Molecular study of 33 families with Fraser syndrome new data and mutation review

M. M. Van Haelst; M. Maiburg; G. Baujat; S. Jadeja; E. Monti; E. Bland; K. Pearce; R. C. Hennekam; P. J. Scambler; Lihadt Al-Gazali; Perez Aytes; Arianna Bonato; David Chitayat; Angus Dobbie; Dian Donnai; Frances Elmslie; Jose Ferreira; Christine Francannet; Brigitte Gilbert; John Graham; Raoul Hennekam; Sue Holder; Bronwyn Kerr; Saskia Maas; Andre Megarbane; Peter Meinecke; Serge Melancon; Alina Midro; John Nelson; Nicole Philip; Willie Reardon; Heiko Reutter; Heloise Santos; Peter Scambler; Christel Thauvin; Eva Todos; John Tolmie; Ton Van Essen; M. M. Van Haelst; Andrew Wilkie; Louise Wilson

doi:https://doi.org/10.1002/ajmg.a.32440

Molecular study of 33 families with Fraser syndrome new data and mutation review

M. M. Van Haelst, M. Maiburg, G. Baujat, S. Jadeja, E. Monti, E. Bland, K. Pearce, R. C. Hennekam, P. J. Scambler, Lihadt Al-Gazali, Perez Aytes, Arianna Bonato, David Chitayat, Angus Dobbie, Dian Donnai, Frances Elmslie, Jose Ferreira, Christine Francannet, Brigitte Gilbert, John GrahamRaoul Hennekam, Sue Holder, Bronwyn Kerr, Saskia Maas, Andre Megarbane, Peter Meinecke, Serge Melancon, Alina Midro, John Nelson, Nicole Philip, Willie Reardon, Heiko Reutter, Heloise Santos, Peter Scambler, Christel Thauvin, Eva Todos, John Tolmie, Ton Van Essen, M. M. Van Haelst, Andrew Wilkie, Louise Wilson

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Abstract

Fraser syndrome (FS) is an autosomal recessive malformation disorder characterized by cryptophthalmos, syndactyly, and abnormalities of the respiratory and urogenital tract. FS is considered to be the human equivalent of the murine blebbing mutants: in the mouse mutations at five loci cause a phenotype that is comparable to FS in humans, and thus far mutations in two syntenic human genes, FRAS1 and FREM2, have been identified to cause FS. Here we present the molecular analysis of 48 FS patients from 18 consanguineous and 15 nonconsanguineous families. Linkage analysis in consanguineous families indicated possible linkage to FRAS1 and FREM2 in 60% of the cases. Mutation analysis identified 11 new mutations in FRAS1 and one FREM2 mutation. Manifestations of these patients and previously reported cases with an FRAS1 mutation were compared to cases without detectable FRAS1 mutations to study genotype-phenotype correlations. Although our data suggest that patients with an FRAS1 mutation have more frequently skull ossification defects and low insertion of the umbilical cord, these differences are not statistically significant. Mutations were identified in only 43% of the cases suggesting that other genes syntenic to murine genes causing blebbing may be responsible for FS as well.

Original language	English
Pages (from-to)	2252-2257
Number of pages	6
Journal	American Journal of Medical Genetics, Part A
Volume	146
Issue number	17
DOIs	https://doi.org/10.1002/ajmg.a.32440
Publication status	Published - 1 Sept 2008

Keywords

Cryptophtalmos
FRAS1/FREM2 mutations
Fraser syndrome
Genotype-phenotype correlation

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Van Haelst, M. M., Maiburg, M., Baujat, G., Jadeja, S., Monti, E., Bland, E., Pearce, K., Hennekam, R. C., Scambler, P. J., Al-Gazali, L., Aytes, P., Bonato, A., Chitayat, D., Dobbie, A., Donnai, D., Elmslie, F., Ferreira, J., Francannet, C., Gilbert, B., ... Wilson, L. (2008). Molecular study of 33 families with Fraser syndrome new data and mutation review. American Journal of Medical Genetics, Part A, 146(17), 2252-2257. https://doi.org/10.1002/ajmg.a.32440

