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Institut
- Institut für Anatomie und Zellbiologie (270) (entfernen)
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)
- Naturalis Biodiversity Centre (2)
- Johns Hopkins School of Medicine (1)
- Johns Hopkins School of Medicine, Baltimore, MD, U.S. (1)
A growing body of scientific evidence indicates that protein homeostasis, also designated as proteostasis, is causatively linked to chronic diabetic nephropathy (DN). Experimental studies have demonstrated that the insulin signaling in podocytes maintain the homeostatic unfolded protein response (UPR). Insulin signaling via the insulin receptor non-canonically activates the spliced X-box binding protein-1 (sXBP1), a highly conserved endoplasmic reticulum (ER) transcription factor, which regulates the expression of genes that control proteostasis. Defective insulin signaling in mouse models of diabetes or the genetic disruption of the insulin signaling pathway in podocytes propagates hyperglycemia induced maladaptive UPR and DN. Insulin resistance in podocytes specifically promotes activating transcription factor 6 (ATF6) dependent pathogenic UPR. Akin to insulin, recent studies have identified that the cytoprotective effect of anticoagulant serine protease-activated protein C (aPC) in DN is mediated by sXBP1. In mouse models of DN, treatment with chemical chaperones that improve protein folding provides an additional benefit on top of currently used ACE inhibitors. Understanding the molecular mechanisms that transmute renal cell specific adaptive responses and that deteriorate renal function in diabetes will enable researchers to develop new therapeutic regimens for DN. Within this review, we focus on the current understanding of homeostatic mechanisms by which UPR is regulated in DN.
The parotid gland is one of the major salivary glands producing a serous secretion, and it plays an essential role in the digestive and immune systems. Knowledge of peroxisomes in the human parotid gland is minimal; furthermore, the peroxisomal compartment and its enzyme composition in the different cell types of the human parotid gland have never been subjected to a detailed investigation. Therefore, we performed a comprehensive analysis of peroxisomes in the human parotid gland’s striated duct and acinar cells. We combined biochemical techniques with various light and electron microscopy techniques to determine the localization of parotid secretory proteins and different peroxisomal marker proteins in parotid gland tissue. Moreover, we analyzed the mRNA of numerous gene encoding proteins localized in peroxisomes using real-time quantitative PCR. The results confirm the presence of peroxisomes in all striated duct and acinar cells of the human parotid gland. Immunofluorescence analyses for various peroxisomal proteins showed a higher abundance and more intense staining in striated duct cells compared to acinar cells. Moreover, human parotid glands comprise high quantities of catalase and other antioxidative enzymes in discrete subcellular regions, suggesting their role in protection against oxidative stress. This study provides the first thorough description of parotid peroxisomes in different parotid cell types of healthy human tissue.
Aims: Although mortality rate is very high, diagnosis of acute myocarditis remains challenging with conventional tests. We aimed to elucidate the potential role of longitudinal 2-Deoxy-2-\(^{18}\)F-fluoro-D-glucose (\(^{18}\)F-FDG) positron emission tomography (PET) inflammation monitoring in a rat model of experimental autoimmune myocarditis.
Methods and results: Autoimmune myocarditis was induced in Lewis rats by immunizing with porcine cardiac myosin emulsified in complete Freund’s adjuvant. Time course of disease was assessed by longitudinal \(^{18}\)F-FDG PET imaging. A correlative analysis between in- and ex vivo \(^{18}\)F-FDG signalling and macrophage infiltration using CD68 staining was conducted. Finally, immunohistochemistry analysis of the cell-adhesion markers CD34 and CD44 was performed at different disease stages determined by longitudinal \(^{18}\)F-FDG PET imaging. After immunization, myocarditis rats revealed a temporal increase in 18F-FDG uptake (peaked at week 3), which was followed by a rapid decline thereafter. Localization of CD68 positive cells was well correlated with in vivo \(^{18}\)F-FDG PET signalling (R\(^2\) = 0.92) as well as with ex vivo 18F-FDG autoradiography (R\(^2\) = 0.9, P < 0.001, respectively). CD44 positivity was primarily observed at tissue samples obtained at acute phase (i.e. at peak 18F-FDG uptake), while CD34-positive staining areas were predominantly identified in samples harvested at both sub-acute and chronic phases (i.e. at \(^{18}\)F-FDG decrease).
Conclusion: \(^{18}\)F-FDG PET imaging can provide non-invasive serial monitoring of cardiac inflammation in a rat model of acute myocarditis.
