TY - JOUR A1 - Gilder, Stuart A. A1 - Wack, Michael A1 - Kaub, Leon A1 - Roud, Sophie C. A1 - Petersen, Nikolai A1 - Heinsen, Helmut A1 - Hillenbrand, Peter A1 - Milz, Stefan A1 - Schmitz, Chistoph T1 - Distribution of magnetic remanence carriers in the human brain JF - Scientific Reports N2 - That the human brain contains magnetite is well established; however, its spatial distribution in the brain has remained unknown. We present room temperature, remanent magnetization measurements on 822 specimens from seven dissected whole human brains in order to systematically map concentrations of magnetic remanence carriers. Median saturation remanent magnetizations from the cerebellum were approximately twice as high as those from the cerebral cortex in all seven cases (statistically significantly distinct, p = 0.016). Brain stems were over two times higher in magnetization on average than the cerebral cortex. The ventral (lowermost) horizontal layer of the cerebral cortex was consistently more magnetic than the average cerebral cortex in each of the seven studied cases. Although exceptions existed, the reproducible magnetization patterns lead us to conclude that magnetite is preferentially partitioned in the human brain, specifically in the cerebellum and brain stem. KW - brain KW - neurophysiology Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-233035 VL - 8 ER - TY - JOUR A1 - Hibar, Derrek P. A1 - Adams, Hieab H.H. A1 - Jahanshad, Neda A1 - Chauhan, Ganesh A1 - Stein, Jason L A1 - Hofer, Edith A1 - Renteria, Miguel E. A1 - Bis, Joshua C. A1 - Arias-Vasquez, Alejandro A1 - Ikram, M. Kamran A1 - Desrivières, Sylvane A1 - Vernooij, Meike W. A1 - Abramovic, Lucija A1 - Alhusaini, Saud A1 - Amin, Najaf A1 - Andersson, Micael A1 - Arfanakis, Konstantinos A1 - Aribisala, Benjamin S. A1 - Armstrong, Nicola J. A1 - Athanasiu, Lavinia A1 - Axelsson, Tomas A1 - Beecham, Ashley H. A1 - Beiser, Alexa A1 - Bernard, Manon A1 - Blanton, Susan H. A1 - Bohlken, Marc M. A1 - Boks, Marco P. A1 - Bralten, Janita A1 - Brickman, Adam M. A1 - Carmichael, Owen T1 - Novel genetic loci associated with hippocampal volume JF - Nature Communications N2 - The hippocampal formation is a brain structure integrally involved in episodic memory, spatial navigation, cognition and stress responsiveness. Structural abnormalities in hippocampal volume and shape are found in several common neuropsychiatric disorders. To identify the genetic underpinnings of hippocampal structure here we perform a genome-wide association study (GWAS) of 33,536 individuals and discover six independent loci significantly associated with hippocampal volume, four of them novel. Of the novel loci, three lie within genes (ASTN2, DPP4 and MAST4) and one is found 200 kb upstream of SHH. A hippocampal subfield analysis shows that a locus within the MSRB3 gene shows evidence of a localized effect along the dentate gyrus, subiculum, CA1 and fissure. Further, we show that genetic variants associated with decreased hippocampal volume are also associated with increased risk for Alzheimer’s disease (r\(_g\)=−0.155). Our findings suggest novel biological pathways through which human genetic variation influences hippocampal volume and risk for neuropsychiatric illness. KW - brain KW - hippocampal formation KW - neuropsychiatric disorders KW - Alzheimer’s disease KW - genetic loci KW - hippocampal volume Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-182115 VL - 8 ER - TY - THES A1 - Nguyen, Tu Anh Thi T1 - Neural coding of different visual cues in the monarch butterfly sun compass T1 - Neuronale Kodierung verschiedener visueller Signale im Sonnenkompass des Monarchfalters N2 - Monarch butterflies are famous for their annual long-distance migration. Decreasing temperatures and reduced daylight induce the migratory state in the autumn generation of monarch butterflies. Not only are they in a reproductive diapause, they also produce fat deposits to be prepared for the upcoming journey: Driven by their instinct to migrate, they depart from their eclosion grounds in the northern regions of the North American continent and start their southern journey to their hibernation spots in Central Mexico. The butterflies cover a distance of up to 4000 km across the United States. In the next spring, the same butterflies invert their preferred heading direction due to seasonal changes and start their northward spring migration. The spring migration is continued by three consecutive butterfly generations, until the animals repopulate the northern regions in North America as non-migratory monarch butterflies. The monarch butterflies’ migratory state is genetically and epigenetically regulated, including the directed flight behavior. Therefore, the insect’s internal compass system does not only have to encode the butterflies preferred, but also its current heading direction. However, the butterfly’s internal heading representation has to be matched to external cues, to avoid departing from its initial flight path and increasing its risk of missing its desired destination. During the migratory flight, visual cues provide the butterflies with reliable orientation information. The butterflies refer to the sun as their main orientation cue. In addition to the sun, the butterflies likely use the polarization pattern of the sky for orientation. The sky compass signals are processed within a region in the brain, termed the central complex (CX). Previous research on the CX neural circuitry of the monarch butterflies demonstrated that tangential central complex neurons (TL) carry the visual input information into the CX and respond to a simulated sun and polarized light. However, whether these cells process additional visual cues like the panoramic skyline is still unknown. Furthermore, little is known about how the migratory state affects visual cue processing. In addition to this, most experiments studying the monarch butterfly CX focused on how neurons process single visual cues. However, how combined visual stimuli are processed in the CX is still unknown. This thesis is investigating the following questions: 1) How does the migratory state affect visual cue processing in the TL cells within the monarch butterfly brain? 