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Evaluating the role of LPIN1 variation in insulin resistance, body weight, and human lipodystrophy in UK populations

Evaluating the role of LPIN1 variation in insulin resistance, body weight, and human lipodystrophy in UK populations
Evaluating the role of LPIN1 variation in insulin resistance, body weight, and human lipodystrophy in UK populations
OBJECTIVE-Loss of lipin 1 activity causes lipodystrophy and insulin resistance in the fld mouse, and LPIN1 expression and common genetic variation were recently suggested to influence adiposity and insulin sensitivity in humans. We aimed to conduct a comprehensive association study to clarify the influence of common LPIN1 variation on adiposity and insulin sensitivity in U.K. populations and to examine the role of LPIN1 mutations in insulin resistance syndromes. RESEARCH DESIGN AND METHOD-Twenty-two single nucleotide polymorphisms tagging common LPIN1 variation were genotyped in Medical Research Council (MRC) Ely (n = 1,709) and Hertfordshire (n = 2,901) population-based cohorts. LPIN1 exons, exon/intron boundaries, and 3' untranslated region were sequenced in 158 patients with idiopathic severe insulin resistance (including 23 lipodystrophic patients) and 48 control subjects. RESULTS-We found no association between LPIN1 single nucleotide polymorphisms and fasting insulin but report a nominal association between rs13412852 and BMI (P = 0.042) in a meta-analysis of 8,504 samples from in-house and publicly available studies. Three rare nonsynonymous variants (A353T, R552K, and G582R) were detected in severely insulin-resistant patients. However, these did not cosegregate with disease in affected families, and Lipin1 protein expression and phosphorylation in patients with variants were indistinguishable from those in control subjects. CONCLUSIONS-Our data do not support a major effect of common LPIN1 variation on metabolic traits and suggest that mutations in LPIN1 are not a common cause of lipodystrophy in humans. The nominal associations with BMI and other metabolic traits in U.K. cohorts require replication in larger cohorts
phosphorylation, fitness, cohort, insulin-resistance, hertfordshire, protein, gene, weight, polymorphisms, glucose-metabolism, disease, energy-expenditure, expression, report, human genome, humans, body weight, mutation, england, association, activity, lipin expression, insulin, diabetes, human, syndrome, fasting, activated-receptor-gamma, insulin resistance
0012-1797
2527-2533
Fawcett, Katherine A.
54eb72f4-0b98-42d6-9687-0b72a6673605
Grimsey, Neil
b4220fee-b032-4420-af8d-401e35609c96
Loos, Ruth J. F.
95946608-9733-4815-a5a5-dad51c62ab91
Wheeler, Eleanor
7ac224f8-8891-4365-9741-0f08b27d233a
Daly, Allan
8c26a9c1-3a5f-4373-9b93-22e5c435b9ae
Soos, Maria
21963a9a-0b14-4122-a9b4-fa294822a52a
Semple, Robert
4ea6083f-8ae3-42c7-9a7d-97e9b9a98b4d
Syddall, Holly
a0181a93-8fc3-4998-a996-7963f0128328
Cooper, Cyrus
e05f5612-b493-4273-9b71-9e0ce32bdad6
Siniossoglou, Symeon
d472c487-3814-4595-9ce7-2fa1827deba2
O'rahilly, Stephen
e5c7869f-10d1-4fdc-a564-e4907be415a3
Wareham, Nicholas J.
bbc18cd9-3512-4ca6-806c-75c9a01e5adf
Barroso, Ines
42fd48c7-aac6-4204-8f15-50df92a1a7ce
Fawcett, Katherine A.
54eb72f4-0b98-42d6-9687-0b72a6673605
Grimsey, Neil
b4220fee-b032-4420-af8d-401e35609c96
Loos, Ruth J. F.
95946608-9733-4815-a5a5-dad51c62ab91
Wheeler, Eleanor
7ac224f8-8891-4365-9741-0f08b27d233a
Daly, Allan
8c26a9c1-3a5f-4373-9b93-22e5c435b9ae
Soos, Maria
21963a9a-0b14-4122-a9b4-fa294822a52a
Semple, Robert
4ea6083f-8ae3-42c7-9a7d-97e9b9a98b4d
Syddall, Holly
a0181a93-8fc3-4998-a996-7963f0128328
Cooper, Cyrus
e05f5612-b493-4273-9b71-9e0ce32bdad6
Siniossoglou, Symeon
d472c487-3814-4595-9ce7-2fa1827deba2
O'rahilly, Stephen
e5c7869f-10d1-4fdc-a564-e4907be415a3
Wareham, Nicholas J.
bbc18cd9-3512-4ca6-806c-75c9a01e5adf
Barroso, Ines
42fd48c7-aac6-4204-8f15-50df92a1a7ce

