De novo missense variants in RAC3 cause a novel neurodevelopmental syndrome

Journal article

Costain, Gregory, Callewaert, Bert, Gabriel, Heinz, Tan, Tiong Y., Walker, Susan, Christodoulou, John, Lazar, Tamas, Menten, Björn, Orkin, Julia, Sadedin, Simon, Snell, Meaghan, Vanlander, Arnaud, Vergult, Sarah, White, Susan M., Scherer, Stephen W., Hayeems, Robin Z., Blaser, Susan, Wodak, Shoshana J., Chitayat, David, ... Meyn, M. Stephen. (2019). De novo missense variants in RAC3 cause a novel neurodevelopmental syndrome. Genetics in Medicine. 21(4), pp. 1021-1026. https://doi.org/10.1038/s41436-018-0323-y
AuthorsCostain, Gregory, Callewaert, Bert, Gabriel, Heinz, Tan, Tiong Y., Walker, Susan, Christodoulou, John, Lazar, Tamas, Menten, Björn, Orkin, Julia, Sadedin, Simon, Snell, Meaghan, Vanlander, Arnaud, Vergult, Sarah, White, Susan M., Scherer, Stephen W., Hayeems, Robin Z., Blaser, Susan, Wodak, Shoshana J., Chitayat, David, Marshall, Christian R. and Meyn, M. Stephen
Abstract

Purpose
RAC3 is an underexamined member of the Rho GTPase gene family that is expressed in the developing brain and linked to key cellular functions. De novo missense variants in the homolog RAC1 were recently associated with developmental disorders. In the RAC subfamily, transforming missense changes at certain shared residues have been observed in human cancers and previously characterized in experimental studies. The purpose of this study was to determine whether constitutional dysregulation of RAC3 is associated with human disease.

Methods
We discovered a RAC3 variant in the index case using genome sequencing, and searched for additional variants using international data-sharing initiatives. Functional effects of the variants were assessed using a multifaceted approach generalizable to most clinical laboratory settings.

Results
We rapidly identified five individuals with de novo monoallelic missense variants in RAC3, including one recurrent change. Every participant had severe intellectual disability and brain malformations. In silico protein modeling, and prior in vivo and in situ experiments, supported a transforming effect for each of the three different RAC3 variants. All variants were observed in databases of somatic variation in cancer.

Conclusions
Missense variants in RAC3 cause a novel brain disorder, likely through a mechanism of constitutive protein activation.

Keywordsexome; genome; neurodevelopment; Rho signaling; GTPase
Year2019
JournalGenetics in Medicine
Journal citation21 (4), pp. 1021-1026
PublisherNature Publishing Group
ISSN1098-3600
Digital Object Identifier (DOI)https://doi.org/10.1038/s41436-018-0323-y
Scopus EID2-s2.0-85054518038
Research or scholarlyResearch
Page range1021-1026
Publisher's version
License
All rights reserved
File Access Level
Controlled
Output statusPublished
Publication dates
Online08 Oct 2018
Publication process dates
Accepted06 Aug 2018
Deposited10 Jul 2021
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