MYH9-related disease: A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations

Alessandro Pecci; Catherine Klersy; Paolo Gresele; Kieran J D Lee; Daniela De Rocco; Valeria Bozzi; Giovanna Russo; Paula G. Heller; Giuseppe Loffredo; Matthias Ballmaier; Fabrizio Fabris; Eloise Beggiato; Walter H A Kahr; Nuria Pujol-Moix; Helen Platokouki; Christel Van Geet; Patrizia Noris; Preethi Yerram; Cedric Hermans; Bernhard Gerber; Marina Economou; Marco De Groot; Barbara Zieger; Erica De Candia; Vincenzo Fraticelli; Rogier Kersseboom; Giorgina B. Piccoli; Stefanie Zimmermann; Tiziana Fierro; Ana C. Glembotsky; Fabrizio Vianello; Carlo Zaninetti; Elena Nicchia; Christiane Güthner; Carlo Baronci; Marco Seri; Peter J. Knight; Carlo L. Balduini; Anna Savoia

doi:10.1002/humu.22476

MYH9-related disease: A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations

Alessandro Pecci, Catherine Klersy, Paolo Gresele, Kieran J D Lee, Daniela De Rocco, Valeria Bozzi, Giovanna Russo, Paula G. Heller, Giuseppe Loffredo, Matthias Ballmaier, Fabrizio Fabris, Eloise Beggiato, Walter H A Kahr, Nuria Pujol-Moix, Helen Platokouki, Christel Van Geet, Patrizia Noris, Preethi Yerram, Cedric Hermans, Bernhard GerberMarina Economou, Marco De Groot, Barbara Zieger, Erica De Candia, Vincenzo Fraticelli, Rogier Kersseboom, Giorgina B. Piccoli, Stefanie Zimmermann, Tiziana Fierro, Ana C. Glembotsky, Fabrizio Vianello, Carlo Zaninetti, Elena Nicchia, Christiane Güthner, Carlo Baronci, Marco Seri, Peter J. Knight, Carlo L. Balduini, Anna Savoia

Research output: Contribution to journal › Article › peer-review

Abstract

MYH9-related disease (MYH9-RD) is a rare autosomal-dominant disorder caused by mutations in the gene for nonmuscle myosin heavy chain IIA (NMMHC-IIA). MYH9-RD is characterized by a considerable variability in clinical evolution: patients present at birth with only thrombocytopenia, but some of them subsequently develop sensorineural deafness, cataract, and/or nephropathy often leading to end-stage renal disease (ESRD). We searched for genotype-phenotype correlations in the largest series of consecutive MYH9-RD patients collected so far (255 cases from 121 families). Association of genotypes with noncongenital features was assessed by a generalized linear regression model. The analysis defined disease evolution associated to seven different MYH9 genotypes that are responsible for 85% of MYH9-RD cases. Mutations hitting residue R702 demonstrated a complete penetrance for early-onset ESRD and deafness. The p.D1424H substitution associated with high risk of developing all the noncongenital manifestations of disease. Mutations hitting a distinct hydrophobic seam in the NMMHC-IIA head domain or substitutions at R1165 associated with high risk of deafness but low risk of nephropathy or cataract. Patients with p.E1841K, p.D1424N, and C-terminal deletions had low risk of noncongenital defects. These findings are essential to patients' clinical management and genetic counseling and are discussed in view of molecular pathogenesis of MYH9-RD.

Original language	English
Pages (from-to)	236-247
Number of pages	12
Journal	Human Mutation
Volume	35
Issue number	2
DOIs	https://doi.org/10.1002/humu.22476
Publication status	Published - Feb 2014

Keywords

Deafness
MYH9
Nephropathy
Nonmuscle myosin
Thrombocytopenia

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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Pecci, A., Klersy, C., Gresele, P., Lee, K. J. D., De Rocco, D., Bozzi, V., Russo, G., Heller, P. G., Loffredo, G., Ballmaier, M., Fabris, F., Beggiato, E., Kahr, W. H. A., Pujol-Moix, N., Platokouki, H., Van Geet, C., Noris, P., Yerram, P., Hermans, C., ... Savoia, A. (2014). MYH9-related disease: A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations. Human Mutation, 35(2), 236-247. https://doi.org/10.1002/humu.22476

