TY - THES A1 - Werner, Christian T1 - Effect of autoantibodies targeting amphiphysin or glutamate decarboxylase 65 on synaptic transmission of GABAergic neurons T1 - Einfluss von Autoantikörpern gegen Amphiphysin oder Glutamatdecarboxylase 65 auf synaptische Transmission GABAerger Neurone N2 - The number of newly detected autoantibodies (AB) targeting synaptic proteins in neurological disorders of the central nervous system (CNS) is steadily increasing. Direct interactions of AB with their target antigens have been shown in first studies but the exact pathomecha-nisms for most of the already discovered AB are still unclear. The present study investigates pathophysiological mechanisms of AB-fractions that are associated with the enigmatic CNS disease Stiff person syndrome (SPS) and target the synaptically located proteins amphiphysin or glutamate decarboxylase 65 (GAD65). In the first part of the project, effects of AB to the presynaptic endocytic protein amphiphysin were investigated. Ultrastructural investigations of spinal cord presynaptic boutons in an es-tablished in-vivo passive-transfer model after intrathecal application of human anti-amphiphysin AB showed a defect of endocytosis. This defect was apparent at high synaptic activity and was characterized by reduction of the synaptic vesicle pool, clathrin coated vesi-cles (CCVs), and endosome like structures (ELS) in comparison to controls. Molecular inves-tigation of presynaptic boutons in cultured murine hippocampal neurons with dSTORM microscopy after pretreatment with AB to amphiphysin revealed that marker proteins involved in vesicle exocytosis (synaptobrevin 2 and synaptobrevin 7) had an altered expression in GA-BAergic presynapses. Endophilin, a direct binding partner of amphiphysin also displayed a disturbed expression pattern. Together, these results point towards an anti-amphiphysin AB-induced defective organization in GABAergic synapses and a presumably compensatory rearrangement of proteins responsible for CME. In the second part, functional consequences of SPS patient derived IgG fractions containing AB to GAD65, the rate limiting enzyme for GABA synthesis, were investigated by patch clamp electrophysiology and immunohistology. GABAergic neurotransmission at low and high activity as well as short term plasticity appeared normal but miniature synaptic potentials showed an enhanced frequency with constant amplitudes. SPS patient IgG after preabsorption of GAD65-AB using recombinant GAD65 still showed specific synaptic binding to neu-rons and brain slices supporting the hypothesis that additional, not yet characterized AB are present in patient IgG responsible for the exclusive effect on frequency of miniature potentials. In conclusion, the present thesis uncovered basal pathophysiological mechanisms underlying paraneoplastic SPS induced by AB to amphiphysin leading to disturbed presynaptic architec-ture. In idiopathic SPS, the hypothesis of a direct pathophysiological role of AB to GAD65 was not supported and additional IgG AB are suspected to induce distinct synaptic malfunction. N2 - Die Anzahl neu charakterisierter Autoantikörper (AAK) gegen synaptische Proteine bei Er-krankungen des zentralen Nervensystems (ZNS) ist stetig wachsend. Direkte Interaktionen der AAK mit ihren Zielantigenen konnten in ersten Studien belegt werden, jedoch besteht weiterhin Unklarheit über die exakten zugrunde liegenden Pathomechanismen. In der vorliegenden Arbeit wurden pathophysiologische Mechanismen von AAK gegen die synaptisch lokalisierten Proteine Amphiphysin und Glutamatdecarboxylase 65 (GAD65) untersucht, die mit der ZNS Erkrankung Stiff Person Syndrom (SPS) assoziiert sind. Im ersten Projektteil wurden die Effekte von AAK gegen das Endozytoseprotein Amphiphysin analysiert: in einem etablierten in-vivo Tiermodell konnten nach intrathekalem passiven Transfer von AAK gegen Amphiphysin ultrastrukturelle Untersuchungen von präsynaptischen Terminalen im Rückenmark eine Störung der Endozytose aufzeigen. Dieser Defekt, der bei hoher synaptischer Aktivität eintrat, war durch eine Verminderung synaptischen Vesikelpools, Clathrin-ummantelter