A unique point mutation in the fibroblast growth factor receptor 3 gene (FGFR3) defines a new craniosynostosis syndrome

M. Muenke; K. W. Gripp; D. M. McDonald-McGinn; K. Gaudenz; L. A. Whitaker; S. P. Bartlett; R. I. Markowitz; N. H. Robin; N. Nwokoro; J. J. Mulvihill; H. W. Losken; J. B. Mulliken; A. E. Guttmacher; R. S. Wilroy; L. A. Clarke; G. Hollway; L. C. Adès; E. A. Haan; J. C. Mulley; M. M. Cohen; G. A. Bellus; C. A. Francomano; D. M. Moloney; S. A. Wall; A. O.M. Wilkie; E. H. Zackai

A unique point mutation in the fibroblast growth factor receptor 3 gene (FGFR3) defines a new craniosynostosis syndrome

M. Muenke, K. W. Gripp, D. M. McDonald-McGinn, K. Gaudenz, L. A. Whitaker, S. P. Bartlett, R. I. Markowitz, N. H. Robin, N. Nwokoro, J. J. Mulvihill, H. W. Losken, J. B. Mulliken, A. E. Guttmacher, R. S. Wilroy, L. A. Clarke, G. Hollway, L. C. Adès, E. A. Haan, J. C. Mulley, M. M. CohenG. A. Bellus, C. A. Francomano, D. M. Moloney, S. A. Wall, A. O.M. Wilkie, E. H. Zackai

Medicine

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

375 Citas (Scopus)

Resumen

The underlying basis of many forms of syndromic craniosynostosis has been defined on a molecular level. However, many patients with familial or sporadic craniosynostosis do not have the classical findings of those craniosynostosis syndromes. Here we present 61 individuals from 20 unrelated families where coronal synostosis is due to an amino acid substitution (Pro250Arg) that results from a single point mutation in the fibroblast growth factor receptor 3 gene on chromosome 4p. In this instance, a new clinical syndrome is being defined on the basis of the molecular finding. In addition to the skull findings, some patients had abnormalities on radiographs of hands and feet, including thimble-like middle phalanges, coned epiphyses, and carpal and tarsal fusions. Brachydactyly was seen in some cases; none had clinically significant syndactyly or deviation of the great toe. Sensorineural hearing loss was present in some, and developmental delay was seen in a minority. While the radiological findings of hands and feet can be very helpful in diagnosing this syndrome, it is not in all cases clearly distinguishable on a clinical basis from other craniosynostosis syndromes. Therefore, this mutation should be tested for in patients with coronal synostosis.

Idioma original	English
Páginas (desde-hasta)	555-564
Número de páginas	10
Publicación	American Journal of Human Genetics
Volumen	60
N.º	3
Estado	Published - mar. 1997

ASJC Scopus Subject Areas

Genetics
Genetics(clinical)

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Muenke, M., Gripp, K. W., McDonald-McGinn, D. M., Gaudenz, K., Whitaker, L. A., Bartlett, S. P., Markowitz, R. I., Robin, N. H., Nwokoro, N., Mulvihill, J. J., Losken, H. W., Mulliken, J. B., Guttmacher, A. E., Wilroy, R. S., Clarke, L. A., Hollway, G., Adès, L. C., Haan, E. A., Mulley, J. C., ... Zackai, E. H. (1997). A unique point mutation in the fibroblast growth factor receptor 3 gene (FGFR3) defines a new craniosynostosis syndrome. American Journal of Human Genetics, 60(3), 555-564.

Muenke, M, Gripp, KW, McDonald-McGinn, DM, Gaudenz, K, Whitaker, LA, Bartlett, SP, Markowitz, RI, Robin, NH, Nwokoro, N, Mulvihill, JJ, Losken, HW, Mulliken, JB, Guttmacher, AE, Wilroy, RS, Clarke, LA, Hollway, G, Adès, LC, Haan, EA, Mulley, JC, Cohen, MM, Bellus, GA, Francomano, CA, Moloney, DM, Wall, SA, Wilkie, AOM & Zackai, EH 1997, 'A unique point mutation in the fibroblast growth factor receptor 3 gene (FGFR3) defines a new craniosynostosis syndrome', American Journal of Human Genetics, vol. 60, n.º 3, pp. 555-564.