Die Barriereeigenschaften des Gefäßendothels werden durch Verschluß- und Adhärenskontakte vermittelt. Das Ca2+-abhängige Zelladhäsionsmolekül VE-Cadherin vermittelt in Adhärenskontakten die Adhäsion benachbarter Endothelzellen. Es wurde vermutet, daß die extrazelluläre Ca2+-Konzentration und das intrazelluläre Aktinfilamentsystem die Adhäsionseigenschaften von VE-Cadherin verändern können. Daher wurden diese Einflußfaktoren mit Hilfe der Laserpinzetten-Technik untersucht. Hierzu wurden Latex-Mikroperlen mit rekombinanten VE-Cadherin-Fc-Molekülen beschichtet, die damit an VE-Cadherin-Moleküle von Endothelzellen binden und Zell-Zell-Kontakte simulieren konnten. Es zeigte sich, daß die ausschließlich durch VE-Cadherin vermittelte Interaktion zwischen Mikroperlen und Endothelzellen direkt von der extrazellulären Ca2+-Konzentration abhängig war und sich durch eine s-förmige Titrationskurve beschreiben ließ: Die Bindungshäufigkeit der Mikroperlen war bei Ca2+-Konzentrationen nahe 0,0 mM gering (26-27 %), nahm ab 0,8 mM stark zu (38 %) und erreichte bei 1,8 mM ein Maximum (65 %). Halbmaximale Bindung (KD) wurde bei 1,1 mM Ca2+ erreicht. Die Bindung war hochkooperativ (Hill Koeffizient nH = 4,6). Um die Eigenschaften des Aktinfilamentsystems zu verändern, wurden die Zellen mit Cytochalasin B, Cytochalasin D und dem Ca2+-Ionophor A 23187 inkubiert. Dabei nahm die Bindungshäufigkeit der Mikroperlen deutlich gegenüber Kontrollbedingungen ab. Es wurde gefolgert, daß ein intaktes Aktinfilamentsystem unmittelbar die Interaktion zwischen VE-Cadherin-Molekülen stärkte. Die Ergebnisse dieser Arbeit liefern damit neue Erkenntnisse über die Eigenschaften von VE-Cadherin: Die Adhäsion dieses Moleküls wird im physiologischen Ca2+-Bereich reguliert und ist direkt von einem intakten Aktinfilamentsystem abhängig. Es ist vorstellbar, daß die durch VE-Cadherin vermittelten Barriereeigenschaften des Endothels in vivo durch ähnliche Mechanismen reguliert werden. Ein Abfall der Ca2+-Konzentration im Interzellularspalt unter den für die Adhäsion kritischen Wert von 1,1 mM könnte durch Agonist-vermittelte Öffnung von Ca2+-Kanälen erfolgen. Eingeströmtes Ca2+ könnte seinerseits über Aktivierung von Gelsolin zur Fragmentation von Aktinfilamenten führen und so die Adhäsion weiter schwächen.
Clinical prognosis of metastasized colorectal carcinoma (CRC) is still not at desired levels and novel drugs are needed. Here, we focused on the multi-tyrosine kinase inhibitor E7080 (Lenvatinib) and assessed its therapeutic efficacy against human CRC cell lines in vitro and human CRC xenografts in vivo. The effect of E7080 on cell viability was examined on 10 humanCRCcell lines and humanendothelial cells (HUVEC). The inhibitory effect of E7080 on VEGF-induced angiogenesis was studied in an ex vivo mouse aortic ring angiogenesis assay. In addition, the efficacy of E7080 against xenografts derived fromCRC cell lines and CRC patient resection specimenswithmutated KRASwas investigated in vivo. Arelatively low cytotoxic effect of E7080 on CRC cell viabilitywas observed in vitro. Endothelial cells (HUVEC)weremore susceptible to the incubation with E7080. This is in line with the observation that E7080 demonstrated an anti-angiogenic effect in a three-dimensional ex vivo mouse aortic ring angiogenesis assay. E7080 effectively disrupted CRC cell-mediated VEGF-stimulated growth of HUVEC in vitro. Daily in vivo treatment with E7080 (5 mg/kg) significantly delayed the growth of KRAS mutated CRC xenografts with decreased density of tumor-associated vessel formations and without tumor regression. This observation is in line with results that E7080 did not significantly reduce the number of Ki67-positive cells in CRC xenografts. The results suggest antiangiogenic activity of E7080 at a dosage thatwas well tolerated by nudemice. E7080 may provide therapeutic benefits in the treatment of CRC with mutated KRAS.
