Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome

Viviana Cordeddu; Jiani C. Yin; Cecilia Gunnarsson; Carl Virtanen; Séverine Drunat; Francesca Lepri; Alessandro De Luca; Cesare Rossi; Andrea Ciolfi; Trevor J. Pugh; Alessandro Bruselles; James R. Priest; Len A. Pennacchio; Zhibin Lu; Arnavaz Danesh; Rene Quevedo; Alaa Hamid; Simone Martinelli; Francesca Pantaleoni; Maria Gnazzo; Paola Daniele; Christina Lissewski; Gianfranco Bocchinfuso; Lorenzo Stella; Sylvie Odent; Nicole Philip; Laurence Faivre; Marketa Vlckova; Eva Seemanova; Cristina Digilio; Martin Zenker; Giuseppe Zampino; Alain Verloes; Bruno Dallapiccola; Amy E. Roberts; Hélène Cavé; Bruce D. Gelb; Benjamin G. Neel; Marco Tartaglia

doi:10.1002/humu.22834

Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome

Viviana Cordeddu, Jiani C. Yin, Cecilia Gunnarsson, Carl Virtanen, Séverine Drunat, Francesca Lepri, Alessandro De Luca, Cesare Rossi, Andrea Ciolfi, Trevor J. Pugh, Alessandro Bruselles, James R. Priest, Len A. Pennacchio, Zhibin Lu, Arnavaz Danesh, Rene Quevedo, Alaa Hamid, Simone Martinelli, Francesca Pantaleoni, Maria GnazzoPaola Daniele, Christina Lissewski, Gianfranco Bocchinfuso, Lorenzo Stella, Sylvie Odent, Nicole Philip, Laurence Faivre, Marketa Vlckova, Eva Seemanova, Cristina Digilio, Martin Zenker, Giuseppe Zampino, Alain Verloes, Bruno Dallapiccola, Amy E. Roberts, Hélène Cavé, Bruce D. Gelb, Benjamin G. Neel, Marco Tartaglia

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46 Citations (Scopus)

Abstract

The RASopathies constitute a family of autosomal-dominant disorders whose major features include facial dysmorphism, cardiac defects, reduced postnatal growth, variable cognitive deficits, ectodermal and skeletal anomalies, and susceptibility to certain malignancies. Noonan syndrome (NS), the commonest RASopathy, is genetically heterogeneous and caused by functional dysregulation of signal transducers and regulatory proteins with roles in the RAS/extracellular signal-regulated kinase (ERK) signal transduction pathway. Mutations in known disease genes account for approximately 80% of affected individuals. Here, we report that missense mutations altering Son of Sevenless, Drosophila, homolog 2 (SOS2), which encodes a RAS guanine nucleotide exchange factor, occur in a small percentage of subjects with NS. Four missense mutations were identified in five unrelated sporadic cases and families transmitting NS. Disease-causing mutations affected three conserved residues located in the Dbl homology (DH) domain, of which two are directly involved in the intramolecular binding network maintaining SOS2 in its autoinhibited conformation. All mutations were found to promote enhanced signaling from RAS to ERK. Similar to NS-causing SOS1 mutations, the phenotype associated with SOS2 defects is characterized by normal development and growth, as well as marked ectodermal involvement. Unlike SOS1 mutations, however, those in SOS2 are restricted to the DH domain.

Original language	English
Pages (from-to)	1080-1087
Number of pages	8
Journal	Human Mutation
Volume	36
DOIs	https://doi.org/10.1002/humu.22834
Publication status	Published - 2015

Keywords

Adolescent
Adult
Alleles
Amino Acid Substitution
Child
DNA Mutational Analysis
Exome
Facies
Female
Genetic Association Studies
Genotype
Genotype-phenotype correlations
Humans
Male
Models, Molecular
Mutation
Noonan Syndrome
Noonan syndrome
Phenotype
Protein Conformation
Protein Interaction Domains and Motifs
RAS signaling
SOS2
Son of Sevenless Proteins
Young Adult

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10.1002/humu.22834

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Cordeddu, V., Yin, J. C., Gunnarsson, C., Virtanen, C., Drunat, S., Lepri, F., De Luca, A., Rossi, C., Ciolfi, A., Pugh, T. J., Bruselles, A., Priest, J. R., Pennacchio, L. A., Lu, Z., Danesh, A., Quevedo, R., Hamid, A., Martinelli, S., Pantaleoni, F., ... Tartaglia, M. (2015). Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome. Human Mutation, 36, 1080-1087. https://doi.org/10.1002/humu.22834

