in pemphigus pathogenesis, i.e. epidermal growth factor receptor (EGFR) and c-Src activation, were not found to be important in this context. Furthermore, peptide-based modulators of cadherin functions were generated for Dsg1/3 and VE-cadherin. By comparing Dsg1, Dsg3 and VE-cadherin sequences to published X-ray structures of cadherin trans-interactions, specific amino acid sequences of the binding pockets of these cadherins were identified. Peptide versions of these motifs were synthesized and the antagonistic functions of these “single peptides” were validated by AFM force spectroscopy as well as by cell-based assays. By linking two single peptides in tandem, stabilization of cadherin bonds because of by cross-bridge formation between trans-interacting cadherins was demonstrated. Protective effects of tandem peptides were shown by partly preventing pemphigus autoantibody-induced acantholysis, or in the case of VE-cadherin, by stabilizing endothelial barrier properties against barrier disrupting agents like the Ca2+ ionophore A23187 and an inhibitory VE-cadherin antibody. Most importantly, VE-cadherin tandem peptides abolished microvascular hyperpermeability induced by the physiologic inflammatory agent tumor necrosis factor-α in the rat mesentery in vivo. Both classes of tandem peptides therefore can be considered as a starting point for the generation of potential therapeutic agents that might prevent cell dissociation in pemphigus and breakdown of the endothelial barrier under inflammatory conditions.
INTRODUCTION:
B cells are attracting increasing attention in the pathogenesis of multiple sclerosis (MS). B cell-targeted therapies with monoclonal antibodies or plasmapheresis have been shown to be successful in a subset of patients. Here, patients with either relapsing-remitting (n = 24) or secondary progressive (n = 6) MS presenting with an acute clinical relapse were screened for their B cell reactivity to brain antigens and were re-tested three to nine months later. Enzyme-linked immunospot technique (ELISPOT) was used to identify brain-reactive B cells in peripheral blood mononuclear cells (PBMC) directly ex vivo and after 96 h of polyclonal stimulation. Clinical severity of symptoms was determined using the Expanded Disability Status Scale (EDSS).
RESULTS:
Nine patients displayed B cells in the blood producing brain-specific antibodies directly ex vivo. Six patients were classified as B cell positive donors only after polyclonal B cell stimulation. In 15 patients a B cell response to brain antigens was absent. Based on the autoreactive B cell response we categorized MS relapses into three different patterns. Patients who displayed brain-reactive B cell responses both directly ex vivo and after polyclonal stimulation (pattern I) were significantly younger than patients in whom only memory B cell responses were detectable or entirely absent (patterns II and III; p = 0.003). In one patient a conversion to a positive B cell response as measured directly ex vivo and subsequently also after polyclonal stimulation was associated with the development of a clinical relapse. The evaluation of the predictive value of a brain antigen-specific B cell response showed that seven of eight patients (87.5%) with a pattern I response encountered a clinical relapse during the observation period of 10 months, compared to two of five patients (40%) with a pattern II and three of 14 patients (21.4%) with a pattern III response (p = 0.0005; hazard ratio 6.08 (95% confidence interval 1.87-19.77).
CONCLUSIONS:
Our data indicate actively ongoing B cell-mediated immunity against brain antigens in a subset of MS patients that may be causative of clinical relapses and provide new diagnostic and therapeutic options for a subset of patients.
Introduction
B cells are attracting increasing attention in the pathogenesis of multiple sclerosis (MS). B cell-targeted therapies with monoclonal antibodies or plasmapheresis have been shown to be successful in a subset of patients. Here, patients with either relapsing-remitting (n = 24) or secondary progressive (n = 6) MS presenting with an acute clinical relapse were screened for their B cell reactivity to brain antigens and were re-tested three to nine months later. Enzyme-linked immunospot technique (ELISPOT) was used to identify brain-reactive B cells in peripheral blood mononuclear cells (PBMC) directly ex vivo and after 96 h of polyclonal stimulation. Clinical severity of symptoms was determined using the Expanded Disability Status Scale (EDSS).
Results
Nine patients displayed B cells in the blood producing brain-specific antibodies directly ex vivo. Six patients were classified as B cell positive donors only after polyclonal B cell stimulation. In 15 patients a B cell response to brain antigens was absent. Based on the autoreactive B cell response we categorized MS relapses into three different patterns. Patients who displayed brain-reactive B cell responses both directly ex vivo and after polyclonal stimulation (pattern I) were significantly younger than patients in whom only memory B cell responses were detectable or entirely absent (patterns II and III; p = 0.003). In one patient a conversion to a positive B cell response as measured directly ex vivo and subsequently also after polyclonal stimulation was associated with the development of a clinical relapse. The evaluation of the predictive value of a brain antigen-specific B cell response showed that seven of eight patients (87.5%) with a pattern I response encountered a clinical relapse during the observation period of 10 months, compared to two of five patients (40%) with a pattern II and three of 14 patients (21.4%) with a pattern III response (p = 0.0005; hazard ratio 6.08 (95% confidence interval 1.87-19.77).
Conclusions
Our data indicate actively ongoing B cell-mediated immunity against brain antigens in a subset of MS patients that may be causative of clinical relapses and provide new diagnostic and therapeutic options for a subset of patients.