Human
 CHN1
 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome

Noriko Miyake; John Chilton; Maria Psatha; Long Cheng; Caroline Andrews; Wai Man Chan; Krystal Law; Moira Crosier; Susan Lindsay; Michelle Cheung; James Allen; Nick J. Gutowski; Sian Ellard; Elizabeth Young; Alessandro Iannaccone; Binoy Appukuttan; J. Timothy Stout; Stephen Christiansen; Maria Laura Ciccarelli; Alfonso Baldi; Mara Campioni; Juan C. Zenteno; Dominic Davenport; Laura E. Mariani; Mustafa Sahin; Sarah Guthrie; Elizabeth C. Engle

doi:10.1126/science.1156121

Human CHN1 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome

Noriko Miyake
, John Chilton
, Maria Psatha
, Long Cheng
, Caroline Andrews
, Wai Man Chan
, Krystal Law
, Moira Crosier
, Susan Lindsay
, Michelle Cheung
, James Allen
, Nick J. Gutowski
, Sian Ellard
, Elizabeth Young
, Alessandro Iannaccone
, Binoy Appukuttan
, J. Timothy Stout
, Stephen Christiansen
, Maria Laura Ciccarelli
, Alfonso Baldi

Mara Campioni, Juan C. Zenteno, Dominic Davenport, Laura E. Mariani, Mustafa Sahin, Sarah Guthrie, Elizabeth C. Engle

Peninsula Medical School

Research output: Contribution to journal › Article › peer-review

Abstract

Duane's retraction syndrome (DRS) is a complex congenital eye movement disorder caused by aberrant innervation of the extraocular muscles by axons of brainstem motor neurons. Studying families with a variant form of the disorder (DURS2-DRS), we have identified causative heterozygous missense mutations in CHN1 , a gene on chromosome 2q31 that encodes α2-chimaerin, a Rac guanosine triphosphatase–activating protein (RacGAP) signaling protein previously implicated in the pathfinding of corticospinal axons in mice. We found that these are gain-of-function mutations that increase α2-chimaerin RacGAP activity in vitro. Several of the mutations appeared to enhance α2-chimaerin translocation to the cell membrane or enhance its ability to self-associate. Expression of mutant α2-chimaerin constructs in chick embryos resulted in failure of oculomotor axons to innervate their target extraocular muscles. We conclude that α2-chimaerin has a critical developmental function in ocular motor axon pathfinding.

Original language	English
Pages (from-to)	839-843
Number of pages	0
Journal	Science
Volume	321
Issue number	5890
DOIs	https://doi.org/10.1126/science.1156121
Publication status	Published - 8 Aug 2008

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Miyake, N., Chilton, J., Psatha, M., Cheng, L., Andrews, C., Chan, W. M., Law, K., Crosier, M., Lindsay, S., Cheung, M., Allen, J., Gutowski, N. J., Ellard, S., Young, E., Iannaccone, A., Appukuttan, B., Stout, J. T., Christiansen, S., Ciccarelli, M. L., ... Engle, E. C. (2008). Human CHN1 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome. Science, 321(5890), 839-843. https://doi.org/10.1126/science.1156121

@article{3b7522e8d30740c0a3f402ef2c115bb6,

title = "Human CHN1 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome",

abstract = " Duane's retraction syndrome (DRS) is a complex congenital eye movement disorder caused by aberrant innervation of the extraocular muscles by axons of brainstem motor neurons. Studying families with a variant form of the disorder (DURS2-DRS), we have identified causative heterozygous missense mutations in CHN1 , a gene on chromosome 2q31 that encodes α2-chimaerin, a Rac guanosine triphosphatase–activating protein (RacGAP) signaling protein previously implicated in the pathfinding of corticospinal axons in mice. We found that these are gain-of-function mutations that increase α2-chimaerin RacGAP activity in vitro. Several of the mutations appeared to enhance α2-chimaerin translocation to the cell membrane or enhance its ability to self-associate. Expression of mutant α2-chimaerin constructs in chick embryos resulted in failure of oculomotor axons to innervate their target extraocular muscles. We conclude that α2-chimaerin has a critical developmental function in ocular motor axon pathfinding. ",

