TY - THES A1 - Rauschenberger, Vera T1 - Stiff-person syndrome - Pathophysiological mechanisms of glycine receptor autoantibodies T1 - Stiff-Person Syndrom - Pathophysiologische Mechanismen von Glyzinrezeptor Autoantikörpern N2 - The Stiff-person syndrome (SPS) is a rare autoimmune disease that is characterized by symptoms including stiffness in axial and limb muscles as well as painful spasms. Different variants of SPS are known ranging from moderate forms like the stiff-limb syndrome to the most severe form progressive encephalomyelitis with rigidity and myoclonus (PERM). SPS is elicited by autoantibodies that target different pre- or postsynaptic proteins. The focus of the present work is on autoantibodies against the glycine receptor (GlyR). At start of the present thesis, as main characteristic of the GlyR autoantibody pathology, receptor cross-linking followed by enhanced receptor internalization and degradation via the lysosomal pathway was described. If binding of autoantibodies modulates GlyR function and therefore contributes to the GlyR autoantibody pathology has not yet been investigated. Moreover, not all patients respond well to plasmapheresis or other treatments used in the clinic. Relapses with even higher autoantibody titers regularly occur. In the present work, further insights into the disease pathology of GlyRα autoantibodies were achieved. We identified a common GlyRα1 autoantibody epitope located in the far N-terminus including amino acids A1-G34 which at least represent a part of the autoantibody epitope. This part of the receptor is easily accessible for autoantibodies due to its location at the outermost surface of the GlyRα1 extracellular domain. It was further investigated if the glycosylation status of the GlyR interferes with autoantibody binding. Using a GlyRα1 de-glycosylation mutant exhibited that patient autoantibodies are able to detect the de-glycosylated GlyRα1 variant as well. The direct modulation of the GlyR analyzed by electrophysiological recordings demonstrated functional alterations of the GlyR upon autoantibody binding. Whole cell patch clamp recordings revealed that autoantibodies decreased the glycine potency, shown by increased EC50 values. Furthermore, an influence on the desensitization behavior of the receptor was shown. The GlyR autoantibodies, however, had no impact on the binding affinity of glycine. These issues can be explained by the localization of the GlyR autoantibody epitope. The determined epitope has been exhibited to influence GlyR desensitization upon binding of allosteric modulators and differs from the orthosteric binding site for glycine, which is localized much deeper in the structure at the interface between two adjacent subunits. To neutralize GlyR autoantibodies, two different methods have been carried out. Transfected HEK293 cells expressing GlyRα1 and ELISA plates coated with the GlyRα1 extracellular domain were used to efficiently neutralize the autoantibodies. Finally, the successful passive transfer of GlyRα1 autoantibodies into zebrafish larvae and mice was shown. The autoantibodies detected their target in spinal cord and brain regions rich in GlyRs of zebrafish and mice. A passive transfer of human GlyRα autoantibodies to zebrafish larvae generated an impaired escape behavior in the animals compatible with the abnormal startle response in SPS or PERM patients. N2 - Das Stiff-person Syndrom (SPS) ist eine seltene Autoimmunerkrankung, die sich durch Symptome wie Steifheit in Muskeln des Rumpfes und der Gliedmaßen sowie schmerzhafte Spasmen auszeichnet. Vom SPS sind verschiedene Varianten bekannt, die von mäßigen Formen, wie dem Stiff-limb Syndrom (limb von engl. Extremitäten), bis zur schwersten Variante, der progressiven Enzephalomyelitis mit Steifheit und Myoklonus (PERM, vom engl. progressive encephalomyelitis with rigidity and myoclonus), reichen. Ausgelöst wird das SPS durch Autoantikörper, die an verschiedene prä- und postsynaptische Proteine binden. Der Fokus in dieser Arbeit liegt dabei auf Autoantikörpern, die gegen den Glyzinrezeptor (GlyR) gerichtet sind. Zu Beginn dieser Thesis galten als Hauptcharakteristika der Pathologie von Autoantikörpern die Quervernetzung von Rezeptoren gefolgt von einer verstärkten Rezeptor Internalisierung und dem Abbau über das Lysosom. Allerdings wurde bisher noch nicht untersucht, ob die GlyR Funktion durch eine