Pecci, A , Klersy, C, Gresele, P, Lee, KJD, De Rocco, D, Bozzi, V, Russo, G, Heller, PG, Loffredo, G, Ballmaier, M, Fabris, F, Beggiato, E, Kahr, WHA, Pujol-Moix, N, Platokouki, H, Van Geet, C, Noris, P, Yerram, P, Hermans, C, Gerber, B, Economou, M, De Groot, M, Zieger, B, De Candia, E, Fraticelli, V, Kersseboom, R, Piccoli, GB, Zimmermann, S, Fierro, T, Glembotsky, AC, Vianello, F, Zaninetti, C, Nicchia, E, Güthner, C, Baronci, C, Seri, M, Knight, PJ, Balduini, CL & Savoia, A 2014, 'MYH9-related disease: A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations', Human Mutation, vol. 35, no. 2, pp. 236-247. https://doi.org/10.1002/humu.22476

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title = "MYH9-related disease: A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations",

abstract = "MYH9-related disease (MYH9-RD) is a rare autosomal-dominant disorder caused by mutations in the gene for nonmuscle myosin heavy chain IIA (NMMHC-IIA). MYH9-RD is characterized by a considerable variability in clinical evolution: patients present at birth with only thrombocytopenia, but some of them subsequently develop sensorineural deafness, cataract, and/or nephropathy often leading to end-stage renal disease (ESRD). We searched for genotype-phenotype correlations in the largest series of consecutive MYH9-RD patients collected so far (255 cases from 121 families). Association of genotypes with noncongenital features was assessed by a generalized linear regression model. The analysis defined disease evolution associated to seven different MYH9 genotypes that are responsible for 85% of MYH9-RD cases. Mutations hitting residue R702 demonstrated a complete penetrance for early-onset ESRD and deafness. The p.D1424H substitution associated with high risk of developing all the noncongenital manifestations of disease. Mutations hitting a distinct hydrophobic seam in the NMMHC-IIA head domain or substitutions at R1165 associated with high risk of deafness but low risk of nephropathy or cataract. Patients with p.E1841K, p.D1424N, and C-terminal deletions had low risk of noncongenital defects. These findings are essential to patients' clinical management and genetic counseling and are discussed in view of molecular pathogenesis of MYH9-RD.",

keywords = "Deafness, MYH9, Nephropathy, Nonmuscle myosin, Thrombocytopenia",

author = "Alessandro Pecci and Catherine Klersy and Paolo Gresele and Lee, {Kieran J D} and {De Rocco}, Daniela and Valeria Bozzi and Giovanna Russo and Heller, {Paula G.} and Giuseppe Loffredo and Matthias Ballmaier and Fabrizio Fabris and Eloise Beggiato and Kahr, {Walter H A} and Nuria Pujol-Moix and Helen Platokouki and {Van Geet}, Christel and Patrizia Noris and Preethi Yerram and Cedric Hermans and Bernhard Gerber and Marina Economou and {De Groot}, Marco and Barbara Zieger and {De Candia}, Erica and Vincenzo Fraticelli and Rogier Kersseboom and Piccoli, {Giorgina B.} and Stefanie Zimmermann and Tiziana Fierro and Glembotsky, {Ana C.} and Fabrizio Vianello and Carlo Zaninetti and Elena Nicchia and Christiane G{\"u}thner and Carlo Baronci and Marco Seri and Knight, {Peter J.} and Balduini, {Carlo L.} and Anna Savoia",

year = "2014",

month = feb,

doi = "10.1002/humu.22476",

language = "English",

volume = "35",

pages = "236--247",

journal = "Human Mutation",

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T2 - A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations

AU - Pecci, Alessandro

AU - Klersy, Catherine

AU - Gresele, Paolo

AU - Lee, Kieran J D

AU - De Rocco, Daniela

AU - Bozzi, Valeria

AU - Russo, Giovanna

AU - Heller, Paula G.

