Identification of a new gene mutated in Fraser syndrome and mouse myelencephalic blebs

Shalini Jadeja; Ian Smyth; Jolanta E Pitera; Martin S Taylor; Mieke van Haelst; Elizabeth Bentley; Lesley McGregor; Jason Hopkins; Georges Chalepakis; Nicole Philip; Antonio Perez Aytes; Fiona M Watt; Susan M Darling; Ian Jackson; Adrian S Woolf; Peter J Scambler

doi:https://doi.org/10.1038/ng1549

Identification of a new gene mutated in Fraser syndrome and mouse myelencephalic blebs

Shalini Jadeja, Ian Smyth, Jolanta E Pitera, Martin S Taylor, Mieke van Haelst, Elizabeth Bentley, Lesley McGregor, Jason Hopkins, Georges Chalepakis, Nicole Philip, Antonio Perez Aytes, Fiona M Watt, Susan M Darling, Ian Jackson, Adrian S Woolf, Peter J Scambler

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

140 Citations (Scopus)

Abstract

Fraser syndrome is a recessive, multisystem disorder presenting with cryptophthalmos, syndactyly and renal defects and associated with loss-of-function mutations of the extracellular matrix protein FRAS1. Fras1 mutant mice have a blebbed phenotype characterized by intrauterine epithelial fragility generating serous and, later, hemorrhagic blisters. The myelencephalic blebs (my) strain has a similar phenotype. We mapped my to Frem2, a gene related to Fras1 and Frem1, and showed that a Frem2 gene-trap mutation was allelic to my. Expression of Frem2 in adult kidneys correlated with cyst formation in my homozygotes, indicating that the gene is required for maintaining the differentiated state of renal epithelia. Two individuals with Fraser syndrome were homozygous with respect to the same missense mutation of FREM2, confirming genetic heterogeneity. This is the only missense mutation reported in any blebbing mutant or individual with Fraser syndrome, suggesting that calcium binding in the CALXbeta-cadherin motif is important for normal functioning of FREM2.

Original language	English
Pages (from-to)	520-5
Number of pages	6
Journal	Nature Genetics
Volume	37
Issue number	5
DOIs	https://doi.org/10.1038/ng1549
Publication status	Published - May 2005

Keywords

Animals
Blister/genetics
Extracellular Matrix Proteins/genetics
Eyelids/abnormalities
Genitalia/abnormalities
Humans
Medulla Oblongata/pathology
Mice
Molecular Sequence Data
Syndactyly/genetics

Access to Document

https://doi.org/10.1038/ng1549

Cite this

Jadeja, S., Smyth, I., Pitera, J. E., Taylor, M. S., van Haelst, M., Bentley, E., McGregor, L., Hopkins, J., Chalepakis, G., Philip, N., Perez Aytes, A., Watt, F. M., Darling, S. M., Jackson, I., Woolf, A. S., & Scambler, P. J. (2005). Identification of a new gene mutated in Fraser syndrome and mouse myelencephalic blebs. Nature Genetics, 37(5), 520-5. https://doi.org/10.1038/ng1549

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abstract = "Fraser syndrome is a recessive, multisystem disorder presenting with cryptophthalmos, syndactyly and renal defects and associated with loss-of-function mutations of the extracellular matrix protein FRAS1. Fras1 mutant mice have a blebbed phenotype characterized by intrauterine epithelial fragility generating serous and, later, hemorrhagic blisters. The myelencephalic blebs (my) strain has a similar phenotype. We mapped my to Frem2, a gene related to Fras1 and Frem1, and showed that a Frem2 gene-trap mutation was allelic to my. Expression of Frem2 in adult kidneys correlated with cyst formation in my homozygotes, indicating that the gene is required for maintaining the differentiated state of renal epithelia. Two individuals with Fraser syndrome were homozygous with respect to the same missense mutation of FREM2, confirming genetic heterogeneity. This is the only missense mutation reported in any blebbing mutant or individual with Fraser syndrome, suggesting that calcium binding in the CALXbeta-cadherin motif is important for normal functioning of FREM2.",

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AU - Jadeja, Shalini

AU - Smyth, Ian

AU - Pitera, Jolanta E

AU - Taylor, Martin S

AU - van Haelst, Mieke

AU - Bentley, Elizabeth

AU - McGregor, Lesley

AU - Hopkins, Jason

AU - Chalepakis, Georges

AU - Philip, Nicole

AU - Perez Aytes, Antonio

AU - Watt, Fiona M

AU - Darling, Susan M

AU - Jackson, Ian

AU - Woolf, Adrian S

AU - Scambler, Peter J

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N2 - Fraser syndrome is a recessive, multisystem disorder presenting with cryptophthalmos, syndactyly and renal defects and associated with loss-of-function mutations of the extracellular matrix protein FRAS1. Fras1 mutant mice have a blebbed phenotype characterized by intrauterine epithelial fragility generating serous and, later, hemorrhagic blisters. The myelencephalic blebs (my) strain has a similar phenotype. We mapped my to Frem2, a gene related to Fras1 and Frem1, and showed that a Frem2 gene-trap mutation was allelic to my. Expression of Frem2 in adult kidneys correlated with cyst formation in my homozygotes, indicating that the gene is required for maintaining the differentiated state of renal epithelia. Two individuals with Fraser syndrome were homozygous with respect to the same missense mutation of FREM2, confirming genetic heterogeneity. This is the only missense mutation reported in any blebbing mutant or individual with Fraser syndrome, suggesting that calcium binding in the CALXbeta-cadherin motif is important for normal functioning of FREM2.

AB - Fraser syndrome is a recessive, multisystem disorder presenting with cryptophthalmos, syndactyly and renal defects and associated with loss-of-function mutations of the extracellular matrix protein FRAS1. Fras1 mutant mice have a blebbed phenotype characterized by intrauterine epithelial fragility generating serous and, later, hemorrhagic blisters. The myelencephalic blebs (my) strain has a similar phenotype. We mapped my to Frem2, a gene related to Fras1 and Frem1, and showed that a Frem2 gene-trap mutation was allelic to my. Expression of Frem2 in adult kidneys correlated with cyst formation in my homozygotes, indicating that the gene is required for maintaining the differentiated state of renal epithelia. Two individuals with Fraser syndrome were homozygous with respect to the same missense mutation of FREM2, confirming genetic heterogeneity. This is the only missense mutation reported in any blebbing mutant or individual with Fraser syndrome, suggesting that calcium binding in the CALXbeta-cadherin motif is important for normal functioning of FREM2.

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KW - Blister/genetics

KW - Extracellular Matrix Proteins/genetics

KW - Eyelids/abnormalities

KW - Genitalia/abnormalities

KW - Humans

KW - Medulla Oblongata/pathology

KW - Mice

KW - Molecular Sequence Data

KW - Syndactyly/genetics

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