Autoantikörperbindung verändert wird. Darüber hinaus sprechen nicht alle Patienten gut auf Plasmapheresen oder andere Therapien an. Rückfälle mit noch viel höheren Autoantikörpertitern treten regelmäßig auf. Die vorliegende Arbeit erweitert die Kenntnisse der pathophysiologischen Mechanismen, die durch GlyRα Autoantikörper ausgelöst werden. Wir konnten ein Epitop der GlyRα1 Autoantikörper im N-terminalen Bereich ausfindig machen, wobei die Aminosäuren A1-G34 zumindest einen Teil des Epitops bilden. Dieser GlyR Bereich kann durch die Autoantikörper sehr leicht erreicht werden, weil er sich an der Oberfläche der extrazellulären Domäne des GlyRs befindet. Weiterhin wurde untersucht, ob die Glykosylierung des GlyRs die Autoantikörperbindung beeinflusst. Mit Hilfe von Mutanten, bei denen die Glykosylierungsstelle entfernt wurde, konnte gezeigt werden, dass Patientenautoantikörper die nicht-glykosylierte Variante des GlyRα1 ebenfalls detektieren können. Elektrophysiologische Messungen ergaben, dass die Funktionalität des GlyRs durch die Bindung von Autoantikörpern beeinträchtigt wird. Erhöhte EC50 Werte zeigen, dass Autoantikörper die Wirksamkeit von Glyzin in niedrigeren Konzentrationen auf den Rezeptor verringern. Außerdem beeinflussen die Autoantikörper die Desensitisierung des Rezeptors. Allerdings waren die Glyzin-Wirksamkeit in sättigenden Konzentrationen und die Affinität von Glyzin zum Rezeptor unverändert. Diese Ergebnisse können durch die Lokalisierung des GlyR Autoantikörper-Epitops erklärt werden. Das ermittelte Epitop ist bekannt dafür, dass dort allosterische Modulatoren binden können und dadurch die Desensitisierung beeinflusst wird. Außerdem unterscheidet sich das Epitop von der orthosterischen Bindestelle von Glyzin, welche viel tiefer in der Struktur an der Grenze zweier benachbarter Untereinheiten liegt. Um die GlyR Autoantikörper zu neutralisieren, wurden zwei verschiedene Methoden entwickelt. Transfizierte HEK293 Zellen, die den GlyRα1 exprimieren, und ELISA Platten, die mit der extrazellulären Domäne des GlyRα1 beschichtet waren, wurden zur effizienten Neutralisation der Autoantikörper verwendet. Abschließend konnte in der vorliegenden Arbeit die erfolgreiche passive Übertragung von GlyRα1 Autoantikörpern in Zebrafischlarven und Mäusen gezeigt werden. In Zebrafischen und Mäusen detektierten die Autoantikörper ihr Antigen im Rückenmark und in Gehirnregionen, in denen der GlyR zahlreich exprimiert ist. Ein passiver Transfer von menschlichen GlyRα Autoantikörpern in Zebrafischlarven beeinträchtigte das Fluchtverhalten der Tiere, welches kompatibel mit dem krankhaften Startle Reflex in SPS- oder PERM-Patienten ist. KW - Glycinrezeptor KW - Autoantikörper KW - Pathophysiologie KW - Stiff-person syndrome KW - Stiff-Person Syndrom KW - Pathophysiologische Mechanismen KW - pathophysiological mechanisms Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-209588 ER - TY - JOUR A1 - Rauschenberger, Vera A1 - Piro, Inken A1 - Kasaragod, Vikram Babu A1 - Hörlin, Verena A1 - Eckes, Anna-Lena A1 - Kluck, Christoph J. A1 - Schindelin, Hermann A1 - Meinck, Hans-Michael A1 - Wickel, Jonathan A1 - Geis, Christian A1 - Tüzün, Erdem A1 - Doppler, Kathrin A1 - Sommer, Claudia A1 - Villmann, Carmen T1 - Glycine receptor autoantibody binding to the extracellular domain is independent from receptor glycosylation JF - Frontiers in Molecular Neuroscience N2 - Glycine receptor (GlyR) autoantibodies are associated with stiff-person syndrome and the life-threatening progressive encephalomyelitis with rigidity and myoclonus in children and adults. Patient histories show variability in symptoms and responses to therapeutic treatments. A better understanding of the autoantibody pathology is required to develop improved therapeutic strategies. So far, the underlying molecular pathomechanisms include enhanced receptor internalization and direct receptor blocking altering GlyR function. A common epitope of autoantibodies against the GlyRα1 has been previously defined to residues 1A-33G at the N-terminus of the mature GlyR extracellular domain. However, if other autoantibody binding sites exist or additional GlyR residues are involved in autoantibody binding is yet unknown. The present study investigates the importance of receptor glycosylation for binding of anti-GlyR autoantibodies. The glycine receptor α1 harbors only one glycosylation site at the amino acid residue