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Reduced TFAP2A function causes variable optic fissure closure and retinal defects and sensitizes eye development to mutations in other morphogenetic regulators

Reduced TFAP2A function causes variable optic fissure closure and retinal defects and sensitizes eye development to mutations in other morphogenetic regulators
Reduced TFAP2A function causes variable optic fissure closure and retinal defects and sensitizes eye development to mutations in other morphogenetic regulators
Mutations in the transcription factor encoding TFAP2A gene underlie branchio-oculo-facial syndrome (BOFS), a rare dominant disorder characterized by distinctive craniofacial, ocular, ectodermal and renal anomalies. To elucidate the range of ocular phenotypes caused by mutations in TFAP2A, we took three approaches. First, we screened a cohort of 37 highly selected individuals with severe ocular anomalies plus variable defects associated with BOFS for mutations or deletions in TFAP2A. We identified one individual with a de novo TFAP2A four amino acid deletion, a second individual with two non-synonymous variations in an alternative splice isoform TFAP2A2, and a sibling-pair with a paternally inherited whole gene deletion with variable phenotypic expression. Second, we determined that TFAP2A is expressed in the lens, neural retina, nasal process, and epithelial lining of the oral cavity and palatal shelves of human and mouse embryos—sites consistent with the phenotype observed in patients with BOFS. Third, we used zebrafish to examine how partial abrogation of the fish ortholog of TFAP2A affects the penetrance and expressivity of ocular phenotypes due to mutations in genes encoding bmp4 or tcf7l1a. In both cases, we observed synthetic, enhanced ocular phenotypes including coloboma and anophthalmia when tfap2a is knocked down in embryos with bmp4 or tcf7l1a mutations. These results reveal that mutations in TFAP2A are associated with a wide range of eye phenotypes and that hypomorphic tfap2a mutations can increase the risk of developmental defects arising from mutations at other loci.
0340-6717
791-803
Gestri, Gaia
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Osborne, Robert J.
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Wyatt, Alexander W.
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Gerrelli, Dianne
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Gribble, Susan
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Stewart, Helen
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Fryer, Alan
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Bunyan, David J.
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Prescott, Katrina
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Collin, J. Richard O.
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Fitzgerald, Tomas
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Robinson, David
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Carter, Nigel P.
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Wilson, Stephen W.
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Ragge, Nicola K.
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Gestri, Gaia
ecb1279e-7a6a-4f8a-b656-43fb81e5926e
Osborne, Robert J.
8d28d125-52a6-483c-82b7-34a1cf516786
Wyatt, Alexander W.
61a30881-3771-4d8c-b128-b51400599636
Gerrelli, Dianne
841ba78c-235d-4622-bf8c-b83403015f6a
Gribble, Susan
1e422d69-9867-4a00-9ec8-e002b77e21b0
Stewart, Helen
f0a57ec9-3e87-4331-bf44-e00f32c432dd
Fryer, Alan
e47884e2-c051-421d-8784-e4b10be599fb
Bunyan, David J.
dd9134b9-f889-44cc-83cc-a41fc5d74d69
Prescott, Katrina
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Collin, J. Richard O.
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Fitzgerald, Tomas
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Robinson, David
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Carter, Nigel P.
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Wilson, Stephen W.
864f3093-728c-4534-af58-ea4b6f46d9e2
Ragge, Nicola K.
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Gestri, Gaia, Osborne, Robert J., Wyatt, Alexander W., Gerrelli, Dianne, Gribble, Susan, Stewart, Helen, Fryer, Alan, Bunyan, David J., Prescott, Katrina, Collin, J. Richard O., Fitzgerald, Tomas, Robinson, David, Carter, Nigel P., Wilson, Stephen W. and Ragge, Nicola K. (2009) Reduced TFAP2A function causes variable optic fissure closure and retinal defects and sensitizes eye development to mutations in other morphogenetic regulators. Human Genetics, 126 (6), 791-803. (doi:10.1007/s00439-009-0730-x).

Record type: Article

Abstract

Mutations in the transcription factor encoding TFAP2A gene underlie branchio-oculo-facial syndrome (BOFS), a rare dominant disorder characterized by distinctive craniofacial, ocular, ectodermal and renal anomalies. To elucidate the range of ocular phenotypes caused by mutations in TFAP2A, we took three approaches. First, we screened a cohort of 37 highly selected individuals with severe ocular anomalies plus variable defects associated with BOFS for mutations or deletions in TFAP2A. We identified one individual with a de novo TFAP2A four amino acid deletion, a second individual with two non-synonymous variations in an alternative splice isoform TFAP2A2, and a sibling-pair with a paternally inherited whole gene deletion with variable phenotypic expression. Second, we determined that TFAP2A is expressed in the lens, neural retina, nasal process, and epithelial lining of the oral cavity and palatal shelves of human and mouse embryos—sites consistent with the phenotype observed in patients with BOFS. Third, we used zebrafish to examine how partial abrogation of the fish ortholog of TFAP2A affects the penetrance and expressivity of ocular phenotypes due to mutations in genes encoding bmp4 or tcf7l1a. In both cases, we observed synthetic, enhanced ocular phenotypes including coloboma and anophthalmia when tfap2a is knocked down in embryos with bmp4 or tcf7l1a mutations. These results reveal that mutations in TFAP2A are associated with a wide range of eye phenotypes and that hypomorphic tfap2a mutations can increase the risk of developmental defects arising from mutations at other loci.

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Published date: December 2009
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Local EPrints ID: 69696
URI: http://eprints.soton.ac.uk/id/eprint/69696
DOI: doi:10.1007/s00439-009-0730-x
ISSN: 0340-6717
PURE UUID: d1517fc4-85c2-4033-a34e-c190e3b6c138

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Date deposited: 30 Nov 2009
Last modified: 13 Mar 2024 19:41

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Contributors

Author: Gaia Gestri
Author: Robert J. Osborne
Author: Alexander W. Wyatt
Author: Dianne Gerrelli
Author: Susan Gribble
Author: Helen Stewart
Author: Alan Fryer
Author: David J. Bunyan
Author: Katrina Prescott
Author: J. Richard O. Collin
Author: Tomas Fitzgerald
Author: David Robinson
Author: Nigel P. Carter
Author: Stephen W. Wilson
Author: Nicola K. Ragge

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