Bei der Multiplen Sklerose (MS) handelt es sich um eine Autoimmunerkrankung des zentralen Nervensystems (ZNS). Abhängig von der betroffenen ZNS-Region kann es zu vielfältigen Symptomen kommen. Neben neurologischen Symptomen verursacht durch ZNS-Läsionen leidet ein Großteil der MS-Patienten auch unter gastrointestinalen Funktionsstörungen. Diese gastrointestinalen Symptome wurden bisher eher auf Läsionen im Rückenmark zurückgeführt und nicht direkt in Verbindung mit der autoimmunen Ätiologie der Erkrankung gebracht.
In dieser Studie wurde das enterische Nervensystem (ENS) in einem B-Zell- und Antikörper-abhängigen Mausmodell der MS untersucht. Dafür wurde der Autoimmunprozess durch Immunisierung mit MP4, einem Fusionsprotein aus dem Myelin-Basischen-Protein (MBP) und dem Proteolipid-Protein (PLP), ausgelöst. Das ZNS und ENS wurden in den unterschiedlichen Erkrankungsstadien immunhistochemisch und elektronenmikroskopisch analysiert. Neben der Immunpathologie des ZNS konnte dabei eine Degeneration des ENS schon vor dem Einsetzen der ersten neurologischen Defizite nachgewiesen werden. Die ENS-Pathologie war antikörper-mediiert und ging einher mit einer verringerten gastrointestinalen Motilität sowie mit einer Gliose und Neurodegeneration des ENS.
Mithilfe von Immunpräzipitation und Massenspektrometrie konnten im ENS vier mögliche Zielstrukturen des Autoimmunprozesses identifiziert werden, was auf sog. epitope spreading hindeutet. Auch im Plasma von MS-Patienten konnten Antikörper gegen drei dieser Antigene nachgewiesen werden. Des Weiteren zeigten sich in Kolon-Resektaten von MS-Patienten erste Ansätze einer Neurodegeneration und Gliose des ENS.
In dieser Studie wurde zum ersten Mal ein direkter Zusammenhang zwischen der Autoimmunreaktion gegen das ZNS und einer simultanen Reaktion gegen das ENS gezeigt. Dies kann einen Paradigmenwechsel im Verständnis der Immunpathogenese der MS anstoßen und neue therapeutische und diagnostische Ansätze initiieren.
As soon as Peripheral Blood Mononuclear Cells (PBMC) are isolated from whole blood, some cells begin dying. The rate of apoptotic cell death is increased when PBMC are shipped, cryopreserved, or stored under suboptimal conditions. Apoptotic cells secrete cytokines that suppress inflammation while promoting phagocytosis. Increased numbers of apoptotic cells in PBMC may modulate T cell functions in antigen-triggered T cell assays. We assessed the effect of apoptotic bystander cells on a T cell ELISPOT assay by selectively inducing B cell apoptosis using α-CD20 mAbs. The presence of large numbers of apoptotic B cells did not affect T cell functionality. In contrast, when PBMC were stored under unfavorable conditions, leading to damage and apoptosis in the T cells as well as bystander cells, T cell functionality was greatly impaired. We observed that measuring the number of apoptotic cells before plating the PBMC into an ELISPOT assay did not reflect the extent of PBMC injury, but measuring apoptotic cell frequencies at the end of the assay did. Our data suggest that measuring the numbers of apoptotic cells prior to and post T cell assays may provide more stringent PBMC quality acceptance criteria than measurements done only prior to the start of the assay.
There is a largely divergent body of literature regarding the relationship between Epstein-Barr virus (EBV) infection and brain inflammation in multiple sclerosis (MS). Here, we tested MS patients during relapse (n = 11) and in remission (n = 19) in addition to n = 22 healthy controls to study the correlation between the EBV- and brain-specific B cell response in the blood by enzyme-linked immunospot (ELISPOT) and enzyme-linked immunosorbent assay (ELISA). Cytomegalovirus (CMV) was used as a control antigen tested in n = 16 MS patients during relapse and in n = 35 patients in remission. Over the course of the study, n = 16 patients were untreated, while n = 33 patients received immunomodulatory therapy. The data show that there was a moderate correlation between the frequencies of EBV- and brain-reactive B cells in MS patients in remission. In addition we could detect a correlation between the B cell response to EBV and disease activity. There was no evidence of an EBV reactivation. Interestingly, there was also a correlation between the frequencies of CMV- and brain-specific B cells in MS patients experiencing an acute relapse and an elevated B cell response to CMV was associated with higher disease activity. The trend remained when excluding seronegative subjects but was non-significant. These data underline that viral infections might impact the immunopathology of MS, but the exact link between the two entities remains subject of controversy.
