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A Novel Glycine Receptor Variant with Startle Disease Affects Syndapin I and Glycinergic Inhibition.


ABSTRACT: Glycine receptors (GlyRs) are the major mediators of fast synaptic inhibition in the adult human spinal cord and brainstem. Hereditary mutations to GlyRs can lead to the rare, but potentially fatal, neuromotor disorder hyperekplexia. Most mutations located in the large intracellular domain (TM3-4 loop) of the GlyR?1 impair surface expression levels of the receptors. The novel GLRA1 mutation P366L, located in the TM3-4 loop, showed normal surface expression but reduced chloride currents, and accelerated whole-cell desensitization observed in whole-cell recordings. At the single-channel level, we observed reduced unitary conductance accompanied by spontaneous opening events in the absence of extracellular glycine. Using peptide microarrays and tandem MS-based analysis methods, we show that the proline-rich stretch surrounding P366 mediates binding to syndapin I, an F-BAR domain protein involved in membrane remodeling. The disruption of the noncanonical Src homology 3 recognition motif by P366L reduces syndapin I binding. These data suggest that the GlyR?1 subunit interacts with intracellular binding partners and may therefore play a role in receptor trafficking or synaptic anchoring, a function thus far only ascribed to the GlyR? subunit. Hence, the P366L GlyR?1 variant exhibits a unique set of properties that cumulatively affect GlyR functionality and thus might explain the neuropathological mechanism underlying hyperekplexia in the mutant carriers. P366L is the first dominant GLRA1 mutation identified within the GlyR?1 TM3-4 loop that affects GlyR physiology without altering protein expression at the whole-cell and surface levels.SIGNIFICANCE STATEMENT We show that the intracellular domain of the inhibitory glycine receptor ?1 subunit contributes to trafficking and synaptic anchoring. A proline-rich stretch in this receptor domain forms a noncanonical recognition motif important for the interaction with syndapin I (PACSIN1). The disruption of this motif, as present in a human patient with hyperekplexia led to impaired syndapin I binding. Functional analysis revealed that the altered proline-rich stretch determines several functional physiological parameters of the ion channel (e.g., faster whole-cell desensitization) reduced unitary conductance and spontaneous opening events. Thus, the proline-rich stretch from the glycine receptor ?1 subunit represents a multifunctional intracellular protein motif.

SUBMITTER: Langlhofer G 

PROVIDER: S-EPMC7326357 | biostudies-literature | 2020 Jun

REPOSITORIES: biostudies-literature

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A Novel Glycine Receptor Variant with Startle Disease Affects Syndapin I and Glycinergic Inhibition.

Langlhofer Georg G   Schaefer Natascha N   Maric Hans M HM   Keramidas Angelo A   Zhang Yan Y   Baumann Peter P   Blum Robert R   Breitinger Ulrike U   Strømgaard Kristian K   Schlosser Andreas A   Kessels Michael M MM   Koch Dennis D   Qualmann Britta B   Breitinger Hans-Georg HG   Lynch Joseph W JW   Villmann Carmen C  

The Journal of neuroscience : the official journal of the Society for Neuroscience 20200430 25


Glycine receptors (GlyRs) are the major mediators of fast synaptic inhibition in the adult human spinal cord and brainstem. Hereditary mutations to GlyRs can lead to the rare, but potentially fatal, neuromotor disorder hyperekplexia. Most mutations located in the large intracellular domain (TM3-4 loop) of the GlyRα1 impair surface expression levels of the receptors. The novel <i>GLRA1</i> mutation P366L, located in the TM3-4 loop, showed normal surface expression but reduced chloride currents, a  ...[more]

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