asparagine 38 localized in close vicinity to the identified common autoantibody epitope. First, non-glycosylated GlyRs were characterized using protein biochemical approaches as well as electrophysiological recordings and molecular modeling. Molecular modeling of non-glycosylated GlyRα1 did not show major structural alterations. Moreover, non-glycosylation of the GlyRα1N38Q did not prevent the receptor from surface expression. At the functional level, the non-glycosylated GlyR demonstrated reduced glycine potency, but patient GlyR autoantibodies still bound to the surface-expressed non-glycosylated receptor protein in living cells. Efficient adsorption of GlyR autoantibodies from patient samples was possible by binding to native glycosylated and non-glycosylated GlyRα1 expressed in living not fixed transfected HEK293 cells. Binding of patient-derived GlyR autoantibodies to the non-glycosylated GlyRα1 offered the possibility to use purified non-glycosylated GlyR extracellular domain constructs coated on ELISA plates and use them as a fast screening readout for the presence of GlyR autoantibodies in patient serum samples. Following successful adsorption of patient autoantibodies by GlyR ECDs, binding to primary motoneurons and transfected cells was absent. Our results indicate that the glycine receptor autoantibody binding is independent of the receptor’s glycosylation state. Purified non-glycosylated receptor domains harbouring the autoantibody epitope thus provide, an additional reliable experimental tool besides binding to native receptors in cell-based assays for detection of autoantibody presence in patient sera. KW - glycine receptor KW - autoantibodies KW - glycosylation KW - extracellular domain KW - adsorption Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-304206 VL - 16 ER - TY - JOUR A1 - Rauschenberger, Vera A1 - von Wardenburg, Niels A1 - Schaefer, Natascha A1 - Ogino, Kazutoyo A1 - Hirata, Hiromi A1 - Lillesaar, Christina A1 - Kluck, Christoph J. A1 - Meinck, Hans‐Michael A1 - Borrmann, Marc A1 - Weishaupt, Andreas A1 - Doppler, Kathrin A1 - Wickel, Jonathan A1 - Geis, Christian A1 - Sommer, Claudia A1 - Villmann, Carmen T1 - Glycine Receptor Autoantibodies Impair Receptor Function and Induce Motor Dysfunction JF - Annals of Neurology N2 - Objective Impairment of glycinergic neurotransmission leads to complex movement and behavioral disorders. Patients harboring glycine receptor autoantibodies suffer from stiff‐person syndrome or its severe variant progressive encephalomyelitis with rigidity and myoclonus. Enhanced receptor internalization was proposed as the common molecular mechanism upon autoantibody binding. Although functional impairment of glycine receptors following autoantibody binding has recently been investigated, it is still incompletely understood. Methods A cell‐based assay was used for positive sample evaluation. Glycine receptor function was assessed by electrophysiological recordings and radioligand binding assays. The in vivo passive transfer of patient autoantibodies was done using the zebrafish animal model. Results Glycine receptor function as assessed by glycine dose–response curves showed significantly decreased glycine potency in the presence of patient sera. Upon binding of autoantibodies from 2 patients, a decreased fraction of desensitized receptors was observed, whereas closing of the ion channel remained fast. The glycine receptor N‐terminal residues \(^{29}\)A to \(^{62}\)G were mapped as a common epitope of glycine receptor autoantibodies. An in vivo transfer into the zebrafish animal model generated a phenotype with disturbed escape behavior accompanied by a reduced number of glycine receptor clusters in the spinal cord of affected animals. Interpretation Autoantibodies against the extracellular domain mediate alterations of glycine receptor physiology. Moreover, our in vivo data demonstrate that the autoantibodies are a direct cause of the disease, because the transfer of human glycine receptor autoantibodies to zebrafish larvae generated impaired escape behavior in the animal model compatible with abnormal startle response in stiff‐person syndrome or progressive encephalitis with rigidity and myoclonus patients. KW - glycine receptor autoantibodies KW - behavioral disorders KW - neurology Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-216005 VL - 88 IS - 3 SP - 544 EP - 561 ER -