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title = "Molecular study of 33 families with Fraser syndrome new data and mutation review",

abstract = "Fraser syndrome (FS) is an autosomal recessive malformation disorder characterized by cryptophthalmos, syndactyly, and abnormalities of the respiratory and urogenital tract. FS is considered to be the human equivalent of the murine blebbing mutants: in the mouse mutations at five loci cause a phenotype that is comparable to FS in humans, and thus far mutations in two syntenic human genes, FRAS1 and FREM2, have been identified to cause FS. Here we present the molecular analysis of 48 FS patients from 18 consanguineous and 15 nonconsanguineous families. Linkage analysis in consanguineous families indicated possible linkage to FRAS1 and FREM2 in 60% of the cases. Mutation analysis identified 11 new mutations in FRAS1 and one FREM2 mutation. Manifestations of these patients and previously reported cases with an FRAS1 mutation were compared to cases without detectable FRAS1 mutations to study genotype-phenotype correlations. Although our data suggest that patients with an FRAS1 mutation have more frequently skull ossification defects and low insertion of the umbilical cord, these differences are not statistically significant. Mutations were identified in only 43% of the cases suggesting that other genes syntenic to murine genes causing blebbing may be responsible for FS as well.",

keywords = "Cryptophtalmos, FRAS1/FREM2 mutations, Fraser syndrome, Genotype-phenotype correlation",

author = "{Van Haelst}, {M. M.} and M. Maiburg and G. Baujat and S. Jadeja and E. Monti and E. Bland and K. Pearce and Hennekam, {R. C.} and Scambler, {P. J.} and Lihadt Al-Gazali and Perez Aytes and Arianna Bonato and David Chitayat and Angus Dobbie and Dian Donnai and Frances Elmslie and Jose Ferreira and Christine Francannet and Brigitte Gilbert and John Graham and Raoul Hennekam and Sue Holder and Bronwyn Kerr and Saskia Maas and Andre Megarbane and Peter Meinecke and Serge Melancon and Alina Midro and John Nelson and Nicole Philip and Willie Reardon and Heiko Reutter and Heloise Santos and Peter Scambler and Christel Thauvin and Eva Todos and John Tolmie and {Van Essen}, Ton and {Van Haelst}, {M. M.} and Andrew Wilkie and Louise Wilson",

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Van Haelst, MM, Maiburg, M, Baujat, G, Jadeja, S, Monti, E, Bland, E, Pearce, K, Hennekam, RC, Scambler, PJ, Al-Gazali, L, Aytes, P, Bonato, A, Chitayat, D, Dobbie, A, Donnai, D, Elmslie, F, Ferreira, J, Francannet, C, Gilbert, B, Graham, J, Hennekam, R, Holder, S, Kerr, B, Maas, S, Megarbane, A, Meinecke, P, Melancon, S, Midro, A, Nelson, J, Philip, N, Reardon, W, Reutter, H, Santos, H, Scambler, P, Thauvin, C, Todos, E, Tolmie, J, Van Essen, T, Van Haelst, MM, Wilkie, A & Wilson, L 2008, 'Molecular study of 33 families with Fraser syndrome new data and mutation review', American Journal of Medical Genetics, Part A, vol. 146, no. 17, pp. 2252-2257. https://doi.org/10.1002/ajmg.a.32440

TY - JOUR

T1 - Molecular study of 33 families with Fraser syndrome new data and mutation review

AU - Van Haelst, M. M.

AU - Maiburg, M.

AU - Baujat, G.

AU - Jadeja, S.

AU - Monti, E.

AU - Bland, E.

AU - Pearce, K.

AU - Hennekam, R. C.

AU - Scambler, P. J.