Vesikel und endosomähnlicher Strukturen charakterisiert. Molekulare Untersuchungen präsynaptischer Terminale kultivierter hippokampaler Zellkulturen mit dSTORM Mikroskopie zeigten, dass an der Exozytose beteiligte synaptische Vesikelproteine (Synaptobrevin 2 und Synaptobrevin 7) ein verändertes Expressionsmuster innerhalb GA-BAerger Synapsen aufweisen. Die Expression von Endophilin, einem direkten Bindungs-partner von Amphiphysin, war ebenso verändert. Zusammengefasst weisen diese Ergebnis-se auf einen Organisationsdefekt GABAerger Synapsen hin, die durch anti-Amphiphysin AAK induziert sind und eine kompensatorische Umverteilung von Endozytoseproteinen vermuten lassen. Im zweiten Teil der Arbeit wurden die funktionellen Effekte von SPS AAK gegen GAD65, dem geschwindigkeitsbestimmenden Enzym der GABA-Synthese, mittels Patch-Clamp Mes-sungen und Immunhistologie untersucht. Die GABAerge synaptische Übertragung bei niedri-ger als auch hoher synaptischer Aktivität sowie die synaptische Kurzzeitplastizität wurden durch die IgG Fraktionen mit GAD65-AAK nicht beeinträchtigt. Die Frequenz von GABAergen Miniaturpotentialen war jedoch bei ansonsten gleichbleibender Amplitude erhöht. SPS-Patienten-IgG zeigte allerdings auch nach Präabsorbtion von GAD65-AAK mit Hilfe von rekombinanten GAD65 eine spezifische Anfärbung neuronaler Synapsen, was die Hypothese von weiteren, funktionell wirksamen, aber noch nicht identifizierten AAK im Patienten-IgG unterstützt. Zusammenfassend konnten in der vorliegenden Arbeit grundlegende pathophysiologische Mechanismen aufgezeigt werden, wie pathogene Antikörper gegen Amphiphysin die Struktur präsynaptischer Boutons beeinträchtigen können. Im Falle des idiopathischen SPS konnte keine unterstützenden Befunde für die Hypothese einer direkten pathophysiologischen Rolle von GAD65 AAK erhoben werden. Nach den vorliegenden Ergebnissen wird das Vorhandensein weiterer, derzeit noch nicht beschriebener IgG AAK postuliert, die die synaptische Fehlfunktion erklären können. KW - Autoaggressionskrankheit KW - Zentralnervensystem KW - Stiff person syndrome KW - autoimmunity KW - glutamate decarboxylase 65 KW - amphiphysin KW - Synapse KW - Glutamat-Decarboxylase KW - Autoimmunität KW - Endocytose Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-105648 ER - TY - JOUR A1 - Doppler, Kathrin A1 - Schuster, Yasmin A1 - Appeltshauser, Luise A1 - Biko, Lydia A1 - Villmann, Carmen A1 - Weishaupt, Andreas A1 - Werner, Christian A1 - Sommer, Claudia T1 - Anti-CNTN1 IgG3 induces acute conduction block and motor deficits in a passive transfer rat model JF - Journal of Neuroinflammation N2 - Background: Autoantibodies against the paranodal protein contactin-1 have recently been described in patients with severe acute-onset autoimmune neuropathies and mainly belong to the IgG4 subclass that does not activate complement. IgG3 anti-contactin-1 autoantibodies are rare, but have been detected during the acute onset of disease in some cases. There is evidence that anti-contactin-1 prevents adhesive interaction, and chronic exposure to anti-contactin-1 IgG4 leads to structural changes at the nodes accompanied by neuropathic symptoms. However, the pathomechanism of acute onset of disease and the pathogenic role of IgG3 anti-contactin-1 is largely unknown. Methods: In the present study, we aimed to model acute autoantibody exposure by intraneural injection of IgG of patients with anti-contacin-1 autoantibodies to Lewis rats. Patient IgG obtained during acute onset of disease (IgG3 predominant) and IgG from the chronic phase of disease (IgG4 predominant) were studied in comparison. Results: Conduction blocks were measured in rats injected with the “acute” IgG more often than after injection of “chronic” IgG (83.3% versus 35%) and proved to be reversible within a week after injection. Impaired nerve conduction was accompanied by motor deficits in rats after injection of the “acute” IgG but only minor structural changes of the nodes. Paranodal complement deposition was detected after injection of the “acute IgG”. We did not detect any inflammatory infiltrates, arguing against an inflammatory cascade