2) How are multiple visual cues integrated in the TL cells? 3) How is compass information modulated in the CX? To study these questions, TL neurons from both animal groups (migratory and non-migratory) were electrophysiologically characterized using intracellular recordings while presenting different simulated celestial cues and visual sceneries. I showed that the TL neurons of migratory butterflies are more narrowly tuned to the sun, possibly helping them in keeping a directed flight course during migration. Furthermore, I found that TL cells encode a panoramic skyline, suggesting that the CX network combines celestial and terrestrial information. Experiments with combined celestial stimuli revealed that the TL cells combine both cue information linearly. However, if exposing the animals to a simulated visual scenery containing a panoramic skyline and a simulated sun, the single visual cues are weighted differently. These results indicate that the CX’s input region can flexibly adapt to different visual cue conditions. Furthermore, I characterize a previously unknown neuron in the monarch butterfly CX which responds to celestial stimuli and connects the CX with other brain neuropiles. How this cell type affects heading direction encoding has yet to be determined. N2 - Monarchfalter sind berühmt für ihre jährlichen Migrationsflüge. Sinkende Temperaturen und die verkürzte Tageslichtbestrahlung induzieren die Migration in einer Herbstgeneration der Monarchfalter. Sie sind nicht nur in reproduktiver Diapause, sondern produzieren Fettreserven für die bevorstehende Reise: Getrieben von ihrem Migrationsinstinkt verlassen sie ihre Schlüpfstätten in den nördlichen Regionen des Nordamerikanischen Kontinents und starten ihre südliche Wanderung zu ihren Überwinterunsgstätten in Zentralmexiko. Dabei legen die Schmetterlinge Strecken von bis zu 4000 km durch die Vereinigten Staaten zurück. Im nächsten Frühling kehren die gleichen Schmetterlinge ihre Vorzugsrichtung durch die jahreszeitlich bedingten Veränderungen um und die Tiere bewegen sich nordwärts. Die Frühlingsgeneration wird insgesamt über drei Schmetterlingsgeneration durchgeführt, bis die Tiere die nördlichen Regionen in Nordamerika wieder als nicht-migrierende Monarchfalter besiedeln. Der Migrationsstatus der Monarchfalter ist genetisch und epigenetisch reguliert, was auch das gerichtete Flugverhalten einschließt. Demnach muss das interne Kompasssystem der Falter nicht nur die bevorzugte, sondern auch die aktuelle Flugrichtung prozessieren. Die interne Repräsentation der Flugrichtung des Falters muss jedoch mit der Umwelt abgeglichen werden, ansonsten droht das Tier von der ursprünglichen Flugrichtung abzuweichen und erhöht das Risiko den Wunschort nicht zu erreichen. Während des Migrationsfluges bieten visuelle Signale verlässliche Orientierungsinformationen. Dabei ist die Sonne ihre Hauptorientierungsreferenz. Zusätzlich zur Sonne nutzen die Schmetterlinge vermutlich noch das Polarisationsmuster des Himmels zur Orientierung. Diese Himmelskompasssignale werden im Gehirn in einer Gehirnregion, den Zentralkomplex, integriert. Vergangene Forschungsprojekte am Zentralkomplex haben gezeigt, dass tangentiale Zentralkomplex-Neurone (TL) die visuellen Signale in den Zentralkomplex leiten und auf eine simulierte Sonne und polarisiertes Licht sensitiv sind. Ob diese Zellen noch weitere visuelle Signale verarbeiten, wie zum Beispiel den Horizont eines Panoramas, ist nicht bekannt. Auch ist der Einfluss des Migrationsstatus auf die visuelle Signalverarbeitung im Zentralkomplex bisher unerforscht. Des Weiteren haben die meisten Experimente am Zentralkomplex des Monarchfalters den Fokus auf die Verarbeitung einzelner simulierter visueller Reize gelegt. Wie aber Kombinationen aus Stimuli im Zentralkomplex verarbeitet werden, ist nicht bekannt.   Diese Dissertation beschäftigt sich mit folgenden Fragen: 1) Wie beeinflusst der Migrationsstatus die visuelle Reizverarbeitung in TL-Zellen im Monarchfaltergehirn? 2) Wie werden mehrere visuelle Reize in TL-Zellen miteinander kombiniert? 3) Wie wird Kompassinformation im Zentralkomplex moduliert? In diesem Zusammenhang wurden TL-Neurone aus beiden Gruppen (migrierende und nichtmigrierende Monarchfalter) elektrophysiologisch mittels intrazellulärer Aufnahmen charakterisiert, während den Tieren unterschiedliche simulierte Himmelkompasssignale und visuelle Szenerien präsentiert wurden. Hierbei konnte ich zeigen dass die TL-Neuronen in migrierenden Tieren ein engeres Tuning zur Sonne aufwiesen, was den Tieren helfen könnte, eine gerichtete Flugrichtung zu halten. Außerdem antworten die TL-Neurone auf ein Panorama, womit der Zentralkomplex in der Lage wäre, Himmelskompasssignale mit terrestrischer Information zu kombinieren. In Experimenten mit zwei kombinierten simulierten Himmelskompasssignalen konnte ich zeigen, dass die TL-Zellen beide Signalinformationen linear miteinander verrechnen. Wenn die TL-Zellen jedoch mit einer visuellen Szenerie stimuliert werden, welche eine simulierte Sonne und ein Panorama beinhaltet, werden die einzelnen visuellen Signale unterschiedlich gewichtet. Die Ergebnisse sind ein Hinweis darauf, dass die Eingangsregion im Zentralkomplex sich flexibel an die visuellen Signalbedingungen anpassen können. Außerdem habe ich ein bis