Mutations in RIT1 cause Noonan syndrome - additional functional evidence and expanding the clinical phenotype

M. Koenighofer; C. Y. Hung; J. L. Mccauley; J. Dallman; E. J. Back; I. Mihalek; K. W. Gripp; K. Sol-Church; P. Rusconi; Z. Zhang; G. X. Shi; D. A. Andres; O. A. Bodamer

doi:10.1111/cge.12608

Mutations in RIT1 cause Noonan syndrome - additional functional evidence and expanding the clinical phenotype

M. Koenighofer
, C. Y. Hung
, J. L. Mccauley
, J. Dallman
, E. J. Back
, I. Mihalek
, K. W. Gripp
, K. Sol-Church
, P. Rusconi
, Z. Zhang
, G. X. Shi
, D. A. Andres
, O. A. Bodamer

Producción científica: Article › revisión exhaustiva

35 Citas (Scopus)

Resumen

RASopathies are a clinically heterogeneous group of conditions caused by mutations in 1 of 16 proteins in the RAS-mitogen activated protein kinase (RAS-MAPK) pathway. Recently, mutations in RIT1 were identified as a novel cause for Noonan syndrome. Here we provide additional functional evidence for a causal role of RIT1 mutations and expand the associated phenotypic spectrum. We identified two de novo missense variants p.Met90Ile and p.Ala57Gly. Both variants resulted in increased MEK-ERK signaling compared to wild-type, underscoring gain-of-function as the primary functional mechanism. Introduction of p.Met90Ile and p.Ala57Gly into zebrafish embryos reproduced not only aspects of the human phenotype but also revealed abnormalities of eye development, emphasizing the importance of RIT1 for spatial and temporal organization of the growing organism. In addition, we observed severe lymphedema of the lower extremity and genitalia in one patient. We provide additional evidence for a causal relationship between pathogenic mutations in RIT1, increased RAS-MAPK/MEK-ERK signaling and the clinical phenotype. The mutant RIT1 protein may possess reduced GTPase activity or a diminished ability to interact with cellular GTPase activating proteins; however the precise mechanism remains unknown. The phenotypic spectrum is likely to expand and includes lymphedema of the lower extremities in addition to nuchal hygroma.

Idioma original	English
Páginas (desde-hasta)	359-366
Número de páginas	8
Publicación	Clinical Genetics
Volumen	89
N.º	3
DOI	https://doi.org/10.1111/cge.12608
Estado	Published - mar 1 2016

Nota bibliográfica

Publisher Copyright:
© 2016 John Wiley & Sons A/S.

Financiación

We are most grateful to the participating families and physicians who provided samples from patients with RASopathies. This work was supported by the National Multiple Sclerosis Society [NMSS-RG 4680A1/1 to J. L. M.], the National Institutes of Health [NIH-NS045103 to D. A. A., NIH-NIGMS-P20GM103464 and NIH-P20GM103446 to K. S.], the University of Kentucky Research Professorship to D. A. A., the Nemours Foundation Award to K. W. G. and the GeneSpotLight Foundation Award to O. A. B. We are most grateful to the participating families and physicians who provided samples from patients with RASopathies. This work was supported by the National Multiple Sclerosis Society [NMSS-RG 4680A1/1 to J. L. M.], the National Institutes of Health [NIH-NS045103 to D. A. A., NIH-NIGMS-P20GM103464 and NIH-P20GM103446 to K. S.], the University of Kentucky Research Professorship to D. A. A., the Nemours Foundation Award to K. W. G. and the GeneSpotLight Foundation Award to O. A. B.