Most humans become infected with human cytomegalovirus (HCMV). Typically, the immune system controls the infection, but the virus persists and can reactivate in states of immunodeficiency. While substantial information is available on the contribution of CD8 T cells and antibodies to anti-HCMV immunity, studies of the T\(_{H}\)1, T\(_{H}\)2, and T\(_{H}\)17 subsets have been limited by the low frequency of HCMV-specific CD4 T cells in peripheral blood mononuclear cell (PBMC). Using the enzyme-linked Immunospot\(^{®}\) assay (ELISPOT) that excels in low frequency measurements, we have established these in a sizable cohort of healthy HCMV controllers. Cytokine recall responses were seen in all seropositive donors. Specifically, interferon (IFN)-\({\gamma}\) and/or interleukin (IL)-17 were seen in isolation or with IL-4 in all test subjects. IL-4 recall did not occur in isolation. While the ratios of T\(_{H}\)1, T\(_{H}\)2, and T\(_{H}\)17 cells exhibited substantial variations between different individuals these ratios and the frequencies were relatively stable when tested in samples drawn up to five years apart. IFN-\({\gamma}\) and IL-2 co-expressing polyfunctional cells were seen in most subjects. Around half of the HCMV-specific CD4 cells were in a reversible state of exhaustion. The data provided here established the T\(_{H}\)1, T\(_{H}\)2, and T\(_{H}\)17 characteristic of the CD4 cells that convey immune protection for successful immune surveillance against which reactivity can be compared when the immune surveillance of HCMV fails.
Organoids derived from human pluripotent stem cells are interesting models to study mechanisms of morphogenesis and promising platforms for disease modeling and drug screening. However, they mostly remain incomplete as they lack stroma, tissue resident immune cells and in particular vasculature, which create important niches during development and disease. We propose, that the directed incorporation of mesodermal progenitor cells (MPCs) into organoids will overcome the aforementioned limitations. In order to demonstrate the feasibility of the method, we generated complex human tumor as well as neural organoids. We show that the formed blood vessels display a hierarchic organization and mural cells are assembled into the vessel wall. Moreover, we demonstrate a typical blood vessel ultrastructure including endothelial cell-cell junctions, a basement membrane as well as luminal caveolae and microvesicles. We observe a high plasticity in the endothelial network, which expands, while the organoids grow and is responsive to anti-angiogenic compounds and pro-angiogenic conditions such as hypoxia. We show that vessels within tumor organoids connect to host vessels following transplantation. Remarkably, MPCs also deliver Iba1\(^+\) cells that infiltrate the neural tissue in a microglia-like manner.
3D cell culture models which closely resemble real human tissues are of high interest for disease modelling, drug screening as well as a deeper understanding of human developmental biology. Such structures are termed organoids. Within the last years, several human organoid models were described. These are usually stem cell derived, arise by self-organization, mimic mechanisms of normal tissue development, show typical organ morphogenesis and recapitulate at least some organ specific functions. Many tissues have been reproduced in vitro such as gut, liver, lung, kidney and brain. The resulting entities can be either derived from an adult stem cell population, or generated from pluripotent stem cells using a specific differentiation protocol. However, many organoid models only recapitulate the organs parenchyma but are devoid of stromal components such as blood vessels, connective tissue and inflammatory cells. Recent studies show that the incorporation of endothelial and mesenchymal cells into organoids improved their maturation and might be required to create fully functional micro-tissues, which will allow deeper insights into human embryogenesis as well as disease development and progression. In this review article, we will summarize and discuss recent works trying to incorporate stromal components into organoids, with a special focus on neural organoid models.
