Clinical, genetic, and functional characterization of the glycine receptor β-subunit A455P variant in a family affected by hyperekplexia syndrome

Ghada I. Aboheimed, Maha M. AlRasheed, Sultan Almudimeegh, Karla A. Peña-Guerra, Kelly J. Cardona-Londoño, Mustafa A. Salih, Mohammed Z. Seidahmed, Futwan Al-Mohanna, Dilek Colak, Robert J. Harvey, Kirsten Harvey, Stefan T. Arold, Namik Kaya*, Arnaud J. Ruiz

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

Hyperekplexia is a rare neurological disorder characterized by exaggerated startle responses affecting newborns with the hallmark characteristics of hypertonia, apnea, and noise or touch-induced nonepileptic seizures. The genetic causes of the disease can vary, and several associated genes and mutations have been reported to affect glycine receptors (GlyRs); however, the mechanistic links between GlyRs and hyperekplexia are not yet understood. Here, we describe a patient with hyperekplexia from a consanguineous family. Extensive genetic screening using exome sequencing coupled with autozygome analysis and iterative filtering supplemented by in silico prediction identified that the patient carries the homozygous missense mutation A455P in GLRB, which encodes the GlyR β-subunit. To unravel the physiological and molecular effects of A455P on GlyRs, we used electrophysiology in a heterologous system as well as immunocytochemistry, confocal microscopy, and cellular biochemistry. We found a reduction in glycine-evoked currents in N2A cells expressing the mutation compared to WT cells. Western blot analysis also revealed a reduced amount of GlyR β protein both in cell lysates and isolated membrane fractions. In line with the above observations, coimmunoprecipitation assays suggested that the GlyR α1-subunit retained coassembly with βA455P to form membrane-bound heteromeric receptors. Finally, structural modeling showed that the A455P mutation affected the interaction between the GlyR β-subunit transmembrane domain 4 and the other helices of the subunit. Taken together, our study identifies and validates a novel loss-of-function mutation in GlyRs whose pathogenicity is likely to cause hyperekplexia in the affected individual.

Original languageEnglish (US)
Article number102018
JournalJournal of Biological Chemistry
Volume298
Issue number7
DOIs
StatePublished - Jul 2022

Bibliographical note

Funding Information:
We are very grateful to the family for their participation in this study. We thank colleagues at (KFSHRC) and staff at Genotyping and Sequencing Core Facilities of the Genetics Department, Research Advisory Council Committees, and the Saudi Human Genome Program. We thank the King Salman Center for Disability Research, for supporting Dr Namik Kaya (Grant No: RAC# 2180-004). We also thank Prof Dimitri Kullmann and Dr Sylvain Rama for the providence of Labview routines. N. K. R. J. H. M. M. A. and A. J. R. methodology; G. I. A. S. A. K. A. P.-G. K. J. C.-L. M. A. S. M. Z. S. F. A.-M. D. C. R. J. H. K. H. S. T. A. and A. J. R. investigation; G. I. A. S. A. K. A. P.-G. K. J. C.-L. S. T. A. R. J. H. and A. J. R. formal analysis; G. I. A. M. M. A. S. T. A. K. H. N. K. and A. J. R. writing–original draft. G. I. A. was sponsored by a PhD studentship provided by the External Joint Supervision Program, King Saud University. S. T. A. K. A. P.-G. and K. J. C.-L. were supported by the King Abdullah University of Science and Technology, Saudi Arabia through the baseline fund and the Office of Sponsored Research, under awards numbers FCC/1/1976-25 and REI/1/4446-01. N. K. was supported by King Salman Center for Disability Research (Grant No: RAC# 2180-004). M. A. S. was supported by the Researchers Supporting Project grant (RSP 2020/38), King Saud University, Saudi Arabia. The funders had no role in study design, data collection, and analysis.

Funding Information:
G. I. A. was sponsored by a PhD studentship provided by the External Joint Supervision Program, King Saud University . S. T. A., K. A. P.-G., and K. J. C.-L. were supported by the King Abdullah University of Science and Technology, Saudi Arabia through the baseline fund and the Office of Sponsored Research, under awards numbers FCC/1/1976-25 and REI/1/4446-01 . N. K. was supported by King Salman Center for Disability Research (Grant No: RAC# 2180-004). M. A. S. was supported by the Researchers Supporting Project grant (RSP 2020/38), King Saud University, Saudi Arabia . The funders had no role in study design, data collection, and analysis.

Publisher Copyright:
© 2022 The Authors

Keywords

  • autozygosity mapping
  • coimmunoprecipitation
  • confocal imaging
  • exome sequencing
  • GLRB
  • immunohistochemistry
  • patch clamp
  • startle disease

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Cell Biology

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