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Raised risk of Wilms tumour in patients with aniridia and submicroscopic WT1 deletion

Raised risk of Wilms tumour in patients with aniridia and submicroscopic WT1 deletion
Raised risk of Wilms tumour in patients with aniridia and submicroscopic WT1 deletion
OBJECTIVE: The aim of this study was to determine if there is a significant difference in the risk of developing Wilms tumour between patients with submicroscopic and those with visible deletions of the WT1 tumour suppressor gene.
METHODS: To determine which subjects had WT1 deletions, high-resolution chromosomal deletion analysis of the 11p13 region was carried out in 193 people with aniridia. The rationale for this was that aniridia is caused by loss of function of one copy of the PAX6 gene, and although most patients with aniridia have intragenic mutations, a proportion has deletions that also include the nearby WT1 gene. Fluorescence in situ hybridisation (FISH) analysis of patients with aniridia identifies people with WT1 deletions regardless of whether they have Wilms tumour, allowing the deletion size to be correlated with clinical outcome.
RESULTS: Wilms tumour was not observed in any case without a WT1 deletion. Of subjects in whom WT1 was deleted, 77% with submicroscopic deletions (detectable only by high-resolution FISH analysis) presented with Wilms tumour compared with 42.5% with visible deletions (detectable by microscopy). This difference was significant.
CONCLUSIONS: High-resolution deletion analysis is a useful tool for assessing the risk of Wilms tumour in neonates with aniridia. People with submicroscopic WT1 deletions have a significantly increased risk of Wilms tumour, and a high level of vigilance should be maintained in such cases.
humans, protein, follow-up studies, child, microscopy, age of onset, comparative study, in situ hybridization, pair 11, proteins, homeodomain proteins, fluorescence, eye proteins, gene deletion, aniridia, male, wilms tumor, female, preschool, adult, deficiency, human, methods, multicenter studies, ultrastructure, transcription factors, chromosome breakage, paired box transcription factors, genetics, letter, eye, chromosomes, genetic predisposition to disease, adolescent, repressor proteins, epidemiology, patients, infant, kidney neoplasms, mutation, genes, analysis, risk
0022-2593
787-790
Van Heyningen, V.
60f186ce-d41d-46e5-a63e-29dbd24501b4
Hoovers, J.M.
1623180f-ed67-4677-a9b2-80f0baba7ff8
De Kraker, J.
18c0ba0e-2267-4b18-9274-9d3692714b47
Crolla, J.A.
c5f23751-8de9-4a55-9cc5-ca2fb635769c
Van Heyningen, V.
60f186ce-d41d-46e5-a63e-29dbd24501b4
Hoovers, J.M.
1623180f-ed67-4677-a9b2-80f0baba7ff8
De Kraker, J.
18c0ba0e-2267-4b18-9274-9d3692714b47
Crolla, J.A.
c5f23751-8de9-4a55-9cc5-ca2fb635769c

Van Heyningen, V., Hoovers, J.M., De Kraker, J. and Crolla, J.A. (2007) Raised risk of Wilms tumour in patients with aniridia and submicroscopic WT1 deletion. Journal of Medical Genetics, 44 (12), 787-790. (doi:10.1136/jmg.2007.051318).

Record type: Article

Abstract

OBJECTIVE: The aim of this study was to determine if there is a significant difference in the risk of developing Wilms tumour between patients with submicroscopic and those with visible deletions of the WT1 tumour suppressor gene.
METHODS: To determine which subjects had WT1 deletions, high-resolution chromosomal deletion analysis of the 11p13 region was carried out in 193 people with aniridia. The rationale for this was that aniridia is caused by loss of function of one copy of the PAX6 gene, and although most patients with aniridia have intragenic mutations, a proportion has deletions that also include the nearby WT1 gene. Fluorescence in situ hybridisation (FISH) analysis of patients with aniridia identifies people with WT1 deletions regardless of whether they have Wilms tumour, allowing the deletion size to be correlated with clinical outcome.
RESULTS: Wilms tumour was not observed in any case without a WT1 deletion. Of subjects in whom WT1 was deleted, 77% with submicroscopic deletions (detectable only by high-resolution FISH analysis) presented with Wilms tumour compared with 42.5% with visible deletions (detectable by microscopy). This difference was significant.
CONCLUSIONS: High-resolution deletion analysis is a useful tool for assessing the risk of Wilms tumour in neonates with aniridia. People with submicroscopic WT1 deletions have a significantly increased risk of Wilms tumour, and a high level of vigilance should be maintained in such cases.

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More information

Published date: 2007
Keywords: humans, protein, follow-up studies, child, microscopy, age of onset, comparative study, in situ hybridization, pair 11, proteins, homeodomain proteins, fluorescence, eye proteins, gene deletion, aniridia, male, wilms tumor, female, preschool, adult, deficiency, human, methods, multicenter studies, ultrastructure, transcription factors, chromosome breakage, paired box transcription factors, genetics, letter, eye, chromosomes, genetic predisposition to disease, adolescent, repressor proteins, epidemiology, patients, infant, kidney neoplasms, mutation, genes, analysis, risk
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Identifiers

Local EPrints ID: 60354
URI: http://eprints.soton.ac.uk/id/eprint/60354
DOI: doi:10.1136/jmg.2007.051318
ISSN: 0022-2593
PURE UUID: 15dcba5c-94db-47c8-af94-d2767a434b2d

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Date deposited: 04 Sep 2008
Last modified: 15 Mar 2024 11:20

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Contributors

Author: V. Van Heyningen
Author: J.M. Hoovers
Author: J. De Kraker
Author: J.A. Crolla

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