Elucidation of MRAS-mediated Noonan syndrome with cardiac hypertrophy
Erin M. Higgins, J. Martijn Bos, Heather Mason-Suares, David J. Tester, Jaeger P. Ackerman, Calum A. MacRae, Katia Sol-Church, Karen W. Gripp, Raul Urrutia, Michael J. Ackerman
Erin M. Higgins, J. Martijn Bos, Heather Mason-Suares, David J. Tester, Jaeger P. Ackerman, Calum A. MacRae, Katia Sol-Church, Karen W. Gripp, Raul Urrutia, Michael J. Ackerman
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Research Article Cardiology Genetics

Elucidation of MRAS-mediated Noonan syndrome with cardiac hypertrophy

Abstract

Noonan syndrome (NS; MIM 163950) is an autosomal dominant disorder and a member of a family of developmental disorders termed “RASopathies,” which are caused mainly by gain-of-function mutations in genes encoding RAS/MAPK signaling pathway proteins. Whole exome sequencing (WES) and trio-based genomic triangulation of a 15-year-old female with a clinical diagnosis of NS and concomitant cardiac hypertrophy and her unaffected parents identified a de novo variant in MRAS-encoded RAS-related protein 3 as the cause of her disease. Mutation analysis using in silico mutation prediction tools and molecular dynamics simulations predicted the identified variant, p.Gly23Val-MRAS, to be damaging to normal protein function and adversely affect effector interaction regions and the GTP-binding site. Subsequent ectopic expression experiments revealed a 40-fold increase in MRAS activation for p.Gly23Val-MRAS compared with WT-MRAS. Additional biochemical assays demonstrated enhanced activation of both RAS/MAPK pathway signaling and downstream gene expression in cells expressing p.Gly23Val-MRAS. Mutational analysis of MRAS in a cohort of 109 unrelated patients with phenotype-positive/genotype-negative NS and cardiac hypertrophy yielded another patient with a sporadic de novo MRAS variant (p.Thr68Ile, c.203C>T). Herein, we describe the discovery of mutations in MRAS in patients with NS and cardiac hypertrophy, establishing MRAS as the newest NS with cardiac hypertrophy-susceptibility gene.

Authors

Erin M. Higgins, J. Martijn Bos, Heather Mason-Suares, David J. Tester, Jaeger P. Ackerman, Calum A. MacRae, Katia Sol-Church, Karen W. Gripp, Raul Urrutia, Michael J. Ackerman

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Figure 2

Multiple sequence alignment of MRAS in comparison with HRAS, KRAS, and NRAS paralogs.

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Multiple sequence alignment of MRAS in comparison with HRAS, KRAS, and N...
Multiple sequence alignment was performed using T-COFFEE as previously described (62). Note that, in spite of differences in the sequence among these proteins (HRAS: 57.3%; NRAS: 56.7%; KRAS: 55.4%), the regions corresponding to the switch I and II and helix 3, which are critical for the activation of these proteins, are highly conserved. Additionally, sequence alignment demonstrated that the MRAS variants aligned to critical and conserved regions, matching previously identified disease-associated variants in one or more of the MRAS paralogs.