Neurofilament depletion improves microtubule dynamics via modulation of Stat3/stathmin signaling
(2016)
In neurons, microtubules form a dense array within axons, and the stability and function of this microtubule network is modulated by neurofilaments. Accumulation of neurofilaments has been observed in several forms of neurodegenerative diseases, but the mechanisms how elevated neurofilament levels destabilize axons are unknown so far. Here, we show that increased neurofilament expression in motor nerves of pmn mutant mice, a model of motoneuron disease, causes disturbed microtubule dynamics. The disease is caused by a point mutation in the tubulin-specific chaperone E (Tbce) gene, leading to an exchange of the most C-terminal amino acid tryptophan to glycine. As a consequence, the TBCE protein becomes instable which then results in destabilization of axonal microtubules and defects in axonal transport, in particular in motoneurons. Depletion of neurofilament increases the number and regrowth of microtubules in pmn mutant motoneurons and restores axon elongation. This effect is mediated by interaction of neurofilament with the stathmin complex. Accumulating neurofilaments associate with stathmin in axons of pmn mutant motoneurons. Depletion of neurofilament by Nefl knockout increases Stat3-stathmin interaction and stabilizes the microtubules in pmn mutant motoneurons. Consequently, counteracting enhanced neurofilament expression improves axonal maintenance and prolongs survival of pmn mutant mice. We propose that this mechanism could also be relevant for other neurodegenerative diseases in which neurofilament accumulation and loss of microtubules are prominent features.
Polyspezifische organische Kationentransporter (OCTs) der SLC22 Familie transportieren organische Kationen entlang eines elektrochemischen Gradienten und spielen eine entscheidende Rolle bei der Ausscheidung und Gewebeverteilung von endogenen organischen Kationen und bei der Aufnahme, Ausscheidung und Verteilung von kationischen Medikamenten und Toxinen. Zu den endogenen transportierten Substanzen gehört auch der Neurotransmitter Acetylcholin (ACh), der unter anderem in der menschlichen Haut eine wichtige Rolle in der Zelldifferenzierung und –proliferation spielt. Die dermatologischen Antiinfektiva Gentianaviolett (GV) und Brillantgrün (BG) aus der Gruppe der Triphenylmethanfarbstoffe werden in der Behandlung lokaler Wundinfektionen verwendet und zeigen im klinischen Gebrauch Nebenwirkungen wie Wundheilungsstörungen. Es konnte gezeigt werden, dass die Farbstoffe die OCTs konzentrationsabhängig hemmen und es wurden die Werte der halbmaximalen Hemmkonzentration ermittelt. Dabei zeigte sich, dass GV und BG zu den Hemmstoffen mit der höchsten Affinität zu den OCTs gehören. Ein Transport der Farbstoffe durch die OCTs konnte nicht nachgewiesen werden, die toxische Wirkung auf Keratinozyten in in-vitro Versuchen mit menschlichen Zellreihen wurde bestätigt. Ein Zusammenhang zwischen den beobachteten Wundheilungsstörungen unter der Therapie mit Triphenylmethanfarbstoffen und der Hemmung des ACh-Transportes durch die OCTs konnte nicht bestätigt werden.
Untersuchungen zum Scherstress-responsiven Element des PDGF-Promotors Zellen sind im menschlichen Organismus ständig mechanischen Kräften ausgesetzt. Eine dieser Kräfte ist die spezielle Schubkraft, die durch Flüssigkeitsstrom auf Zellen ausgeübt wird und als Scherstress bezeichnet wird. Die Stimulation von Zellen durch Scherstress führt zu diversen Reaktionen, die von Wanderungsvorgängen, über Umbau des Zytoskeletts bis hin zur gesteigerten Expression verschiedener Gene reichen. Für die Induktion des Gens der B-Kette des Plättchen-Wachstumsfaktors (PDGF) wurde von Resnick 1993 ein sechs Basenpaare langes cis-aktives Scherstress-responsives Promotorelement (SSRE) identifiziert, das an der Transkriptionsinduktion des Gens durch Scherstress beteiligt ist. In der hier vorliegenden Arbeit sollten die Eigenschaften dieses SSRE gezeigt werden, indem ein Reportergen-Assay mit dem grün fluoreszierenden Proteins EGFP in Zellen der Linie ECV304 ausgetestet wurde. Eine Fragestellung der Arbeit bestand darin, zu prüfen ob das SSRE notwendig und ausreichend für die Scherstressresponsivität eines Promotors ist und ob die Expressionsstärke des Reporterproteins EGFP mit der Stärke und Dauer der Scherstressstimulation korreliert. Zudem sollte der Effekt verschiedenar-tiger pharmakologischer Substanzen auf den PDGF-Promotor unter Scherstress gezeigt werden. Dazu wurde ein neues arithmetisches Verfahren entwickelt, das erlaubt, Zellen unter Einwirkung von Scherkraft angemessen zu vermessen und statistisch auszuwerten. Durch den Einsatz des EGFP