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title = "Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome",

abstract = "The RASopathies constitute a family of autosomal-dominant disorders whose major features include facial dysmorphism, cardiac defects, reduced postnatal growth, variable cognitive deficits, ectodermal and skeletal anomalies, and susceptibility to certain malignancies. Noonan syndrome (NS), the commonest RASopathy, is genetically heterogeneous and caused by functional dysregulation of signal transducers and regulatory proteins with roles in the RAS/extracellular signal-regulated kinase (ERK) signal transduction pathway. Mutations in known disease genes account for approximately 80% of affected individuals. Here, we report that missense mutations altering Son of Sevenless, Drosophila, homolog 2 (SOS2), which encodes a RAS guanine nucleotide exchange factor, occur in a small percentage of subjects with NS. Four missense mutations were identified in five unrelated sporadic cases and families transmitting NS. Disease-causing mutations affected three conserved residues located in the Dbl homology (DH) domain, of which two are directly involved in the intramolecular binding network maintaining SOS2 in its autoinhibited conformation. All mutations were found to promote enhanced signaling from RAS to ERK. Similar to NS-causing SOS1 mutations, the phenotype associated with SOS2 defects is characterized by normal development and growth, as well as marked ectodermal involvement. Unlike SOS1 mutations, however, those in SOS2 are restricted to the DH domain.",

keywords = "Adolescent, Adult, Alleles, Amino Acid Substitution, Child, DNA Mutational Analysis, Exome, Facies, Female, Genetic Association Studies, Genotype, Genotype-phenotype correlations, Humans, Male, Models, Molecular, Mutation, Noonan Syndrome, Noonan syndrome, Phenotype, Protein Conformation, Protein Interaction Domains and Motifs, RAS signaling, SOS2, Son of Sevenless Proteins, Young Adult, Adolescent, Adult, Alleles, Amino Acid Substitution, Child, DNA Mutational Analysis, Exome, Facies, Female, Genetic Association Studies, Genotype, Genotype-phenotype correlations, Humans, Male, Models, Molecular, Mutation, Noonan Syndrome, Noonan syndrome, Phenotype, Protein Conformation, Protein Interaction Domains and Motifs, RAS signaling, SOS2, Son of Sevenless Proteins, Young Adult",

author = "Viviana Cordeddu and Yin, {Jiani C.} and Cecilia Gunnarsson and Carl Virtanen and S{\'e}verine Drunat and Francesca Lepri and {De Luca}, Alessandro and Cesare Rossi and Andrea Ciolfi and Pugh, {Trevor J.} and Alessandro Bruselles and Priest, {James R.} and Pennacchio, {Len A.} and Zhibin Lu and Arnavaz Danesh and Rene Quevedo and Alaa Hamid and Simone Martinelli and Francesca Pantaleoni and Maria Gnazzo and Paola Daniele and Christina Lissewski and Gianfranco Bocchinfuso and Lorenzo Stella and Sylvie Odent and Nicole Philip and Laurence Faivre and Marketa Vlckova and Eva Seemanova and Cristina Digilio and Martin Zenker and Giuseppe Zampino and Alain Verloes and Bruno Dallapiccola and Roberts, {Amy E.} and H{\'e}l{\`e}ne Cav{\'e} and Gelb, {Bruce D.} and Neel, {Benjamin G.} and Marco Tartaglia",

year = "2015",

doi = "10.1002/humu.22834",

language = "English",

volume = "36",

pages = "1080--1087",

journal = "Human Mutation",

issn = "1059-7794",

publisher = "John Wiley and Sons Inc.",

}

Cordeddu, V, Yin, JC, Gunnarsson, C, Virtanen, C, Drunat, S, Lepri, F, De Luca, A, Rossi, C, Ciolfi, A, Pugh, TJ, Bruselles, A, Priest, JR, Pennacchio, LA, Lu, Z, Danesh, A, Quevedo, R, Hamid, A, Martinelli, S, Pantaleoni, F, Gnazzo, M, Daniele, P, Lissewski, C, Bocchinfuso, G, Stella, L, Odent, S, Philip, N, Faivre, L, Vlckova, M, Seemanova, E, Digilio, C, Zenker, M, Zampino, G, Verloes, A, Dallapiccola, B, Roberts, AE, Cavé, H, Gelb, BD, Neel, BG & Tartaglia, M 2015, 'Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome', Human Mutation, vol. 36, pp. 1080-1087. https://doi.org/10.1002/humu.22834

TY - JOUR

T1 - Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome

AU - Cordeddu, Viviana

AU - Yin, Jiani C.

AU - Gunnarsson, Cecilia

AU - Virtanen, Carl

AU - Drunat, Séverine

AU - Lepri, Francesca

AU - De Luca, Alessandro

AU - Rossi, Cesare

AU - Ciolfi, Andrea

AU - Pugh, Trevor J.

AU - Bruselles, Alessandro

AU - Priest, James R.

AU - Pennacchio, Len A.