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title = "A unique point mutation in the fibroblast growth factor receptor 3 gene (FGFR3) defines a new craniosynostosis syndrome",

abstract = "The underlying basis of many forms of syndromic craniosynostosis has been defined on a molecular level. However, many patients with familial or sporadic craniosynostosis do not have the classical findings of those craniosynostosis syndromes. Here we present 61 individuals from 20 unrelated families where coronal synostosis is due to an amino acid substitution (Pro250Arg) that results from a single point mutation in the fibroblast growth factor receptor 3 gene on chromosome 4p. In this instance, a new clinical syndrome is being defined on the basis of the molecular finding. In addition to the skull findings, some patients had abnormalities on radiographs of hands and feet, including thimble-like middle phalanges, coned epiphyses, and carpal and tarsal fusions. Brachydactyly was seen in some cases; none had clinically significant syndactyly or deviation of the great toe. Sensorineural hearing loss was present in some, and developmental delay was seen in a minority. While the radiological findings of hands and feet can be very helpful in diagnosing this syndrome, it is not in all cases clearly distinguishable on a clinical basis from other craniosynostosis syndromes. Therefore, this mutation should be tested for in patients with coronal synostosis.",

author = "M. Muenke and Gripp, {K. W.} and McDonald-McGinn, {D. M.} and K. Gaudenz and Whitaker, {L. A.} and Bartlett, {S. P.} and Markowitz, {R. I.} and Robin, {N. H.} and N. Nwokoro and Mulvihill, {J. J.} and Losken, {H. W.} and Mulliken, {J. B.} and Guttmacher, {A. E.} and Wilroy, {R. S.} and Clarke, {L. A.} and G. Hollway and Ad{\`e}s, {L. C.} and Haan, {E. A.} and Mulley, {J. C.} and Cohen, {M. M.} and Bellus, {G. A.} and Francomano, {C. A.} and Moloney, {D. M.} and Wall, {S. A.} and Wilkie, {A. O.M.} and Zackai, {E. H.}",

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AU - Muenke, M.

AU - Gripp, K. W.

AU - McDonald-McGinn, D. M.

AU - Gaudenz, K.

AU - Whitaker, L. A.

AU - Bartlett, S. P.

AU - Markowitz, R. I.

AU - Robin, N. H.

AU - Nwokoro, N.

AU - Mulvihill, J. J.

AU - Losken, H. W.

AU - Mulliken, J. B.

AU - Guttmacher, A. E.

AU - Wilroy, R. S.

AU - Clarke, L. A.

AU - Hollway, G.

AU - Adès, L. C.

AU - Haan, E. A.

AU - Mulley, J. C.

AU - Cohen, M. M.

AU - Bellus, G. A.

AU - Francomano, C. A.

AU - Moloney, D. M.

AU - Wall, S. A.

AU - Wilkie, A. O.M.

AU - Zackai, E. H.

PY - 1997/3

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N2 - The underlying basis of many forms of syndromic craniosynostosis has been defined on a molecular level. However, many patients with familial or sporadic craniosynostosis do not have the classical findings of those craniosynostosis syndromes. Here we present 61 individuals from 20 unrelated families where coronal synostosis is due to an amino acid substitution (Pro250Arg) that results from a single point mutation in the fibroblast growth factor receptor 3 gene on chromosome 4p. In this instance, a new clinical syndrome is being defined on the basis of the molecular finding. In addition to the skull findings, some patients had abnormalities on radiographs of hands and feet, including thimble-like middle phalanges, coned epiphyses, and carpal and tarsal fusions. Brachydactyly was seen in some cases; none had clinically significant syndactyly or deviation of the great toe. Sensorineural hearing loss was present in some, and developmental delay was seen in a minority. While the radiological findings of hands and feet can be very helpful in diagnosing this syndrome, it is not in all cases clearly distinguishable on a clinical basis from other craniosynostosis syndromes. Therefore, this mutation should be tested for in patients with coronal synostosis.

AB - The underlying basis of many forms of syndromic craniosynostosis has been defined on a molecular level. However, many patients with familial or sporadic craniosynostosis do not have the classical findings of those craniosynostosis syndromes. Here we present 61 individuals from 20 unrelated families where coronal synostosis is due to an amino acid substitution (Pro250Arg) that results from a single point mutation in the fibroblast growth factor receptor 3 gene on chromosome 4p. In this instance, a new clinical syndrome is being defined on the basis of the molecular finding. In addition to the skull findings, some patients had abnormalities on radiographs of hands and feet, including thimble-like middle phalanges, coned epiphyses, and carpal and tarsal fusions. Brachydactyly was seen in some cases; none had clinically significant syndactyly or deviation of the great toe. Sensorineural hearing loss was present in some, and developmental delay was seen in a minority. While the radiological findings of hands and feet can be very helpful in diagnosing this syndrome, it is not in all cases clearly distinguishable on a clinical basis from other craniosynostosis syndromes. Therefore, this mutation should be tested for in patients with coronal synostosis.

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A unique point mutation in the fibroblast growth factor receptor 3 gene (FGFR3) defines a new craniosynostosis syndrome

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