Financiadores	Número del financiador
GeneSpotLight Foundation
National Institutes of Health (NIH)	NIH-NIGMS-P20GM103464, NIH-P20GM103446, P20RR020173
National Institutes of Health (NIH)
Institute of Neurological Disorders and Stroke National Advisory Neurological Disorders and Stroke Council	R01NS045103
Institute of Neurological Disorders and Stroke National Advisory Neurological Disorders and Stroke Council
National Multiple Sclerosis Society	NMSS-RG 4680A1/1
National Multiple Sclerosis Society
University of Kentucky
Nemours Foundation

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1111/cge.12608

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Koenighofer, M., Hung, C. Y., Mccauley, J. L., Dallman, J., Back, E. J., Mihalek, I., Gripp, K. W., Sol-Church, K., Rusconi, P., Zhang, Z., Shi, G. X., Andres, D. A., & Bodamer, O. A. (2016). Mutations in RIT1 cause Noonan syndrome - additional functional evidence and expanding the clinical phenotype. Clinical Genetics, 89(3), 359-366. https://doi.org/10.1111/cge.12608

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abstract = "RASopathies are a clinically heterogeneous group of conditions caused by mutations in 1 of 16 proteins in the RAS-mitogen activated protein kinase (RAS-MAPK) pathway. Recently, mutations in RIT1 were identified as a novel cause for Noonan syndrome. Here we provide additional functional evidence for a causal role of RIT1 mutations and expand the associated phenotypic spectrum. We identified two de novo missense variants p.Met90Ile and p.Ala57Gly. Both variants resulted in increased MEK-ERK signaling compared to wild-type, underscoring gain-of-function as the primary functional mechanism. Introduction of p.Met90Ile and p.Ala57Gly into zebrafish embryos reproduced not only aspects of the human phenotype but also revealed abnormalities of eye development, emphasizing the importance of RIT1 for spatial and temporal organization of the growing organism. In addition, we observed severe lymphedema of the lower extremity and genitalia in one patient. We provide additional evidence for a causal relationship between pathogenic mutations in RIT1, increased RAS-MAPK/MEK-ERK signaling and the clinical phenotype. The mutant RIT1 protein may possess reduced GTPase activity or a diminished ability to interact with cellular GTPase activating proteins; however the precise mechanism remains unknown. The phenotypic spectrum is likely to expand and includes lymphedema of the lower extremities in addition to nuchal hygroma.",

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AU - Hung, C. Y.

AU - Mccauley, J. L.

AU - Dallman, J.

AU - Back, E. J.

AU - Mihalek, I.

AU - Gripp, K. W.

AU - Sol-Church, K.

AU - Rusconi, P.

AU - Zhang, Z.

AU - Shi, G. X.

AU - Andres, D. A.

AU - Bodamer, O. A.

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AB - RASopathies are a clinically heterogeneous group of conditions caused by mutations in 1 of 16 proteins in the RAS-mitogen activated protein kinase (RAS-MAPK) pathway. Recently, mutations in RIT1 were identified as a novel cause for Noonan syndrome. Here we provide additional functional evidence for a causal role of RIT1 mutations and expand the associated phenotypic spectrum. We identified two de novo missense variants p.Met90Ile and p.Ala57Gly. Both variants resulted in increased MEK-ERK signaling compared to wild-type, underscoring gain-of-function as the primary functional mechanism. Introduction of p.Met90Ile and p.Ala57Gly into zebrafish embryos reproduced not only aspects of the human phenotype but also revealed abnormalities of eye development, emphasizing the importance of RIT1 for spatial and temporal organization of the growing organism. In addition, we observed severe lymphedema of the lower extremity and genitalia in one patient. We provide additional evidence for a causal relationship between pathogenic mutations in RIT1, increased RAS-MAPK/MEK-ERK signaling and the clinical phenotype. The mutant RIT1 protein may possess reduced GTPase activity or a diminished ability to interact with cellular GTPase activating proteins; however the precise mechanism remains unknown. The phenotypic spectrum is likely to expand and includes lymphedema of the lower extremities in addition to nuchal hygroma.

KW - Costello syndrome

KW - Noonan syndrome

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Mutations in RIT1 cause Noonan syndrome - additional functional evidence and expanding the clinical phenotype

Resumen

Nota bibliográfica

Financiación

ASJC Scopus subject areas

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