AU - Lu, Zhibin

AU - Danesh, Arnavaz

AU - Quevedo, Rene

AU - Hamid, Alaa

AU - Martinelli, Simone

AU - Pantaleoni, Francesca

AU - Gnazzo, Maria

AU - Daniele, Paola

AU - Lissewski, Christina

AU - Bocchinfuso, Gianfranco

AU - Stella, Lorenzo

AU - Odent, Sylvie

AU - Philip, Nicole

AU - Faivre, Laurence

AU - Vlckova, Marketa

AU - Seemanova, Eva

AU - Digilio, Cristina

AU - Zenker, Martin

AU - Zampino, Giuseppe

AU - Verloes, Alain

AU - Dallapiccola, Bruno

AU - Roberts, Amy E.

AU - Cavé, Hélène

AU - Gelb, Bruce D.

AU - Neel, Benjamin G.

AU - Tartaglia, Marco

PY - 2015

Y1 - 2015

N2 - The RASopathies constitute a family of autosomal-dominant disorders whose major features include facial dysmorphism, cardiac defects, reduced postnatal growth, variable cognitive deficits, ectodermal and skeletal anomalies, and susceptibility to certain malignancies. Noonan syndrome (NS), the commonest RASopathy, is genetically heterogeneous and caused by functional dysregulation of signal transducers and regulatory proteins with roles in the RAS/extracellular signal-regulated kinase (ERK) signal transduction pathway. Mutations in known disease genes account for approximately 80% of affected individuals. Here, we report that missense mutations altering Son of Sevenless, Drosophila, homolog 2 (SOS2), which encodes a RAS guanine nucleotide exchange factor, occur in a small percentage of subjects with NS. Four missense mutations were identified in five unrelated sporadic cases and families transmitting NS. Disease-causing mutations affected three conserved residues located in the Dbl homology (DH) domain, of which two are directly involved in the intramolecular binding network maintaining SOS2 in its autoinhibited conformation. All mutations were found to promote enhanced signaling from RAS to ERK. Similar to NS-causing SOS1 mutations, the phenotype associated with SOS2 defects is characterized by normal development and growth, as well as marked ectodermal involvement. Unlike SOS1 mutations, however, those in SOS2 are restricted to the DH domain.

AB - The RASopathies constitute a family of autosomal-dominant disorders whose major features include facial dysmorphism, cardiac defects, reduced postnatal growth, variable cognitive deficits, ectodermal and skeletal anomalies, and susceptibility to certain malignancies. Noonan syndrome (NS), the commonest RASopathy, is genetically heterogeneous and caused by functional dysregulation of signal transducers and regulatory proteins with roles in the RAS/extracellular signal-regulated kinase (ERK) signal transduction pathway. Mutations in known disease genes account for approximately 80% of affected individuals. Here, we report that missense mutations altering Son of Sevenless, Drosophila, homolog 2 (SOS2), which encodes a RAS guanine nucleotide exchange factor, occur in a small percentage of subjects with NS. Four missense mutations were identified in five unrelated sporadic cases and families transmitting NS. Disease-causing mutations affected three conserved residues located in the Dbl homology (DH) domain, of which two are directly involved in the intramolecular binding network maintaining SOS2 in its autoinhibited conformation. All mutations were found to promote enhanced signaling from RAS to ERK. Similar to NS-causing SOS1 mutations, the phenotype associated with SOS2 defects is characterized by normal development and growth, as well as marked ectodermal involvement. Unlike SOS1 mutations, however, those in SOS2 are restricted to the DH domain.

KW - Adolescent

KW - Adult

KW - Alleles

KW - Amino Acid Substitution

KW - Child

KW - DNA Mutational Analysis

KW - Exome

KW - Facies

KW - Female

KW - Genetic Association Studies

KW - Genotype

KW - Genotype-phenotype correlations

KW - Humans

KW - Male

KW - Models, Molecular

KW - Mutation

KW - Noonan Syndrome

KW - Noonan syndrome

KW - Phenotype

KW - Protein Conformation

KW - Protein Interaction Domains and Motifs

KW - RAS signaling

KW - SOS2

KW - Son of Sevenless Proteins

KW - Young Adult

KW - Adolescent

KW - Adult

KW - Alleles

KW - Amino Acid Substitution

KW - Child

KW - DNA Mutational Analysis

KW - Exome

KW - Facies

KW - Female

KW - Genetic Association Studies

KW - Genotype

KW - Genotype-phenotype correlations

KW - Humans

KW - Male

KW - Models, Molecular

KW - Mutation

KW - Noonan Syndrome

KW - Noonan syndrome

KW - Phenotype

KW - Protein Conformation

KW - Protein Interaction Domains and Motifs

KW - RAS signaling

KW - SOS2

KW - Son of Sevenless Proteins

KW - Young Adult

UR - http://hdl.handle.net/10807/172622

U2 - 10.1002/humu.22834

DO - 10.1002/humu.22834

M3 - Article

SN - 1059-7794

VL - 36

SP - 1080

EP - 1087

JO - Human Mutation

JF - Human Mutation

ER -

Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome

Abstract

Keywords

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