AU - Loffredo, Giuseppe

AU - Ballmaier, Matthias

AU - Fabris, Fabrizio

AU - Beggiato, Eloise

AU - Kahr, Walter H A

AU - Pujol-Moix, Nuria

AU - Platokouki, Helen

AU - Van Geet, Christel

AU - Noris, Patrizia

AU - Yerram, Preethi

AU - Hermans, Cedric

AU - Gerber, Bernhard

AU - Economou, Marina

AU - De Groot, Marco

AU - Zieger, Barbara

AU - De Candia, Erica

AU - Fraticelli, Vincenzo

AU - Kersseboom, Rogier

AU - Piccoli, Giorgina B.

AU - Zimmermann, Stefanie

AU - Fierro, Tiziana

AU - Glembotsky, Ana C.

AU - Vianello, Fabrizio

AU - Zaninetti, Carlo

AU - Nicchia, Elena

AU - Güthner, Christiane

AU - Baronci, Carlo

AU - Seri, Marco

AU - Knight, Peter J.

AU - Balduini, Carlo L.

AU - Savoia, Anna

PY - 2014/2

Y1 - 2014/2

N2 - MYH9-related disease (MYH9-RD) is a rare autosomal-dominant disorder caused by mutations in the gene for nonmuscle myosin heavy chain IIA (NMMHC-IIA). MYH9-RD is characterized by a considerable variability in clinical evolution: patients present at birth with only thrombocytopenia, but some of them subsequently develop sensorineural deafness, cataract, and/or nephropathy often leading to end-stage renal disease (ESRD). We searched for genotype-phenotype correlations in the largest series of consecutive MYH9-RD patients collected so far (255 cases from 121 families). Association of genotypes with noncongenital features was assessed by a generalized linear regression model. The analysis defined disease evolution associated to seven different MYH9 genotypes that are responsible for 85% of MYH9-RD cases. Mutations hitting residue R702 demonstrated a complete penetrance for early-onset ESRD and deafness. The p.D1424H substitution associated with high risk of developing all the noncongenital manifestations of disease. Mutations hitting a distinct hydrophobic seam in the NMMHC-IIA head domain or substitutions at R1165 associated with high risk of deafness but low risk of nephropathy or cataract. Patients with p.E1841K, p.D1424N, and C-terminal deletions had low risk of noncongenital defects. These findings are essential to patients' clinical management and genetic counseling and are discussed in view of molecular pathogenesis of MYH9-RD.

AB - MYH9-related disease (MYH9-RD) is a rare autosomal-dominant disorder caused by mutations in the gene for nonmuscle myosin heavy chain IIA (NMMHC-IIA). MYH9-RD is characterized by a considerable variability in clinical evolution: patients present at birth with only thrombocytopenia, but some of them subsequently develop sensorineural deafness, cataract, and/or nephropathy often leading to end-stage renal disease (ESRD). We searched for genotype-phenotype correlations in the largest series of consecutive MYH9-RD patients collected so far (255 cases from 121 families). Association of genotypes with noncongenital features was assessed by a generalized linear regression model. The analysis defined disease evolution associated to seven different MYH9 genotypes that are responsible for 85% of MYH9-RD cases. Mutations hitting residue R702 demonstrated a complete penetrance for early-onset ESRD and deafness. The p.D1424H substitution associated with high risk of developing all the noncongenital manifestations of disease. Mutations hitting a distinct hydrophobic seam in the NMMHC-IIA head domain or substitutions at R1165 associated with high risk of deafness but low risk of nephropathy or cataract. Patients with p.E1841K, p.D1424N, and C-terminal deletions had low risk of noncongenital defects. These findings are essential to patients' clinical management and genetic counseling and are discussed in view of molecular pathogenesis of MYH9-RD.

KW - Deafness

KW - MYH9

KW - Nephropathy

KW - Nonmuscle myosin

KW - Thrombocytopenia

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MYH9-related disease: A novel prognostic model to predict the clinical evolution of the disease based on genotype-phenotype correlations

Abstract

Keywords

ASJC Scopus subject areas

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