as cause of damage to the nerve. We also did not observe dispersion of paranodal proteins or sodium channels to the juxtaparanodes as seen in patients after chronic exposure to anti-contactin-1. Conclusions: Our data suggest that anti-contactin-1 IgG3 induces an acute conduction block that is most probably mediated by autoantibody binding and subsequent complement deposition and may account for acute onset of disease in these patients. This supports the notion of anti-contactin-1-associated neuropathy as a paranodopathy with the nodes of Ranvier as the site of pathogenesis. KW - complement deposition KW - paranodopathy KW - anti-contactin-1 KW - CIDP KW - passive transfer KW - autoantibody Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-200476 VL - 16 IS - 73 ER - TY - JOUR A1 - Kuhlemann, Alexander A1 - Beliu, Gerti A1 - Janzen, Dieter A1 - Petrini, Enrica Maria A1 - Taban, Danush A1 - Helmerich, Dominic A. A1 - Doose, Sören A1 - Bruno, Martina A1 - Barberis, Andrea A1 - Villmann, Carmen A1 - Sauer, Markus A1 - Werner, Christian T1 - Genetic Code Expansion and Click-Chemistry Labeling to Visualize GABA-A Receptors by Super-Resolution Microscopy JF - Frontiers in Synaptic Neuroscience N2 - Fluorescence labeling of difficult to access protein sites, e.g., in confined compartments, requires small fluorescent labels that can be covalently tethered at well-defined positions with high efficiency. Here, we report site-specific labeling of the extracellular domain of γ-aminobutyric acid type A (GABA-A) receptor subunits by genetic code expansion (GCE) with unnatural amino acids (ncAA) combined with bioorthogonal click-chemistry labeling with tetrazine dyes in HEK-293-T cells and primary cultured neurons. After optimization of GABA-A receptor expression and labeling efficiency, most effective variants were selected for super-resolution microscopy and functionality testing by whole-cell patch clamp. Our results show that GCE with ncAA and bioorthogonal click labeling with small tetrazine dyes represents a versatile method for highly efficient site-specific fluorescence labeling of proteins in a crowded environment, e.g., extracellular protein domains in confined compartments such as the synaptic cleft. KW - super-resolution microscopy (SRM) KW - click-chemistry KW - dSTORM KW - GABA-A receptor KW - genetic code expansion Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-251035 SN - 1663-3563 VL - 13 ER - TY - JOUR A1 - Grünewald, Benedikt A1 - Lange, Maren D A1 - Werner, Christian A1 - O'Leary, Aet A1 - Weishaupt, Andreas A1 - Popp, Sandy A1 - Pearce, David A A1 - Wiendl, Heinz A1 - Reif, Andreas A1 - Pape, Hans C A1 - Toyka, Klaus V A1 - Sommer, Claudia A1 - Geis, Christian T1 - Defective synaptic transmission causes disease signs in a mouse model of juvenile neuronal ceroid lipofuscinosis JF - eLife N2 - Juvenile neuronal ceroid lipofuscinosis (JNCL or Batten disease) caused by mutations in the CLN3 gene is the most prevalent inherited neurodegenerative disease in childhood resulting in widespread central nervous system dysfunction and premature death. The consequences of CLN3 mutation on the progression of the disease, on neuronal transmission, and on central nervous network dysfunction are poorly understood. We used Cln3 knockout (Cln3\(^{Δex1-6}\)) mice and found increased anxiety-related behavior and impaired aversive learning as well as markedly affected motor function including disordered coordination. Patch-clamp and loose-patch recordings revealed severely affected inhibitory and excitatory synaptic transmission in the amygdala, hippocampus, and cerebellar networks. Changes in presynaptic release properties may result from dysfunction of CLN3 protein. Furthermore, loss of calbindin, neuropeptide Y, parvalbumin, and GAD65-positive interneurons in central networks collectively support the hypothesis that degeneration of GABAergic interneurons may be the cause of supraspinal GABAergic disinhibition. KW - CLN3 KW - mutation KW - mouse model KW - synaptic transmission KW - amygdala KW - hippocampus Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170004 VL - 6 IS - e28685 ER -