An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis
N-Methyl-D-aspartate (NMDA) receptors (NMDARs) are among the most important excitatory neurotransmitter receptors in the human brain. Autoantibodies to the human NMDAR cause the most frequent form of autoimmune encephalitis involving autoantibody-mediated receptor cross-linking and subsequent intern...
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| Format: | Article |
| Language: | English |
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Frontiers Media S.A.
2019-03-01
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| Series: | Frontiers in Neurology |
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| Online Access: | https://www.frontiersin.org/article/10.3389/fneur.2019.00178/full |
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Article |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Elsie Amedonu Elsie Amedonu Christoph Brenker Sumanta Barman Julian A. Schreiber Sebastian Becker Stefan Peischard Nathalie Strutz-Seebohm Christine Strippel Andre Dik Hans-Peter Hartung Thomas Budde Heinz Wiendl Timo Strünker Bernhard Wünsch Norbert Goebels Sven G. Meuth Guiscard Seebohm Nico Melzer |
| spellingShingle |
Elsie Amedonu Elsie Amedonu Christoph Brenker Sumanta Barman Julian A. Schreiber Sebastian Becker Stefan Peischard Nathalie Strutz-Seebohm Christine Strippel Andre Dik Hans-Peter Hartung Thomas Budde Heinz Wiendl Timo Strünker Bernhard Wünsch Norbert Goebels Sven G. Meuth Guiscard Seebohm Nico Melzer An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis Frontiers in Neurology autoimmune encephalitis N-Methyl-D-aspartate receptors cross-linking endocytosis vesicular trafficking exocytosis |
| author_facet |
Elsie Amedonu Elsie Amedonu Christoph Brenker Sumanta Barman Julian A. Schreiber Sebastian Becker Stefan Peischard Nathalie Strutz-Seebohm Christine Strippel Andre Dik Hans-Peter Hartung Thomas Budde Heinz Wiendl Timo Strünker Bernhard Wünsch Norbert Goebels Sven G. Meuth Guiscard Seebohm Nico Melzer |
| author_sort |
Elsie Amedonu |
| title |
An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis |
| title_short |
An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis |
| title_full |
An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis |
| title_fullStr |
An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis |
| title_full_unstemmed |
An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune Encephalitis |
| title_sort |
assay to determine mechanisms of rapid autoantibody-induced neurotransmitter receptor endocytosis and vesicular trafficking in autoimmune encephalitis |
| publisher |
Frontiers Media S.A. |
| series |
Frontiers in Neurology |
| issn |
1664-2295 |
| publishDate |
2019-03-01 |
| description |
N-Methyl-D-aspartate (NMDA) receptors (NMDARs) are among the most important excitatory neurotransmitter receptors in the human brain. Autoantibodies to the human NMDAR cause the most frequent form of autoimmune encephalitis involving autoantibody-mediated receptor cross-linking and subsequent internalization of the antibody-receptor complex. This has been deemed to represent the predominant antibody effector mechanism depleting the NMDAR from the synaptic and extra-synaptic neuronal cell membrane. To assess in detail the molecular mechanisms of autoantibody-induced NMDAR endocytosis, vesicular trafficking, and exocytosis we transiently co-expressed rat GluN1-1a-EGFP and GluN2B-ECFP alone or together with scaffolding postsynaptic density protein 95 (PSD-95), wild-type (WT), or dominant-negative (DN) mutant Ras-related in brain (RAB) proteins (RAB5WT, RAB5DN, RAB11WT, RAB11DN) in HEK 293T cells. The cells were incubated with a pH-rhodamine-labeled human recombinant monoclonal GluN1 IgG1 autoantibody (GluN1-aAbpH−rhod) genetically engineered from clonally expanded intrathecal plasma cells from a patient with anti-NMDAR encephalitis, and the pH-rhodamine fluorescence was tracked over time. We show that due to the acidic luminal pH, internalization of the NMDAR-autoantibody complex into endosomes and lysosomes increases the pH-rhodamine fluorescence. The increase in fluorescence allows for mechanistic assessment of endocytosis, vesicular trafficking in these vesicular compartments, and exocytosis of the NMDAR-autoantibody complex under steady state conditions. Using this method, we demonstrate a role for PSD-95 in stabilization of NMDARs in the cell membrane in the presence of GluN1-aAbpH−rhod, while RAB proteins did not exert a significant effect on vertical trafficking of the internalized NMDAR autoantibody complex in this heterologous expression system. This novel assay allows to unravel molecular mechanisms of autoantibody-induced receptor internalization and to study novel small-scale specific molecular-based therapies for autoimmune encephalitis syndromes. |
| topic |
autoimmune encephalitis N-Methyl-D-aspartate receptors cross-linking endocytosis vesicular trafficking exocytosis |
| url |