und einer hochsensitiven ICCD-Photonenkamera war es möglich, die Messung der Expressionskinetik des Reportergens in Echtzeit durchzufüh-ren. Dabei konnte gezeigt werden, dass in ECV304-Zellen unter Scherstress von 0,5, 12 und 30 dyn/cm² die Expression des intakten PDGF-Promotors mit der Stärke und Dauer der Scherstressstimulation korreliert. Dieser Effekt ist nicht zu beobachten, wenn das SSRE aus dem PDGF-Promotor entfernt wird. Ebenfalls zu keiner Steigerung der Genexpression kommt es, wenn das Reportergen hinter den Promotor des Cytomegalie-Virus (CMV) geschaltet ist, der kein bekanntes Scherstress-responsives Promotor-Element enthält. Inseriert man in den CMV-Promotor das SSRE, so zeigt der Promotor unter Scherstress-Einwirkung ebenfalls eine gesteiger-te Expression, die allerdings hinter der des PDGF-Vollkonstrukts zurückbleibt. Es konnte damit gezeigt werden, dass das SSRE in einen nicht Scherstress-responsiven Promotor verbracht diesen für Strömungskräfte suszeptibel macht. Der PDGF-Promotor enthält eine bekannte Phorbolester-Bindungsstelle. In der vorlie-genden Arbeit konnte gezeigt werden, dass ECV304-Zellen bei Inkubation in mit Phor-bolester versetztem Medium die Transkription des Reportergens deutlich steigern. Ebenfalls zu einer Steigerung der Expression des PDGF-Vollkonstrukts kommt es bei appliziertem Scherstress von 12 dyn/cm² und gleichzeitiger Hemmung der Proteinkinase C (PK-C). Zwar zeigt die Hemmung mit Chelerythrin eine schwächere Lichtintensitäts-zunahme, wie sie beim Einsatz von Calphostin C, beide Messungen ergaben aber eine Steigerung der Lichtintensität gegenüber der Messung des PDGF-Vollkonstrukts bei 12 dyn/cm² in normalem Kulturmedium.
Besides external characteristics and reading a piece of DNA (barcode), the DNA weight per nucleus (genome size) via flow cytometry is a key value to detect species and hybrids and determine ploidy. In addition, the DNA weight appears to be related to various properties, such as the size of the cell and the nucleus, the duration of mitosis and meiosis and the generation time. Sometimes it is even possible to distinguish between groups or sections, which can lead to new classification of the genera. The variation in DNA weight is also useful to analyze biodiversity, genome evolution and relationships between related taxa. Moreover, it is important to know how large a genome is before one determines the base sequence of the DNA of a plant. Flow cytometry is also important for understanding fundamental processes in plants such as growth and development and recognizing chimeras. In the literature, DNA weight measurements are usually limited to one genus and often only locally (Siljak et al. 2010; Bai et al. 2012). In this study, however, it was decided to investigate all vascular plants from one country. This can also contribute to the protection of rare plants. This study is the first flora in the world whose weight of DNA per nucleus and peak patterns has been determined. More than 6400 plants, representing more than 2350 (sub)species (more than 90%) have been collected, thanks to the help of almost 100 volunteers of Floristisch Onderzoek Nederland (Floron). Multiple specimens of many species have therefore been measured, preferably from different populations, in some cases more than fifty. For 1370 species, these values were not previously published. Moreover, a good number of the remaining 45% are new for The Netherlands. In principle, each species has a fixed weight of DNA per nucleus. It has also been found that, especially between the genera, there are strong differences in the number of peaks that determine the DNA weight, from one to five peaks. This indicates that in a plant or organ there are sometimes nuclei with multiples of its standard DNA weight (multiple ploidy levels). It is impossible to show graphs of more than 2350 species. Therefore, we have chosen to show the peak pattern in a new way in a short formula. Within most genera there are clear differences in the DNA weights per nucleus between the species, in some other genera the DNA weight is hardly variable. Based on about twenty genera that were previously measured completely in most cases (‘t Hart et al. 2003: Veldkamp and Zonneveld 2011; Soes et al. 2012; Dirkse et al. 2014, 2015; Verloove et al. 2017; Zonneveld [et al.] 2000−2018), it can be noted that even if all species of a genus have the same number of chromosomes, there can still be a difference of up to three times in the weight of the DNA. Therefore, a twice larger DNA weight does not have to indicate four sets of chromosomes. Finally, this research has also found clues to examine further the current taxonomy of a number of species or genera.