dahin unbekanntes Neuron während meiner Studien charakterisieren können, welches auf simulierte Himmelskompasssignale antwortet und den Zentralkomplex mit anderen Neuropilen im Gehirn verbindet. Wie dieser Neuronentyp Einfluss auf die Kodierung der Flugrichtung nimmt, muss in der Zukunft weiter erforscht werden. KW - Monarchfalter KW - Danaus plexippus KW - Gehirn KW - Orientierung KW - Visuelle Wahrnehmung KW - monarch butterfly KW - brain KW - orientation KW - visual perception KW - central complex Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-303807 ER - TY - JOUR A1 - Feldheim, Jonas A1 - Wend, David A1 - Lauer, Mara J. A1 - Monoranu, Camelia M. A1 - Glas, Martin A1 - Kleinschnitz, Christoph A1 - Ernestus, Ralf-Ingo A1 - Braunger, Barbara M. A1 - Meybohm, Patrick A1 - Hagemann, Carsten A1 - Burek, Malgorzata T1 - Protocadherin Gamma C3 (PCDHGC3) is strongly expressed in glioblastoma and its high expression is associated with longer progression-free survival of patients JF - International Journal of Molecular Sciences N2 - 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. KW - glioblastoma multiforme KW - glioma KW - astrocytoma KW - recurrence KW - relapse KW - mRNA KW - protein KW - brain KW - expression KW - PCDHGC3 KW - WNT signaling Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-284433 SN - 1422-0067 VL - 23 IS - 15 ER - TY - JOUR A1 - Schadt, Fabian A1 - Israel, Ina A1 - Beez, Alexandra A1 - Alushi, Kastriot A1 - Weiland, Judith A1 - Ernestus, Ralf-Ingo A1 - Westermaier, Thomas A1 - Samnick, Samuel A1 - Lilla, Nadine T1 - Analysis of cerebral glucose metabolism following experimental subarachnoid hemorrhage over 7 days JF - Scientific Reports N2 - Little is known about changes in brain metabolism following SAH, possibly leading towards secondary brain damage. Despite sustained progress in the last decade, analysis of in vivo acquired data still remains challenging. The present interdisciplinary study uses a semi-automated data analysis tool analyzing imaging data independently from the administrated radiotracer. The uptake of 2-[18F]Fluoro-2-deoxy-glucose ([\(^{18}\)F]FDG) was evaluated in different brain regions in 14 male Sprague–Dawley rats, randomized into two groups: (1) SAH induced by the endovascular filament model and (2) sham operated controls. Serial [\(^{18}\)F]FDG-PET measurements were carried out. Quantitative image analysis was performed by uptake ratio using a self-developed MRI-template based data analysis tool. SAH animals showed significantly higher [\(^{18}\)F]FDG accumulation in gray matter, neocortex and olfactory system as compared to animals of the sham group, while white matter and basal forebrain region showed significant reduced tracer accumulation in SAH animals. All significant metabolic changes were visualized from 3 h, over 24 h (day 1), day 4 and day 7 following SAH/sham operation. This [\(^{18}\)F]FDG-PET study provides important insights into glucose metabolism alterations following SAH—for the first time in different brain regions and up to day 7 during course of disease. KW - SAH KW - metabolism KW - brain Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-300725 VL - 13 IS - 1 ER - TY - JOUR A1 - Thölken, Clemens A1 - Thamm, Markus A1 - Erbacher, Christoph A1 - Lechner, Marcus T1 - Sequence and structural properties of circular RNAs in the brain of nurse and forager honeybees (Apis mellifera) JF - BMC Genomics N2 - Background The honeybee (Apis mellifera) represents a model organism for social insects displaying behavioral plasticity. This is reflected by an age-dependent task allocation. The most protruding tasks are performed by young nurse bees and older forager bees that take care of the brood inside the hive and collect food from outside the hive, respectively. The molecular mechanism leading to the transition from nurse bees to foragers is currently under intense research. Circular RNAs, however, were not considered in this context so far. As of today, this group of non-coding RNAs was only known to exist in two other insects, Drosophila melanogaster and Bombyx mori. Here we complement the state of circular RNA research with the first characterization in a social insect. Results We identified numerous circular RNAs in the brain of A. mellifera nurse bees and forager bees using RNA-Seq with exonuclease enrichment. Presence and circularity were verified for the most abundant representatives. Back-splicing in honeybee occurs further towards the end of transcripts and in transcripts with a high number of exons. The occurrence of circularized exons is correlated with length and CpG-content of their flanking introns. The latter coincides with increased DNA-methylation in the respective loci. For two prominent circular RNAs the abundance in worker bee brains was quantified in TaqMan assays. In line with previous findings of circular RNAs in Drosophila, circAmrsmep2 accumulates with increasing age of the insect. In contrast, the levels of circAmrad appear age-independent and correlate with the bee's task. Its parental gene is related to amnesia-resistant memory. Conclusions We provide the first characterization of circRNAs in a social insect. Many of the RNAs identified here show homologies to circular RNAs found in Drosophila and Bombyx, indicating that circular RNAs are a common feature among insects. We find that exon circularization is correlated to DNA-methylation at the flanking introns. The levels of circAmrad suggest a task-dependent abundance that is decoupled from age. Moreover, a GO term analysis shows an enrichment of task-related functions. We conclude that circular RNAs could be relevant for task allocation in honeybee and should be investigated further in this context. KW - circRNA KW - circular transcriptome