Background: Hyperekplexia mutations have provided much information about glycine receptor structure and function. Results: Weidentified and characterized nine new mutations. Dominant mutations resulted in spontaneous activation, whereas recessive mutations precluded surface expression. Conclusion: These data provide insight into glycine receptor activation mechanisms and surface expression determinants. Significance: The results enhance our understanding of hyperekplexia pathology and glycine receptor structure-function. © 2013 by The American Society for Biochemistry and Molecular Biology, Inc. Published in the U.S.A

Alfred P. Born

Amanda Krause

Amira Masri

Angelo Keramidas

Anna Bode

Bakker

Beato

Bellini

Brune

Bulent Kara

Butler

Catherine Vincent-Delorme

Chen

Cheney J.G. Drew

Chung

Corringer

Davies

Elie G. Karam

Elizabeth A. Jones

Emma Hobson

Engel

Estrada-Mondragón

Eswar

Fusun Alehan

Gail E. Graham

Gerald Bannasch

Grace Vassallo

Graham

Grudzinska

Grünberg

Haeger

Hanna Mandel

Harvey

Hibbs

Humeny

Islam

James

Jean-François Vanbellinghen

Jonathan G.L. Mullins

Joseph W. Lynch

Jubran E. Rahme

Kang

Kling

Kruger

Langosch

Lynch

Marius Bartsch

Mark I. Rees

Michael Freilinger

Miraglia Del Giudice

Notredame

Owain W. Howell

Pettersen

Pless

Pons

Rajendra

Rees

Rhys H. Thomas

Ryan

Samuel F. Berkovic

Saul

Seo-Kyung Chung

Sharon Aharoni

Shiang

Sian-Elin Wood

Simon

Stephanie Matta

Sue Chatfield

Thomas

Thomas D. Cushion

Unterer

Vergouwe

Villmann

Vivek Jain

Wang

Wheeler

William O. Pickrell

Yang

Zaid Afawi

PubMed

Crossref

Journal of Biological Chemistry

New Hyperekplexia Mutations Provide Insight into Glycine Receptor Assembly, Trafficking, and Activation Mechanisms

Bode, Anna

Wood, Sian-Elin

Mullins, Jonathan G. L.

Keramidas, Angelo

Cushion, Thomas D.

Thomas, Rhys H.

Pickrell, William O.

Drew, Cheney J. G.

Masri, Amira

Jones, Elizabeth A.

Vassallo, Grace

Born, Alfred P.

Alehan, Fusun

Aharoni, Sharon

Bannasch, Gerald

Bartsch, Marius

Kara, Bulent

Krause, Amanda

Karam, Elie G.

Matta, Stephanie

Jain, Vivek

Mandel, Hanna

Freilinger, Michael

Graham, Gail E.

Hobson, Emma

Chatfield, Sue

Vincent-Delorme, Catherine

Rahme, Jubran E.

Afawi, Zaid

Berkovic, Samuel F.

Howell, Owain W.

University of Queensland eSpace

New hyperekplexia mutations provide insight into glycine receptor assembly, trafficking, and activation mechanisms

Hyperekplexia is a syndrome of readily provoked startle responses, alongside episodic and generalized hypertonia, that presents within the first month of life. Inhibitory glycine receptors are pentameric ligand-gated ion channels with a definitive and clinically well stratified linkage to hyperekplexia. Most hyperekplexia cases are caused by mutations in the α1 subunit of the human glycine receptor (hGlyR) gene (GLRA1). Here we analyzed 68 new unrelated hyperekplexia probands for GLRA1 mutations and identified 19 mutations, of which 9 were novel. Electrophysiological analysis demonstrated that the dominant mutations p.Q226E, p.V280M, and p.R414H induced spontaneous channel activity, indicating that this is a recurring mechanism in hGlyR pathophysiology. p.Q226E, at the top of TM1, most likely induced tonic activation via an enhanced electrostatic attraction to p.R271 at the top of TM2, suggesting a structural mechanism for channel activation. Receptors incorporating p.P230S (which is heterozygous with p.R65W) desensitized much faster than wild type receptors and represent a new TM1 site capable of modulating desensitization. The recessive mutations p.R72C, p.R218W, p.L291P, p.D388A, and p.E375X precluded cell surface expression unless co-expressed with α1 wild type subunits. The recessive p.E375X mutation resulted in subunit truncation upstream of the TM4 domain. Surprisingly, on the basis of three independent assays, we were able to infer that p.E375X truncated subunits are incorporated into functional hGlyRs together with unmutated α1 or α1 plus β subunits. These aberrant receptors exhibit significantly reduced glycine sensitivity. To our knowledge, this is the first suggestion that subunits lacking TM4 domains might be incorporated into functional pentameric ligand-gated ion channel receptors

Bode, A.

Wood, Sian

Mullins, J. G. L.

Keramidas, A.

Cushion, T. D.

Thomas, R. H.

Pickrell, W. O.

Drew, C. J. G.

Masri, A.

Jones, E. A.

Vassallo, G.

Born, A. P.

Alehan, F.

Aharoni, S.

Bannasch, G.

Bartsch, M.

Kara, B.

Krause, A.

Karam, E. G.

Matta, S.

Jain, V.

Mandel, H.

Freilinger, M.

Graham, G. E.

Hobson, E.

Chatfield, S.

Vincent-Delorme, C.

Rahme, J. E.

Afawi, Z.

Berkovic, S. F.

Howell, O. W.

Vanbellinghen, J.-F.

Rees, M. I.

Chung, S.-K.

Lynch, J. W.

Online Research @ Cardiff

http://dx.doi.org/10.1074/jbc.M113.509240

New hyperekplexia mutations provide insight into glycine receptor assembly, trafficking, and activation mechanisms

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Crossref

University of Queensland eSpace

Online Research @ Cardiff