AU - Al-Gazali, Lihadt

AU - Aytes, Perez

AU - Bonato, Arianna

AU - Chitayat, David

AU - Dobbie, Angus

AU - Donnai, Dian

AU - Elmslie, Frances

AU - Ferreira, Jose

AU - Francannet, Christine

AU - Gilbert, Brigitte

AU - Graham, John

AU - Hennekam, Raoul

AU - Holder, Sue

AU - Kerr, Bronwyn

AU - Maas, Saskia

AU - Megarbane, Andre

AU - Meinecke, Peter

AU - Melancon, Serge

AU - Midro, Alina

AU - Nelson, John

AU - Philip, Nicole

AU - Reardon, Willie

AU - Reutter, Heiko

AU - Santos, Heloise

AU - Scambler, Peter

AU - Thauvin, Christel

AU - Todos, Eva

AU - Tolmie, John

AU - Van Essen, Ton

AU - Van Haelst, M. M.

AU - Wilkie, Andrew

AU - Wilson, Louise

PY - 2008/9/1

Y1 - 2008/9/1

N2 - Fraser syndrome (FS) is an autosomal recessive malformation disorder characterized by cryptophthalmos, syndactyly, and abnormalities of the respiratory and urogenital tract. FS is considered to be the human equivalent of the murine blebbing mutants: in the mouse mutations at five loci cause a phenotype that is comparable to FS in humans, and thus far mutations in two syntenic human genes, FRAS1 and FREM2, have been identified to cause FS. Here we present the molecular analysis of 48 FS patients from 18 consanguineous and 15 nonconsanguineous families. Linkage analysis in consanguineous families indicated possible linkage to FRAS1 and FREM2 in 60% of the cases. Mutation analysis identified 11 new mutations in FRAS1 and one FREM2 mutation. Manifestations of these patients and previously reported cases with an FRAS1 mutation were compared to cases without detectable FRAS1 mutations to study genotype-phenotype correlations. Although our data suggest that patients with an FRAS1 mutation have more frequently skull ossification defects and low insertion of the umbilical cord, these differences are not statistically significant. Mutations were identified in only 43% of the cases suggesting that other genes syntenic to murine genes causing blebbing may be responsible for FS as well.

AB - Fraser syndrome (FS) is an autosomal recessive malformation disorder characterized by cryptophthalmos, syndactyly, and abnormalities of the respiratory and urogenital tract. FS is considered to be the human equivalent of the murine blebbing mutants: in the mouse mutations at five loci cause a phenotype that is comparable to FS in humans, and thus far mutations in two syntenic human genes, FRAS1 and FREM2, have been identified to cause FS. Here we present the molecular analysis of 48 FS patients from 18 consanguineous and 15 nonconsanguineous families. Linkage analysis in consanguineous families indicated possible linkage to FRAS1 and FREM2 in 60% of the cases. Mutation analysis identified 11 new mutations in FRAS1 and one FREM2 mutation. Manifestations of these patients and previously reported cases with an FRAS1 mutation were compared to cases without detectable FRAS1 mutations to study genotype-phenotype correlations. Although our data suggest that patients with an FRAS1 mutation have more frequently skull ossification defects and low insertion of the umbilical cord, these differences are not statistically significant. Mutations were identified in only 43% of the cases suggesting that other genes syntenic to murine genes causing blebbing may be responsible for FS as well.

KW - Cryptophtalmos

KW - FRAS1/FREM2 mutations

KW - Fraser syndrome

KW - Genotype-phenotype correlation

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U2 - https://doi.org/10.1002/ajmg.a.32440

DO - https://doi.org/10.1002/ajmg.a.32440

M3 - Article

C2 - 18671281

SN - 1552-4825

VL - 146

SP - 2252

EP - 2257

JO - American Journal of Medical Genetics, Part A

JF - American Journal of Medical Genetics, Part A

IS - 17

ER -

Molecular study of 33 families with Fraser syndrome new data and mutation review

Abstract

Keywords

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