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Prevalence and functionality of paucimorphic and private MC4R mutations in a large, unselected European British population, scanned by meltMADGE

Prevalence and functionality of paucimorphic and private MC4R mutations in a large, unselected European British population, scanned by meltMADGE
Prevalence and functionality of paucimorphic and private MC4R mutations in a large, unselected European British population, scanned by meltMADGE
Identification of unknown mutations has remained laborious, expensive, and only viable for studies of selected cases. Population-based "reference ranges" of rarer sequence diversity are not available. However, the research and diagnostic interpretation of sequence variants depends on such information. Additionally, this is the only way to determine prevalence of severe, moderate, and silent mutations and is also relevant to the development of screening programs. We previously described a system, meltMADGE, suitable for mutation scanning at the population level. Here we describe its application to a population-based study of MC4R (melanocortin 4 receptor) mutations, which are associated with obesity. We developed nine assays representing MC4R and examined a population sample of 1,100 subjects. Two "paucimorphisms" were identified (c.307G>A/p.Val103Ile in 27 subjects and c.-178A>C in 22 subjects). Neither exhibited any anthropometric effects, whereas there would have been >90% power to detect a body mass index (BMI) effect of 0.5 kg/m(2) at P=0.01. Two "private" variants were also identified. c.335C>T/p.Thr112Met has been previously described and appears to be silent. A novel variant, c.260C>A/p.Ala87Asp, was observed in a subject with a BMI of 31.5 kg/m(2) (i.e., clinically obese) but not on direct assay of a further 3,525 subjects. This mutation was predicted to be deleterious and analysis using a cyclic AMP (cAMP) responsive luciferase reporter assay showed substantial loss of function of the mutant receptor. This population-based mutation scan of MC4R suggests that there is no severe MC4R mutation with high prevalence in the United Kingdom, but that obesity-causing MC4R mutation at 1 in 1,100 might represent one of the commonest autosomal dominant disorders in man.
1059-7794
294-302
Alharbi, Khalid K.
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Spanakis, Emmanuel
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Tan, Karen
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Smith, Matt J.
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Aldahmesh, Mohammed A.
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O'Dell, Sandra D.
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Sayer, Avan Aihie
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Lawlor, Debbie A.
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Ebrahim, Shah
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Davey Smith, George
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O'Rahilly, Stephen
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Farooqi, Sadaf
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Cooper, Cyrus
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Phillips, David I.W.
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Day, Ian N.M.
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Alharbi, Khalid K.
f8267cbb-ad0a-4ad8-b483-ff896223dfda
Spanakis, Emmanuel
f8b490cd-92c5-4163-bd9e-2acf6593347d
Tan, Karen
9f6b690c-1480-4a39-a344-8a827a483314
Smith, Matt J.
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Aldahmesh, Mohammed A.
f529c36b-1663-4622-9289-906c935cf57d
O'Dell, Sandra D.
36100c24-d942-4d7d-99c0-a387a4f63644
Sayer, Avan Aihie
fb4c2053-6d51-4fc1-9489-c3cb431b0ffb
Lawlor, Debbie A.
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Ebrahim, Shah
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Davey Smith, George
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O'Rahilly, Stephen
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Farooqi, Sadaf
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Cooper, Cyrus
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Phillips, David I.W.
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Day, Ian N.M.
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Alharbi, Khalid K., Spanakis, Emmanuel, Tan, Karen, Smith, Matt J., Aldahmesh, Mohammed A., O'Dell, Sandra D., Sayer, Avan Aihie, Lawlor, Debbie A., Ebrahim, Shah, Davey Smith, George, O'Rahilly, Stephen, Farooqi, Sadaf, Cooper, Cyrus, Phillips, David I.W. and Day, Ian N.M. (2007) Prevalence and functionality of paucimorphic and private MC4R mutations in a large, unselected European British population, scanned by meltMADGE. Human Mutation, 28 (3), 294-302. (doi:10.1002/humu.20404).

Record type: Article

Abstract

Identification of unknown mutations has remained laborious, expensive, and only viable for studies of selected cases. Population-based "reference ranges" of rarer sequence diversity are not available. However, the research and diagnostic interpretation of sequence variants depends on such information. Additionally, this is the only way to determine prevalence of severe, moderate, and silent mutations and is also relevant to the development of screening programs. We previously described a system, meltMADGE, suitable for mutation scanning at the population level. Here we describe its application to a population-based study of MC4R (melanocortin 4 receptor) mutations, which are associated with obesity. We developed nine assays representing MC4R and examined a population sample of 1,100 subjects. Two "paucimorphisms" were identified (c.307G>A/p.Val103Ile in 27 subjects and c.-178A>C in 22 subjects). Neither exhibited any anthropometric effects, whereas there would have been >90% power to detect a body mass index (BMI) effect of 0.5 kg/m(2) at P=0.01. Two "private" variants were also identified. c.335C>T/p.Thr112Met has been previously described and appears to be silent. A novel variant, c.260C>A/p.Ala87Asp, was observed in a subject with a BMI of 31.5 kg/m(2) (i.e., clinically obese) but not on direct assay of a further 3,525 subjects. This mutation was predicted to be deleterious and analysis using a cyclic AMP (cAMP) responsive luciferase reporter assay showed substantial loss of function of the mutant receptor. This population-based mutation scan of MC4R suggests that there is no severe MC4R mutation with high prevalence in the United Kingdom, but that obesity-causing MC4R mutation at 1 in 1,100 might represent one of the commonest autosomal dominant disorders in man.

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Published date: March 2007

Identifiers

Local EPrints ID: 60866
URI: http://eprints.soton.ac.uk/id/eprint/60866
DOI: doi:10.1002/humu.20404
ISSN: 1059-7794
PURE UUID: ee4371e2-634c-45d7-b5ab-224d1c389028
ORCID for Cyrus Cooper: ORCID iD orcid.org/0000-0003-3510-0709

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Date deposited: 31 Mar 2009
Last modified: 18 Mar 2024 02:44

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Contributors

Author: Khalid K. Alharbi
Author: Emmanuel Spanakis
Author: Karen Tan
Author: Matt J. Smith
Author: Mohammed A. Aldahmesh
Author: Sandra D. O'Dell
Author: Avan Aihie Sayer
Author: Debbie A. Lawlor
Author: Shah Ebrahim
Author: George Davey Smith
Author: Stephen O'Rahilly
Author: Sadaf Farooqi
Author: Cyrus Cooper ORCID iD
Author: David I.W. Phillips
Author: Ian N.M. Day

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