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Human CHN1 mutations hyperactivate alpha2-chimaerin and cause Duane's retraction syndrome |
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| Authors: | Miyake Noriko Chilton John Psatha Maria Cheng Long Andrews Caroline Chan Wai-Man Law Krystal Crosier Moira Lindsay Susan Cheung Michelle Allen James Gutowski Nick J Ellard Sian Young Elizabeth Iannaccone Alessandro Appukuttan Binoy Stout J Timothy Christiansen Stephen Ciccarelli Maria Laura Baldi Alfonso Campioni Mara Zenteno Juan C Davenport Dominic Mariani Laura E Sahin Mustafa Guthrie Sarah Engle Elizabeth C |
| Institution: | Department of Medicine (Genetics), Children's Hospital Boston, Boston, MA 02115, USA. |
| 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 alpha2-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 alpha2-chimaerin RacGAP activity in vitro. Several of the mutations appeared to enhance alpha2-chimaerin translocation to the cell membrane or enhance its ability to self-associate. Expression of mutant alpha2-chimaerin constructs in chick embryos resulted in failure of oculomotor axons to innervate their target extraocular muscles. We conclude that alpha2-chimaerin has a critical developmental function in ocular motor axon pathfinding. |
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