sequencing KW - honeybee KW - brain KW - neuronal KW - Methylation KW - CpG KW - alternative splicing KW - behavioral plasticity Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-241302 VL - 20 ER - TY - JOUR A1 - Habenstein, Jens A1 - Schmitt, Franziska A1 - Liessem, Sander A1 - Ly, Alice A1 - Trede, Dennis A1 - Wegener, Christian A1 - Predel, Reinhard A1 - Rössler, Wolfgang A1 - Neupert, Susanne T1 - Transcriptomic, peptidomic, and mass spectrometry imaging analysis of the brain in the ant Cataglyphis nodus JF - Journal of Neurochemistry N2 - Behavioral flexibility is an important cornerstone for the ecological success of animals. Social Cataglyphis nodus ants with their age‐related polyethism characterized by age‐related behavioral phenotypes represent a prime example for behavioral flexibility. We propose neuropeptides as powerful candidates for the flexible modulation of age‐related behavioral transitions in individual ants. As the neuropeptidome of C. nodus was unknown, we collected a comprehensive peptidomic data set obtained by transcriptome analysis of the ants’ central nervous system combined with brain extract analysis by Q‐Exactive Orbitrap mass spectrometry (MS) and direct tissue profiling of different regions of the brain by matrix‐assisted laser desorption/ionization time‐of‐flight (MALDI‐TOF) MS. In total, we identified 71 peptides with likely bioactive function, encoded on 49 neuropeptide‐, neuropeptide‐like, and protein hormone prepropeptide genes, including a novel neuropeptide‐like gene (fliktin). We next characterized the spatial distribution of a subset of peptides encoded on 16 precursor proteins with high resolution by MALDI MS imaging (MALDI MSI) on 14 µm brain sections. The accuracy of our MSI data were confirmed by matching the immunostaining patterns for tachykinins with MSI ion images from consecutive brain sections. Our data provide a solid framework for future research into spatially resolved qualitative and quantitative peptidomic changes associated with stage‐specific behavioral transitions and the functional role of neuropeptides in Cataglyphis ants. KW - brain KW - MALDI imaging KW - neuropeptides KW - neuropeptidomics KW - social insect KW - transcriptomics Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-239917 VL - 158 IS - 2 SP - 391 EP - 412 ER - TY - JOUR A1 - Koepsell, Hermann T1 - Glucose transporters in brain in health and disease JF - Pflügers Archiv - European Journal of Physiology N2 - Energy demand of neurons in brain that is covered by glucose supply from the blood is ensured by glucose transporters incapillaries and brain cells. In brain, the facilitative diffusion glucose transporters GLUT1-6 and GLUT8, and the Na+-D-glucosecotransporters SGLT1 are expressed. The glucose transporters mediate uptake of D-glucose across the blood-brain barrier anddelivery of D-glucose to astrocytes and neurons. They are critically involved in regulatory adaptations to varying energy demandsin response to differing neuronal activities and glucose supply. In this review, a comprehensive overview about verified andproposed roles of cerebral glucose transporters during health and diseases is presented. Our current knowledge is mainly based onexperiments performed in rodents. First, the functional properties of human glucose transporters expressed in brain and theircerebral locations are described. Thereafter, proposed physiological functions of GLUT1, GLUT2, GLUT3, GLUT4, andSGLT1 for energy supply to neurons, glucose sensing, central regulation of glucohomeostasis, and feeding behavior are compiled, and their roles in learning and memory formation are discussed. In addition, diseases are described in which functionalchanges of cerebral glucose transporters are relevant. These are GLUT1 deficiency syndrome (GLUT1-SD), diabetes mellitus, Alzheimer’s disease (AD), stroke, and traumatic brain injury (TBI). GLUT1-SD is caused by defect mutations in GLUT1. Diabetes and AD are associated with changed expression of glucose transporters in brain, and transporter-related energy defi-ciency of neurons may contribute to pathogenesis of AD. Stroke and TBI are associated with changes of glucose transporter expression that influence clinical outcome KW - glucosetransporter KW - brain KW - GLUT1 KW - GLUT2 KW - GLUT3 KW - GLUT4 KW - SGLT1 KW - diabetes KW - Parkinson’s disease KW - stroke Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-232746 SN - 0031-6768 VL - 472 ER - TY - JOUR A1 - Brumberg, Joachim A1 - Schröter, Nils A1 - Blazhenets, Ganna A1 - Frings, Lars A1 - Volkmann, Jens A1 - Lapa, Constantin A1 - Jost, Wolfgang H. A1 - Isaias, Ioannis U. A1 - Meyer, Philipp T. T1 - Differential diagnosis of parkinsonism: a head-to-head comparison of FDG PET and MIBG scintigraphy JF - NPJ Parkinsons Disease N2 - [\(^{18}\)F]fluorodeoxyglucose (FDG) PET and [\(^{123}\)I]metaiodobenzylguanidine (MIBG) scintigraphy may contribute to the differential diagnosis of neurodegenerative parkinsonism. To identify the superior method, we retrospectively evaluated 54 patients with suspected neurodegenerative parkinsonism, who were referred for FDG PET and MIBG scintigraphy. Two investigators visually assessed FDG PET scans using an ordinal 6-step score for disease-specific patterns of Lewy body diseases (LBD) or atypical parkinsonism (APS) and assigned the latter to the subgroups multiple system atrophy (MSA), progressive supranuclear palsy (PSP), or corticobasal syndrome. Regions-of-interest analysis on anterior planar MIBG images served to calculate the heart-to-mediastinum ratio. Movement disorder specialists blinded to imaging results established clinical follow-up diagnosis by means of guideline-derived case vignettes. Clinical follow-up (1.7 +/- 2.3 years) revealed