Fawcett, Katherine A., Grimsey, Neil, Loos, Ruth J. F., Wheeler, Eleanor, Daly, Allan, Soos, Maria, Semple, Robert, Syddall, Holly, Cooper, Cyrus, Siniossoglou, Symeon, O'rahilly, Stephen, Wareham, Nicholas J. and Barroso, Ines (2008) Evaluating the role of LPIN1 variation in insulin resistance, body weight, and human lipodystrophy in UK populations. Diabetes, 57 (9), 2527-2533. (doi:10.2337/db08-0422).

Record type: Article

Abstract

OBJECTIVE-Loss of lipin 1 activity causes lipodystrophy and insulin resistance in the fld mouse, and LPIN1 expression and common genetic variation were recently suggested to influence adiposity and insulin sensitivity in humans. We aimed to conduct a comprehensive association study to clarify the influence of common LPIN1 variation on adiposity and insulin sensitivity in U.K. populations and to examine the role of LPIN1 mutations in insulin resistance syndromes. RESEARCH DESIGN AND METHOD-Twenty-two single nucleotide polymorphisms tagging common LPIN1 variation were genotyped in Medical Research Council (MRC) Ely (n = 1,709) and Hertfordshire (n = 2,901) population-based cohorts. LPIN1 exons, exon/intron boundaries, and 3' untranslated region were sequenced in 158 patients with idiopathic severe insulin resistance (including 23 lipodystrophic patients) and 48 control subjects. RESULTS-We found no association between LPIN1 single nucleotide polymorphisms and fasting insulin but report a nominal association between rs13412852 and BMI (P = 0.042) in a meta-analysis of 8,504 samples from in-house and publicly available studies. Three rare nonsynonymous variants (A353T, R552K, and G582R) were detected in severely insulin-resistant patients. However, these did not cosegregate with disease in affected families, and Lipin1 protein expression and phosphorylation in patients with variants were indistinguishable from those in control subjects. CONCLUSIONS-Our data do not support a major effect of common LPIN1 variation on metabolic traits and suggest that mutations in LPIN1 are not a common cause of lipodystrophy in humans. The nominal associations with BMI and other metabolic traits in U.K. cohorts require replication in larger cohorts

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Published date: 2008
Related URLs:
Keywords: phosphorylation, fitness, cohort, insulin-resistance, hertfordshire, protein, gene, weight, polymorphisms, glucose-metabolism, disease, energy-expenditure, expression, report, human genome, humans, body weight, mutation, england, association, activity, lipin expression, insulin, diabetes, human, syndrome, fasting, activated-receptor-gamma, insulin resistance

Identifiers

Local EPrints ID: 70384
URI: http://eprints.soton.ac.uk/id/eprint/70384
DOI: doi:10.2337/db08-0422
ISSN: 0012-1797
PURE UUID: 8a1790c6-cb90-4236-b57e-63ce7b243bf8
ORCID for Holly Syddall: ORCID iD orcid.org/0000-0003-0171-0306
ORCID for Cyrus Cooper: ORCID iD orcid.org/0000-0003-3510-0709

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Date deposited: 02 Feb 2010
Last modified: 18 Mar 2024 02:48

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Contributors

Author: Katherine A. Fawcett
Author: Neil Grimsey
Author: Ruth J. F. Loos
Author: Eleanor Wheeler
Author: Allan Daly
Author: Maria Soos
Author: Robert Semple
Author: Holly Syddall ORCID iD
Author: Cyrus Cooper ORCID iD
Author: Symeon Siniossoglou
Author: Stephen O'rahilly
Author: Nicholas J. Wareham
Author: Ines Barroso

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