Results are presented of cloning cDNA of procine growth hormone, analysis of its primary structure, and creation of a construction capable of expression of this cDNA in Esqheriahia coti cells. It is shown that in the population of mRNA coding porcine growth hormone, heterogeneity is noted which is manifested not only at the level of the nucleotide sequence, but also is reflected in the amino acid sequence of the mature hormone.
Das Synaptonemalkomplexprotein SYCP1 ist eine Strukturkomponente des Synaptonemalkomplexes (SC) von Saeugern, einer meiosespezifischen Struktur, die wesentlich fuer die Synapse, Rekombination und Segregation homologer Chromosomen ist. Der SC besteht aus zwei lateralen Elementen (LEs) und einer zentralen Region (CR), in deren Mitte das zentrale Element (CE) liegt. Dabei sind die LEs den Achsen der homologen Chromosomen aufgelagert und werden in der CR durch Transversalfilamente (TFs) mit dem CE verbunden. Im Protein SYCP1 (125 kDa) flankieren zwei nicht-helikale terminale Domaenen eine ausgedehnte zentrale „Coiled-Coil“-Domaene. Fuer diese Domaene wird angenommen, dass sie die die Kluft zwischen LEs und CE ueberbrueckt, wobei die C-Termini in den LEs verankert sind und die N-Termini im CE lokalisiert wurden. Um die molekulare Architektur des SC besser zu verstehen und die Bedeutung von SYCP1 für die Zusammenlagerung des SC aufzudecken, wurden die Polymerisationseigenschaften von SYCP1 erforscht. Dazu wurde das Protein in somatischen Zellen exprimiert. In diesem experimentellem Ansatz polymerisierte SYCP1 autonom zu filamentoesen Strukturen, welche sich auf ultrastruktureller Ebene als alternierende elektronendichte Balken offenbarten, die ueber TFs verbunden waren. Dieser Aufbau glich parallel aneinander gereihten Stapeln von SCs, so genannten Polykomplexen (PCs). Die Analyse der Orientierung der SYCP1 Molekuele innerhalb der PCs erwies, dass diese hochorganisiert vorliegen und die Organisation von SYCP1 innerhalb von PCs und SCs identisch ist. Folglich kann sich SYCP1 sogar in Abwesenheit anderer SC-Proteine zu Strukturen zusammenlagern, die der CR entsprechen und muss dementsprechend beim Aufbau der CR des SC den grundlegenden Faktor darstellen. Für eine genauere Analyse wurden ausgewaehlte Mutanten von SYCP1 exprimiert. Moleküle mit modifizierter Laenge der zentralen alpha-helikalen Domaene resultierten in der Bildung von PCs mit veränderter Weite der CR. Dies beweist, dass die „Coiled-Coil“-Domaene den Abstand der CR eines PC bestimmt und impliziert dieselbe Funktion in der SC-Bildung. Darueber hinaus wurde gezeigt, dass SYCP1 Molekuele mit Deletion des nicht-helikalen N-Terminus immer noch in der Lage sind, PCs zu bilden, diese Eigenschaft aber stark eingeschraenkt ist. Das bezeugt die Bedeutung des N-Terminus sowohl in der PC-Bildung als auch im Aufbau des CE von SCs, weist aber dabei auch dem vorderen Teil der „Coiled-Coil“-Domaene eine wichtige Rolle zu. Im Gegensatz dazu war bei Mutanten mit Deletion des nicht-helikalen C-Terminus die PC-Bildung vollstaendig blockiert, was auf eine große Bedeutung dieser Domaene fuer die Polymerisation hinweist. Ein weiterer Hauptgegenstand der Arbeit war die Charakterisierung von Bindungspartnern von SYCP1. Über Immungoldlokalisation auf Maushoden konnten die Proteine Syce1 und Cesc1 als erste ausschliessliche Komponenten des CE des SC bestimmt werden. Zusaetzlich wurde die Interaktion dieser Proteine mit dem N-Terminus von SYCP1 verifiziert. SYCP1 bildet also die Grundstruktur des CE aus und rekrutiert Syce1 und Cesc1.