the following diagnoses: n = 19 LBD (n = 17 Parkinson's disease [PD], n = 1 PD dementia, and n = 1 dementia with Lewy bodies), n = 31 APS (n = 28 MSA, n = 3 PSP), n = 3 non-neurodegenerative parkinsonism; n = 1 patient could not be diagnosed and was excluded. Receiver operating characteristic analyses for discriminating LBD vs. non-LBD revealed a larger area under the curve for FDG PET than for MIBG scintigraphy at statistical trend level for consensus rating (0.82 vs. 0.69, p = 0.06; significant for investigator #1: 0.83 vs. 0.69, p = 0.04). The analysis of PD vs. MSA showed a similar difference (0.82 vs. 0.69, p = 0.11; rater #1: 0.83 vs. 0.69, p = 0.07). Albeit the notable differences in diagnostic performance did not attain statistical significance, the authors consider this finding clinically relevant and suggest that FDG PET, which also allows for subgrouping of APS, should be preferred. KW - clinical diagnosis KW - F-18-FDG PET KW - disease KW - dementia KW - accuracy KW - stimulation KW - guidelines KW - criteria KW - brain KW - risk Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-230675 VL - 6 ER - TY - JOUR A1 - Üçeyler, Nurcan A1 - Buchholz, Hans-Georg A1 - Kewenig, Susanne A1 - Ament, Stephan-Johann A1 - Birklein, Frank A1 - Schreckenberger, Mathias A1 - Sommer, Claudia T1 - Cortical Binding Potential of Opioid Receptors in Patients With Fibromyalgia Syndrome and Reduced Systemic Interleukin-4 Levels – A Pilot Study JF - Frontiers in Neuroscience N2 - Objective: We investigated cerebral opioid receptor binding potential in patients with fibromyalgia syndrome (FMS) using positron-emission-tomography (PET) and correlated our results with patients’ systemic interleukin-4 (IL-4) gene expression. Methods: In this pilot study, seven FMS patients (1 man, 6 women) agreed to participate in experimental PET scans. All patients underwent neurological examination, were investigated with questionnaires for pain, depression, and FMS symptoms. Additionally, blood for IL-4 gene expression analysis was withdrawn at two time points with a median latency of 1.3 years. Patients were investigated in a PET scanner using the opioid receptor ligand F-18-fluoro-ethyl-diprenorphine ([18F]FEDPN) and results were compared with laboratory normative values. Results: Neurological examination was normal in all FMS patients. Reduced opioid receptor binding was found in mid cingulate cortex compared to healthy controls (p < 0.005). Interestingly, three patients with high systemic IL-4 gene expression had increased opioid receptor binding in the fronto-basal cortex compared to those with low IL-4 gene expression (p < 0.005). Conclusion: Our data give further evidence for a reduction in cortical opioid receptor availability in FMS patients as another potential central nervous system contributor to pain in FMS. KW - fibromyalgia syndrome KW - PET KW - brain KW - opioid KW - IL-4 Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-204457 SN - 1662-453X VL - 14 ER - TY - JOUR A1 - Feldheim, Jonas A1 - Kessler, Almuth F. A1 - Schmitt, Dominik A1 - Salvador, Ellaine A1 - Monoranu, Camelia M. A1 - Feldheim, Julia J. A1 - Ernestus, Ralf-Ingo A1 - Löhr, Mario A1 - Hagemann, Carsten T1 - Ribosomal Protein S27/Metallopanstimulin-1 (RPS27) in Glioma — A New Disease Biomarker? JF - Cancers N2 - Despite its significant overexpression in several malignant neoplasms, the expression of RPS27 in the central nervous system (CNS) is widely unknown. We identified the cell types expressing RPS27 in the CNS under normal and disease conditions. We acquired specimens of healthy brain (NB), adult pilocytic astrocytoma (PA) World Health Organization (WHO) grade I, anaplastic PA WHO grade III, gliomas WHO grade II/III with or without isocitrate dehydrogenase (IDH) mutation, and glioblastoma multiforme (GBM). RPS27 protein expression was examined by immunohistochemistry and double-fluorescence staining and its mRNA expression quantified by RT-PCR. Patients’ clinical and tumor characteristics were collected retrospectively. RPS27 protein was specifically expressed in tumor cells and neurons, but not in healthy astrocytes. In tumor tissue, most macrophages were positive, while this was rarely the case in inflamed tissue. Compared to NB, RPS27 mRNA was in mean 6.2- and 8.8-fold enhanced in gliomas WHO grade II/III with (p < 0.01) and without IDH mutation (p = 0.01), respectively. GBM displayed a 4.6-fold increased mean expression (p = 0.02). Although RPS27 expression levels did not affect the patients’ survival, their association with tumor cells and tumor-associated macrophages provides a rationale for a future investigation of a potential function during gliomagenesis and tumor immune response. KW - glioblastoma multiforme KW - low-grade glioma KW - astrocytoma KW - recurrence KW - relapse KW - mRNA KW - protein KW - brain KW - expression KW - MPS1 Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-203648 SN - 2072-6694 VL - 12 IS - 5 ER - TY - JOUR A1 - Rössler, Wolfgang A1 - Spaethe, Johannes A1 - Groh, Claudia T1 - Pitfalls of using confocal-microscopy based automated quantification of synaptic complexes in honeybee mushroom bodies (response to Peng and Yang 2016) JF - Scientific Reports N2 - A recent study by Peng and Yang in Scientific Reports using confocal-microscopy based automated quantification of anti-synapsin labeled microglomeruli in the mushroom bodies of honeybee brains reports potentially incorrect numbers of microglomerular densities. Whereas several previous studies using visually supervised or automated counts from confocal images and analyses of serial 3D electron-microscopy data reported consistent numbers of synaptic complexes per volume, Peng and Yang revealed extremely low numbers differing