author = "Noriko Miyake and John Chilton and Maria Psatha and Long Cheng and Caroline Andrews and Chan, \{Wai Man\} and Krystal Law and Moira Crosier and Susan Lindsay and Michelle Cheung and James Allen and Gutowski, \{Nick J.\} and Sian Ellard and Elizabeth Young and Alessandro Iannaccone and Binoy Appukuttan and Stout, \{J. Timothy\} and Stephen Christiansen and Ciccarelli, \{Maria Laura\} and Alfonso Baldi and Mara Campioni and Zenteno, \{Juan C.\} and Dominic Davenport and Mariani, \{Laura E.\} and Mustafa Sahin and Sarah Guthrie and Engle, \{Elizabeth C.\}",

year = "2008",

month = aug,

day = "8",

doi = "10.1126/science.1156121",

language = "English",

volume = "321",

pages = "839--843",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "5890",

}

Miyake, N, Chilton, J, Psatha, M, Cheng, L, Andrews, C, Chan, WM, Law, K, Crosier, M, Lindsay, S, Cheung, M, Allen, J, Gutowski, NJ, Ellard, S, Young, E, Iannaccone, A, Appukuttan, B, Stout, JT, Christiansen, S, Ciccarelli, ML, Baldi, A, Campioni, M, Zenteno, JC, Davenport, D, Mariani, LE, Sahin, M, Guthrie, S & Engle, EC 2008, 'Human CHN1 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome', Science, vol. 321, no. 5890, pp. 839-843. https://doi.org/10.1126/science.1156121

TY - JOUR

T1 - Human CHN1 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome

AU - Miyake, Noriko

AU - Chilton, John

AU - Psatha, Maria

AU - Cheng, Long

AU - Andrews, Caroline

AU - Chan, Wai Man

AU - Law, Krystal

AU - Crosier, Moira

AU - Lindsay, Susan

AU - Cheung, Michelle

AU - Allen, James

AU - Gutowski, Nick J.

AU - Ellard, Sian

AU - Young, Elizabeth

AU - Iannaccone, Alessandro

AU - Appukuttan, Binoy

AU - Stout, J. Timothy

AU - Christiansen, Stephen

AU - Ciccarelli, Maria Laura

AU - Baldi, Alfonso

AU - Campioni, Mara

AU - Zenteno, Juan C.

AU - Davenport, Dominic

AU - Mariani, Laura E.

AU - Sahin, Mustafa

AU - Guthrie, Sarah

AU - Engle, Elizabeth C.

PY - 2008/8/8

Y1 - 2008/8/8

N2 - Duane's retraction syndrome (DRS) is a complex congenital eye movement disorder caused by aberrant innervation of the extraocular muscles by axons of brainstem motor neurons. Studying families with a variant form of the disorder (DURS2-DRS), we have identified causative heterozygous missense mutations in CHN1 , a gene on chromosome 2q31 that encodes α2-chimaerin, a Rac guanosine triphosphatase–activating protein (RacGAP) signaling protein previously implicated in the pathfinding of corticospinal axons in mice. We found that these are gain-of-function mutations that increase α2-chimaerin RacGAP activity in vitro. Several of the mutations appeared to enhance α2-chimaerin translocation to the cell membrane or enhance its ability to self-associate. Expression of mutant α2-chimaerin constructs in chick embryos resulted in failure of oculomotor axons to innervate their target extraocular muscles. We conclude that α2-chimaerin has a critical developmental function in ocular motor axon pathfinding.

AB - Duane's retraction syndrome (DRS) is a complex congenital eye movement disorder caused by aberrant innervation of the extraocular muscles by axons of brainstem motor neurons. Studying families with a variant form of the disorder (DURS2-DRS), we have identified causative heterozygous missense mutations in CHN1 , a gene on chromosome 2q31 that encodes α2-chimaerin, a Rac guanosine triphosphatase–activating protein (RacGAP) signaling protein previously implicated in the pathfinding of corticospinal axons in mice. We found that these are gain-of-function mutations that increase α2-chimaerin RacGAP activity in vitro. Several of the mutations appeared to enhance α2-chimaerin translocation to the cell membrane or enhance its ability to self-associate. Expression of mutant α2-chimaerin constructs in chick embryos resulted in failure of oculomotor axons to innervate their target extraocular muscles. We conclude that α2-chimaerin has a critical developmental function in ocular motor axon pathfinding.

U2 - 10.1126/science.1156121

DO - 10.1126/science.1156121

M3 - Article

SN - 0036-8075

VL - 321

SP - 839

EP - 843

JO - Science

JF - Science

IS - 5890

ER -

Human CHN1 Mutations Hyperactivate α2-Chimaerin and Cause Duane's Retraction Syndrome

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