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A syndromic form of Pierre Robin sequence is caused by 5q23 deletions encompassing FBN2 and PHAX

A syndromic form of Pierre Robin sequence is caused by 5q23 deletions encompassing FBN2 and PHAX
A syndromic form of Pierre Robin sequence is caused by 5q23 deletions encompassing FBN2 and PHAX
Pierre Robin sequence (PRS) is an aetiologically distinct subgroup of cleft palate. We aimed to define the critical genomic interval from five different 5q22-5q31 deletions associated with PRS or PRS-associated features and assess each gene within the region as a candidate for the PRS component of the phenotype. Clinical array-based comparative genome hybridisation (aCGH) data were used to define a 2.08 Mb minimum region of overlap among four de novo deletions and one mother-son inherited deletion associated with at least one component of PRS. Commonly associated anomalies were talipes equinovarus (TEV), finger contractures and crumpled ear helices. Expression analysis of the orthologous genes within the PRS critical region in embryonic mice showed that the strongest candidate genes were FBN2 and PHAX. Targeted aCGH of the critical region and sequencing of these genes in a cohort of 25 PRS patients revealed no plausible disease-causing mutations. In conclusion, deletion of ?2 Mb on 5q23 region causes a clinically recognisable subtype of PRS. Haploinsufficiency for FBN2 accounts for the digital and auricular features. A possible critical region for TEV is distinct and telomeric to the PRS region. The molecular basis of PRS in these cases remains undetermined but haploinsufficiency for PHAX is a plausible mechanism.

pierre robin sequence, congenital contractural arachnodactyly, 5q deletion, fibrillin 2 (FBN2), phosphorylated adaptor for RNA export (PHAX), talipes equinovarus
1769-7212
587-595
Ansari, Morad
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Rainger, Jacqueline K.
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Murray, Jennie E.
b5971302-dc74-41b4-90eb-001743066be7
Hanson, Isabel
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Firth, Helen V.
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Mehendale, Felicity
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Amiel, Jeanne
b94c482b-1c03-43c0-8940-7aa9ed948141
Gordon, Christopher T.
02c1211b-e91c-4a21-8bfd-2c30d1e1d0cf
Percesepe, Antonio
fa28d459-2972-4647-8fc0-19fed3325b0f
Mazzanti, Laura
49301296-81bb-4ea8-9e05-4acf6ec93692
Fryer, Alan
e47884e2-c051-421d-8784-e4b10be599fb
Ferrari, Paola
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Devriendt, Koenraad
c76fd3d7-d8cc-494c-ab45-3a704f782c0c
Temple, I. Karen
d63e7c66-9fb0-46c8-855d-ee2607e6c226
FitzPatrick, David R.
4107af53-3af5-40cc-9cce-9b991cec22c6
Ansari, Morad
b4831f76-cd33-4ba7-91bb-393d8acdc137
Rainger, Jacqueline K.
97021685-088c-4589-bdfb-23d67b54c639
Murray, Jennie E.
b5971302-dc74-41b4-90eb-001743066be7
Hanson, Isabel
99e14ced-2fc6-414f-b9c2-f40c8da61bfc
Firth, Helen V.
68d49660-2394-45e2-a690-c6583c4590dd
Mehendale, Felicity
7a4c8448-363c-4c1b-8408-cfe5a5ff917e
Amiel, Jeanne
b94c482b-1c03-43c0-8940-7aa9ed948141
Gordon, Christopher T.
02c1211b-e91c-4a21-8bfd-2c30d1e1d0cf
Percesepe, Antonio
fa28d459-2972-4647-8fc0-19fed3325b0f
Mazzanti, Laura
49301296-81bb-4ea8-9e05-4acf6ec93692
Fryer, Alan
e47884e2-c051-421d-8784-e4b10be599fb
Ferrari, Paola
5c57a705-76ca-4d96-ad01-75d98432d3b7
Devriendt, Koenraad
c76fd3d7-d8cc-494c-ab45-3a704f782c0c
Temple, I. Karen
d63e7c66-9fb0-46c8-855d-ee2607e6c226
FitzPatrick, David R.
4107af53-3af5-40cc-9cce-9b991cec22c6

Ansari, Morad, Rainger, Jacqueline K., Murray, Jennie E., Hanson, Isabel, Firth, Helen V., Mehendale, Felicity, Amiel, Jeanne, Gordon, Christopher T., Percesepe, Antonio, Mazzanti, Laura, Fryer, Alan, Ferrari, Paola, Devriendt, Koenraad, Temple, I. Karen and FitzPatrick, David R. (2014) A syndromic form of Pierre Robin sequence is caused by 5q23 deletions encompassing FBN2 and PHAX. European Journal of Medical Genetics, 57 (10), 587-595. (doi:10.1016/j.ejmg.2014.08.007). (PMID:25195018)

Record type: Article

Abstract

Pierre Robin sequence (PRS) is an aetiologically distinct subgroup of cleft palate. We aimed to define the critical genomic interval from five different 5q22-5q31 deletions associated with PRS or PRS-associated features and assess each gene within the region as a candidate for the PRS component of the phenotype. Clinical array-based comparative genome hybridisation (aCGH) data were used to define a 2.08 Mb minimum region of overlap among four de novo deletions and one mother-son inherited deletion associated with at least one component of PRS. Commonly associated anomalies were talipes equinovarus (TEV), finger contractures and crumpled ear helices. Expression analysis of the orthologous genes within the PRS critical region in embryonic mice showed that the strongest candidate genes were FBN2 and PHAX. Targeted aCGH of the critical region and sequencing of these genes in a cohort of 25 PRS patients revealed no plausible disease-causing mutations. In conclusion, deletion of ?2 Mb on 5q23 region causes a clinically recognisable subtype of PRS. Haploinsufficiency for FBN2 accounts for the digital and auricular features. A possible critical region for TEV is distinct and telomeric to the PRS region. The molecular basis of PRS in these cases remains undetermined but haploinsufficiency for PHAX is a plausible mechanism.

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More information

Accepted/In Press date: 22 August 2014
e-pub ahead of print date: 2 September 2014
Published date: October 2014
Keywords: pierre robin sequence, congenital contractural arachnodactyly, 5q deletion, fibrillin 2 (FBN2), phosphorylated adaptor for RNA export (PHAX), talipes equinovarus
Organisations: Human Development & Health

Identifiers

Local EPrints ID: 368739
URI: http://eprints.soton.ac.uk/id/eprint/368739
DOI: doi:10.1016/j.ejmg.2014.08.007
ISSN: 1769-7212
PURE UUID: 5496aabd-4610-41d3-8d8d-c590afa9ee03
ORCID for I. Karen Temple: ORCID iD orcid.org/0000-0002-6045-1781

Catalogue record

Date deposited: 13 Sep 2014 10:54
Last modified: 15 Mar 2024 03:00

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Contributors

Author: Morad Ansari
Author: Jacqueline K. Rainger
Author: Jennie E. Murray
Author: Isabel Hanson
Author: Helen V. Firth
Author: Felicity Mehendale
Author: Jeanne Amiel
Author: Christopher T. Gordon
Author: Antonio Percesepe
Author: Laura Mazzanti
Author: Alan Fryer
Author: Paola Ferrari
Author: Koenraad Devriendt
Author: I. Karen Temple ORCID iD
Author: David R. FitzPatrick

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