by a factor of 18 or more from those obtained in visually supervised counts, and by a factor 22–180 from numbers in two other studies using automated counts. This extreme discrepancy is especially disturbing as close comparison of raw confocal images of anti-synapsin labeled whole-mount brain preparations are highly similar across these studies. We conclude that these discrepancies may reside in potential misapplication of confocal imaging followed by erroneous use of automated image analysis software. Consequently, the reported microglomerular densities during maturation and after manipulation by insecticides require validation by application of appropriate confocal imaging methods and analyses tools that rely on skilled observers. We suggest several improvements towards more reliable or standardized automated or semi-automated synapse counts in whole mount preparations of insect brains. KW - confocal-microscopy based automated quantification KW - mushroom bodies KW - honeybees KW - brain Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170451 VL - 7 IS - 9786 ER - TY - JOUR A1 - Wille, Michael A1 - Schümann, Antje A1 - Kreutzer, Michael A1 - Glocker, Michael O A1 - Wree, Andreas A1 - Mutzbauer, Grit A1 - Schmitt, Oliver T1 - The proteome profiles of the olfactory bulb of juvenile, adult and aged rats - an ontogenetic study JF - Proteome Science N2 - Background: In this study, we searched for proteins that change their expression in the olfactory bulb (oB) of rats during ontogenesis. Up to now, protein expression differences in the developing animal are not fully understood. Our investigation focused on the question whether specific proteins exist which are only expressed during different development stages. This might lead to a better characterization of the microenvironment and to a better determination of factors and candidates that influence the differentiation of neuronal progenitor cells. Results: After analyzing the samples by two-dimensional polyacrylamide gel electrophoresis (2DE) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS), it could be shown that the number of expressed proteins differs depending on the developmental stages. Especially members of the functional classes, like proteins of biosynthesis, regulatory proteins and structural proteins, show the highest differential expression in the stages of development analyzed. Conclusion: In this study, quantitative changes in the expression of proteins in the oB at different developmental stages (postnatal days (P) 7, 90 and 637) could be observed. Furthermore, the expression of many proteins was found at specific developmental stages. It was possible to identify these proteins which are involved in processes like support of cell migration and differentiation. KW - axonally transported proteins KW - hippocampal stem cells KW - cerebral cortex KW - regional development KW - development KW - brain KW - olfactory bulb KW - proteomics KW - rat KW - growth-associated protein KW - messenger-RNA transport KW - goldfish optic nerve KW - postnatal development KW - subventricular zone KW - neuronal differentiation Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-144073 VL - 13 IS - 8 ER - TY - JOUR A1 - Wille, Michael A1 - Schümann, Antje A1 - Wree, Andreas A1 - Kreutzer, Michael A1 - Glocker, Michael O. A1 - Mutzbauer, Grit A1 - Schmitt, Oliver T1 - The Proteome Profiles of the Cerebellum of Juvenile, Adult and Aged Rats-An Ontogenetic Study JF - International Journal of Molecular Sciences N2 - In this study, we searched for proteins that change their expression in the cerebellum (Ce) of rats during ontogenesis. This study focuses on the question of whether specific proteins exist which are differentially expressed with regard to postnatal stages of development. A better characterization of the microenvironment and its development may result from these study findings. A differential two-dimensional polyacrylamide gel electrophoresis (2DE) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) analysis of the samples revealed that the number of proteins of the functional classes differed depending on the developmental stages. Especially members of the functional classes of biosynthesis, regulatory proteins, chaperones and structural proteins show the highest differential expression within the analyzed stages of development. Therefore, members of these functional protein groups seem to be involved in the development and differentiation of the Ce within the analyzed development stages. In this study, changes in the expression of proteins in the Ce at different postnatal developmental stages (postnatal days (P) 7, 90, and 637) could be observed. At the same time, an identification of proteins which are involved in cell migration and differentiation was possible. Especially proteins involved in processes of the biosynthesis and regulation, the dynamic organization of the cytoskeleton as well as chaperones showed a high amount of differentially expressed proteins between the analyzed dates. KW - messenger RNA KW - brain KW - cerebellum KW - development KW - proteomics KW - rat KW - proteins KW - adenosine kinase KW - coated vesicles KW - phosphatase 2A KW - expression KW - neuronal differentiation KW - human brain KW - hnRNP K KW - postnatal development KW - binding Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-151347 VL - 16 SP - 21454 EP - 21485 ER - TY - JOUR A1 - Gruss, L. Forest A1 - Wieser, Matthias J. A1 - Schweinberger, Stefan R. A1 - Keil, Andreas T1 - Face-evoked steady-state visual potentials: effects of presentation rate and face inversion JF - Frontiers in Human Neuroscience N2 - Face processing can be explored using electrophysiological methods. Research with event-related potentials has demonstrated