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RAC1 Missense Mutations in Developmental Disorders with Diverse Phenotypes.

Authors :
Reijnders, Margot R.F.
Ansor, Nurhuda M.
Kousi, Maria
Yue, Wyatt W.
Tan, Perciliz L.
Clarkson, Katie
Clayton-Smith, Jill
Corning, Ken
Jones, Julie R.
Lam, Wayne W.K.
Mancini, Grazia M.S.
Marcelis, Carlo
Mohammed, Shehla
Pfundt, Rolph
Roifman, Maian
Cohn, Ronald
Chitayat, David
Millard, Tom H.
Katsanis, Nicholas
Brunner, Han G.
Source :
American Journal of Human Genetics. Sep2017, Vol. 101 Issue 3, p466-477. 12p.
Publication Year :
2017

Abstract

RAC1 is a widely studied Rho GTPase, a class of molecules that modulate numerous cellular functions essential for normal development. RAC1 is highly conserved across species and is under strict mutational constraint. We report seven individuals with distinct de novo missense RAC1 mutations and varying degrees of developmental delay, brain malformations, and additional phenotypes. Four individuals, each harboring one of c.53G>A (p.Cys18Tyr), c.116A>G (p.Asn39Ser), c.218C>T (p.Pro73Leu), and c.470G>A (p.Cys157Tyr) variants, were microcephalic, with head circumferences between −2.5 to −5 SD. In contrast, two individuals with c.151G>A (p.Val51Met) and c.151G>C (p.Val51Leu) alleles were macrocephalic with head circumferences of +4.16 and +4.5 SD. One individual harboring a c.190T>G (p.Tyr64Asp) allele had head circumference in the normal range. Collectively, we observed an extraordinary spread of ∼10 SD of head circumferences orchestrated by distinct mutations in the same gene. In silico modeling, mouse fibroblasts spreading assays, and in vivo overexpression assays using zebrafish as a surrogate model demonstrated that the p.Cys18Tyr and p.Asn39Ser RAC1 variants function as dominant-negative alleles and result in microcephaly, reduced neuronal proliferation, and cerebellar abnormalities in vivo . Conversely, the p.Tyr64Asp substitution is constitutively active. The remaining mutations are probably weakly dominant negative or their effects are context dependent. These findings highlight the importance of RAC1 in neuronal development. Along with TRIO and HACE1, a sub-category of rare developmental disorders is emerging with RAC1 as the central player. We show that ultra-rare disorders caused by private, non-recurrent missense mutations that result in varying phenotypes are challenging to dissect, but can be delineated through focused international collaboration. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00029297
Volume :
101
Issue :
3
Database :
Academic Search Index
Journal :
American Journal of Human Genetics
Publication Type :
Academic Journal
Accession number :
124998999
Full Text :
https://doi.org/10.1016/j.ajhg.2017.08.007