https://www.frontiersin.org/article/10.3389/fneur.2019.00178/full |
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doaj-c459b4e8d59c4d2591a4219c1010af572020-11-25T02:51:56ZengFrontiers Media S.A.Frontiers in Neurology1664-22952019-03-011010.3389/fneur.2019.00178425928An Assay to Determine Mechanisms of Rapid Autoantibody-Induced Neurotransmitter Receptor Endocytosis and Vesicular Trafficking in Autoimmune EncephalitisElsie Amedonu0Elsie Amedonu1Christoph Brenker2Sumanta Barman3Julian A. Schreiber4Sebastian Becker5Stefan Peischard6Nathalie Strutz-Seebohm7Christine Strippel8Andre Dik9Hans-Peter Hartung10Thomas Budde11Heinz Wiendl12Timo Strünker13Bernhard Wünsch14Norbert Goebels15Sven G. Meuth16Guiscard Seebohm17Nico Melzer18Myocellular Electrophysiology and Molecular Biology, Institute for Genetics of Heart Diseases, University of Muenster, Muenster, GermanyDepartment of Neurology, University of Muenster, Muenster, GermanyCentre of Reproductive Medicine and Andrology, University of Muenster, Muenster, GermanyDepartment of Neurology, Universitätsklinikum and Center for Neurology and Neuropsychiatry LVR Klinikum, Heinrich Heine University Duesseldorf, Duesseldorf, GermanyMyocellular Electrophysiology and Molecular Biology, Institute for Genetics of Heart Diseases, University of Muenster, Muenster, GermanyMyocellular Electrophysiology and Molecular Biology, Institute for Genetics of Heart Diseases, University of Muenster, Muenster, GermanyMyocellular Electrophysiology and Molecular Biology, Institute for Genetics of Heart Diseases, University of Muenster, Muenster, GermanyMyocellular Electrophysiology and Molecular Biology, Institute for Genetics of Heart Diseases, University of Muenster, Muenster, GermanyDepartment of Neurology, University of Muenster, Muenster, GermanyDepartment of Neurology, University of Muenster, Muenster, GermanyDepartment of Neurology, Universitätsklinikum and Center for Neurology and Neuropsychiatry LVR Klinikum, Heinrich Heine University Duesseldorf, Duesseldorf, GermanyInstitute for Physiology I, University of Muenster, Muenster, GermanyDepartment of Neurology, University of Muenster, Muenster, GermanyCentre of Reproductive Medicine and Andrology, University of Muenster, Muenster, GermanyInstitute for Pharmaceutical and Medical Chemistry, University of Muenster, Muenster, GermanyDepartment of Neurology, Universitätsklinikum and Center for Neurology and Neuropsychiatry LVR Klinikum, Heinrich Heine University Duesseldorf, Duesseldorf, GermanyDepartment of Neurology, University of Muenster, Muenster, GermanyMyocellular Electrophysiology and Molecular Biology, Institute for Genetics of Heart Diseases, University of Muenster, Muenster, GermanyDepartment of Neurology, University of Muenster, Muenster, GermanyN-Methyl-D-aspartate (NMDA) receptors (NMDARs) are among the most important excitatory neurotransmitter receptors in the human brain. Autoantibodies to the human NMDAR cause the most frequent form of autoimmune encephalitis involving autoantibody-mediated receptor cross-linking and subsequent internalization of the antibody-receptor complex. This has been deemed to represent the predominant antibody effector mechanism depleting the NMDAR from the synaptic and extra-synaptic neuronal cell membrane. To assess in detail the molecular mechanisms of autoantibody-induced NMDAR endocytosis, vesicular trafficking, and exocytosis we transiently co-expressed rat GluN1-1a-EGFP and GluN2B-ECFP alone or together with scaffolding postsynaptic density protein 95 (PSD-95), wild-type (WT), or dominant-negative (DN) mutant Ras-related in brain (RAB) proteins (RAB5WT, RAB5DN, RAB11WT, RAB11DN) in HEK 293T cells. The cells were incubated with a pH-rhodamine-labeled human recombinant monoclonal GluN1 IgG1 autoantibody (GluN1-aAbpH−rhod) genetically engineered from clonally expanded intrathecal plasma cells from a patient with anti-NMDAR encephalitis, and the pH-rhodamine fluorescence was tracked over time. We show that due to the acidic luminal pH, internalization of the NMDAR-autoantibody complex into endosomes and lysosomes increases the pH-rhodamine fluorescence. The increase in fluorescence allows for mechanistic assessment of endocytosis, vesicular trafficking in these vesicular compartments, and exocytosis of the NMDAR-autoantibody complex under steady state conditions. Using this method, we demonstrate a role for PSD-95 in stabilization of NMDARs in the cell membrane in the presence of GluN1-aAbpH−rhod, while RAB proteins did not exert a significant effect on vertical trafficking of the internalized NMDAR autoantibody complex in this heterologous expression system. This novel assay allows to unravel molecular mechanisms of autoantibody-induced receptor internalization and to study novel small-scale specific molecular-based therapies for autoimmune encephalitis syndromes.https://www.frontiersin.org/article/10.3389/fneur.2019.00178/fullautoimmune encephalitisN-Methyl-D-aspartate receptorscross-linkingendocytosisvesicular traffickingexocytosis |