the so-called face inversion effect, in which the N170 component is enhanced in amplitude and latency to inverted, compared to upright, faces. The present study explored the extent to which repetitive lower-level visual cortical engagement, reflected in flicker steady-state visual evoked potentials (ssVEPs), shows similar amplitude enhancement to face inversion. We also asked if inversion-related ssVEP modulation would be dependent on the stimulation rate at which upright and inverted faces were flickered. To this end, multiple tagging frequencies were used (5, 10, 15, and 20 Hz) across two studies (n=21, n=18). Results showed that amplitude enhancement of the ssVEP for inverted faces was found solely at higher stimulation frequencies (15 and 20 Hz). By contrast, lower frequency ssVEPs did not show this inversion effect. These findings suggest that stimulation frequency affects the sensitivity of ssVEPs to face inversion. KW - N170 KW - upside-down faces KW - selective attention KW - spatial attention KW - cortex KW - perception KW - recognition KW - brain KW - FMRI KW - area Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-134399 VL - 6 IS - 316 ER - TY - JOUR A1 - Reuter, Dajana A1 - Sparwasser, Tim A1 - Hünig, Thomas A1 - Schneider-Schaulies, Jürgen T1 - Foxp3\(^+\) Regulatory T Cells Control Persistence of Viral CNS Infection JF - PLoS One N2 - We earlier established a model of a persistent viral CNS infection using two week old immunologically normal (genetically unmodified) mice and recombinant measles virus (MV). Using this model infection we investigated the role of regulatory T cells (Tregs) as regulators of the immune response in the brain, and assessed whether the persistent CNS infection can be modulated by manipulation of Tregs in the periphery. CD4\(^+\) CD25\(^+\) Foxp3\(^+\) Tregs were expanded or depleted during the persistent phase of the CNS infection, and the consequences for the virus-specific immune response and the extent of persistent infection were analyzed. Virus-specific CD8\(^+\) T cells predominantly recognising the H-2D(b)-presented viral hemagglutinin epitope MV-H22-30 (RIVINREHL) were quantified in the brain by pentamer staining. Expansion of Tregs after intraperitoneal (i.p.) application of the superagonistic anti-CD28 antibody D665 inducing transient immunosuppression caused increased virus replication and spread in the CNS. In contrast, depletion of Tregs using diphtheria toxin (DT) in DEREG (depletion of regulatory T cells)-mice induced an increase of virus-specific CD8\(^+\) effector T cells in the brain and caused a reduction of the persistent infection. These data indicate that manipulation of Tregs in the periphery can be utilized to regulate virus persistence in the CNS. KW - antigen presentation KW - brain KW - central-nervous-system KW - virus-induced encephalitis KW - retroviral infection KW - gamma-interferon KW - measles virus KW - subacute sclerosing-panencephalitis KW - mice KW - CD4(+) Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-134248 VL - 7 IS - 3 ER - TY - JOUR A1 - Brandt, Alexander U. A1 - Zimmermann, Hanna A1 - Kaufhold, Falko A1 - Promesberger, Julia A1 - Schippling, Sven A1 - Finis, David A1 - Aktas, Orhan A1 - Geis, Christian A1 - Ringelstein, Marius A1 - Ringelstein, E. Bernd A1 - Hartung, Hans-Peter A1 - Paul, Friedemann A1 - Kleffner, Ilka A1 - Dörr, Jan T1 - Patterns of Retinal Damage Facilitate Differential Diagnosis between Susac Syndrome and MS JF - PLoS One N2 - Susac syndrome, a rare but probably underdiagnosed combination of encephalopathy, hearing loss, and visual deficits due to branch retinal artery occlusion of unknown aetiology has to be considered as differential diagnosis in various conditions. Particularly, differentiation from multiple sclerosis is often challenging since both clinical presentation and diagnostic findings may overlap. Optical coherence tomography is a powerful and easy to perform diagnostic tool to analyse the morphological integrity of retinal structures and is increasingly established to depict characteristic patterns of retinal pathology in multiple sclerosis. Against this background we hypothesised that differential patterns of retinal pathology facilitate a reliable differentiation between Susac syndrome and multiple sclerosis. In this multicenter cross-sectional observational study optical coherence tomography was performed in nine patients with a definite diagnosis of Susac syndrome. Data were compared with age-, sex-, and disease duration-matched relapsing remitting multiple sclerosis patients with and without a history of optic neuritis, and with healthy controls. Using generalised estimating equation models, Susac patients showed a significant reduction in either or both retinal nerve fibre layer thickness and total macular volume in comparison to both healthy controls and relapsing remitting multiple sclerosis patients. However, in contrast to the multiple sclerosis patients this reduction was not distributed over the entire scanning area but showed a distinct sectorial loss especially in the macular measurements. We therefore conclude that patients with Susac syndrome show distinct abnormalities in optical coherence tomography in comparison to multiple sclerosis patients. These findings recommend optical coherence tomography as a promising tool for differentiating Susac syndrome from MS. KW - optical coherence tomography KW - vasculopathy KW - artery occlusion KW - hearing loss KW - microangiopathy KW - brain KW - endotheliopathy KW - antibodies KW - multiple-sclerosis KW - retinocochleocerebral Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-134013 VL - 7 IS - 6 ER - TY - JOUR A1 - El-Keredy, Amira A1 - Schleyer, Michael A1 - König, Christian A1 - Ekim, Aslihan A1 - Gerber, Bertram T1 - Behavioural Analyses of Quinine Processing in Choice, Feeding and Learning of Larval Drosophila JF - PLoS One N2 - Gustatory stimuli can support both immediate reflexive behaviour, such as choice and feeding, and can drive internal reinforcement in associative learning. For larval Drosophila, we here provide a first systematic behavioural analysis of these functions with respect to quinine as a study case of a substance which humans report as "tasting bitter". We describe the dose-effect functions for these different kinds of behaviour and find that a half-maximal effect of quinine to suppress feeding needs substantially higher quinine concentrations (2.0 mM) than is the case for internal reinforcement (0.6 mM). Interestingly, in previous studies (Niewalda et al. 2008, Schipanski et al 2008) we had found the reverse for sodium chloride and fructose/sucrose, such that dose-effect functions for those tastants were shifted towards lower concentrations for feeding as compared to reinforcement, arguing that the differences in dose-effect function between these behaviours do not reflect artefacts of the types of assay used. The current results regarding quinine thus provide a starting point to investigate how the gustatory system is organized on the cellular and/or molecular level to result in different behavioural tuning curves towards a bitter tastant. KW - honeybees KW - chemosensory system KW - bitter taste KW - melanogaster KW - receptor KW - reward KW - brain KW - organization KW - architecture KW - perception Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-130811 VL - 7 IS - 7 ER - TY - JOUR A1 - Buga, Ana-Maria A1 - Scholz, Claus Jürgen A1 - Kumar, Senthil A1 - Herndon, James G. A1 - Alexandru, Dragos A1 - Cojocaru, Gabriel Radu A1 - Dandekar, Thomas A1 - Popa-Wagner, Aurel T1 - Identification of New Therapeutic Targets by Genome-Wide Analysis of Gene Expression in the Ipsilateral Cortex of Aged Rats after Stroke JF - PLoS One N2 - Background: Because most human stroke victims are elderly, studies of experimental stroke in the aged rather than the young rat model may be optimal for identifying clinically relevant cellular responses, as well for pinpointing beneficial interventions. Methodology/Principal Findings: We employed the Affymetrix platform to analyze the whole-gene transcriptome following temporary ligation of the middle cerebral artery in aged and young rats. The correspondence, heat map, and dendrogram analyses independently suggest a differential, age-group-specific behaviour of major gene clusters after stroke. Overall, the pattern of gene expression strongly suggests that the response of the aged rat brain is qualitatively rather than quantitatively different from the young, i.e. the total number of regulated genes is comparable in the two age groups, but the aged rats had great difficulty in mounting a timely response to stroke. Our study indicates that four genes related to neuropathic syndrome, stress, anxiety disorders and depression (Acvr1c, Cort, Htr2b and Pnoc) may have impaired response to stroke in aged rats. New therapeutic options in aged rats may also include Calcrl, Cyp11b1, Prcp, Cebpa, Cfd, Gpnmb, Fcgr2b, Fcgr3a, Tnfrsf26, Adam 17 and Mmp14. An unexpected target is the enzyme 3-hydroxy-3-methylglutaryl-Coenzyme A synthase 1 in aged rats, a key enzyme in the cholesterol synthesis pathway. Post-stroke axonal growth was compromised in both age groups. Conclusion/Significance: We suggest that a multi-stage, multimodal treatment in aged animals may be more likely to produce positive results. Such a therapeutic approach should be focused on tissue restoration but should also address other aspects of patient post-stroke therapy such as neuropathic syndrome, stress, anxiety disorders, depression, neurotransmission and blood pressure. KW - gamma KW - corticotropin-releasing hormone KW - colony-stimulating factor KW - cerebral ischemia KW - receptor KW - brain KW - protein KW - inhibitor KW - mouse KW - differentiation Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-130657 VL - 7 IS - 12 ER - TY - JOUR A1 - Ammar, Mohamed Raafet A1 - Thahouly, Tamou A1 - Hanauer, André A1 - Stegner, David A1 - Nieswandt, Bernhard A1 - Vitale, Nicolas T1 - PLD1 participates in BDNF-induced signalling in cortical neurons JF - Scientific Reports N2 - The brain-derived neurotrophic factor BDNF plays a critical role in neuronal development and the induction of L-LTP at glutamatergic synapses in several brain regions. However, the cellular and molecular mechanisms underlying these BDNF effects have not been firmly established. Using in vitro cultures of cortical neurons from knockout mice for Pld1 and Rsk2, BDNF was observed to induce a rapid RSK2-dependent activation of PLD and to stimulate BDNF ERK1/2-CREB and mTor-S6K signalling pathways, but these effects were greatly reduced in Pld1\(^{-/-}\) neurons. Furthermore, phospho-CREB did not accumulate in the nucleus, whereas overexpression of PLD1 amplified the BDNF-dependent nuclear recruitment of phospho-ERK1/2 and phospho-CREB. This BDNF retrograde signalling was prevented in cells silenced for the scaffolding protein PEA15, a protein which complexes with PLD1, ERK1/2, and RSK2 after BDNF treatment. Finally PLD1, ERK1/2, and RSK2 partially colocalized on endosomal structures, suggesting that these proteins are part of the molecular module responsible for BDNF signalling in cortical neurons. KW - phospholipase D KW - ERK map kinease KW - long-term potentation KW - brain KW - protein RSK2 KW - dendritic growth KW - neurite outgrowth KW - neurotrophic factor KW - coffin-lowry-syndrome KW - phosphatidic acid Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-139962 VL - 5 IS - 14778 ER -