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Associations of body size at birth with late-life cortisol concentrations and glucose tolerance are modified by haplotypes of the glucocorticoid receptor gene

Associations of body size at birth with late-life cortisol concentrations and glucose tolerance are modified by haplotypes of the glucocorticoid receptor gene
Associations of body size at birth with late-life cortisol concentrations and glucose tolerance are modified by haplotypes of the glucocorticoid receptor gene
CONTEXT: Small body size at birth is associated with cardiovascular disease and type 2 diabetes in adult life. This link may be in part mediated by early-life programming of the hypothalamic-pituitary-adrenal axis (HPAA) function. OBJECTIVE: Our objective was to assess whether haplotypes of the glucocorticoid receptor (GR) gene modify this link. DESIGN AND PARTICIPANTS: We conducted a birth cohort study that included 437 men and women born in Helsinki, Finland, during 1924-1933, whose birth measurements were recorded. MAIN OUTCOME MEASURES: We studied how the oral glucose tolerance test and fasting plasma total and free cortisol concentrations and, in a subset of 162 women, a more detailed HPAA evaluation, are predicted by body size at birth and haplotypes of the GR locus. We also measured the haplotype-specific relative mRNA expression level for the haplotype of interest. RESULTS: One of the haplotypes was associated with lower birth weight and length and higher fasting plasma and mean 24-h salivary cortisol. Moreover, this haplotype modified the association of length at birth with adult phenotypes; in carriers, short length at birth was associated with increased fasting plasma cortisol, cortisol/corticosteroid-binding globulin ratio, impaired glucose tolerance or diabetes [1 cm decrease corresponded to 1.36-fold odds ratio; 95% confidence interval (CI), 1.09-1.70; P = 0.007], and higher 120-min glucose (5.8%; 95% CI, 2.5-9.1%; P = 0.0007), but no association was seen in noncarriers (P for interaction was 0.06, 0.01, 0.02, and 0.01, respectively). The mRNA expression level of this haplotype was 93.7% (95% CI, 90.5-96.8%; P = 2.2 x 10(-4)) of the expression level of the other haplotypes. CONCLUSIONS: A common GR haplotype may contribute to and modify the association of short length at birth with adult glucose tolerance and HPAA function by a mechanism that affects regulation of GR expression
women, cohort studies, function, research, birth-weight, glucose tolerance test, odds ratio, tolerance, birth weight, fasting, glucocorticoid receptor, men, finland, birth, cardiovascular-disease, size, programming, weight, glucose tolerance, expression, glucose, disease, body size, haplotypes, glucocorticoid-receptor, diabetes, no, cortisol, cardiovascular, adult, cohort, early-life, gene, plasma, phenotype, cardiovascular disease
4544-4551
Rautanen, A.
ebc32976-dfb5-46b0-85de-b389795cafc1
Eriksson, J.G.
eda300d2-b247-479f-95b9-f12d2c72e92b
Kere, J.
a85546de-6576-463b-a0fc-fed5237af976
Andersson, S.
f7fd5a29-9c9c-4c8e-a96d-6aef9308b0a0
Osmond, C.
2677bf85-494f-4a78-adf8-580e1b8acb81
Tienari, P.
0544b497-d77d-4fea-8b13-9b5215d3c44a
Sairanen, H.
01a0f85f-0e55-499e-8710-20205cbe99a3
Barker, D.J.
cabc3433-b628-43e5-9fd7-e6ff5769bf44
Phillips, D.I.
29b73be7-2ff9-4fff-ae42-d59842df4cc6
Forsen, T.
009ce53c-8bbf-4c5c-a21f-0bbdd1f999c4
Kajantie, E.
d4e32f85-9988-4b83-b353-012210ea0151
Rautanen, A.
ebc32976-dfb5-46b0-85de-b389795cafc1
Eriksson, J.G.
eda300d2-b247-479f-95b9-f12d2c72e92b
Kere, J.
a85546de-6576-463b-a0fc-fed5237af976
Andersson, S.
f7fd5a29-9c9c-4c8e-a96d-6aef9308b0a0
Osmond, C.
2677bf85-494f-4a78-adf8-580e1b8acb81
Tienari, P.
0544b497-d77d-4fea-8b13-9b5215d3c44a
Sairanen, H.
01a0f85f-0e55-499e-8710-20205cbe99a3
Barker, D.J.
cabc3433-b628-43e5-9fd7-e6ff5769bf44
Phillips, D.I.
29b73be7-2ff9-4fff-ae42-d59842df4cc6
Forsen, T.
009ce53c-8bbf-4c5c-a21f-0bbdd1f999c4
Kajantie, E.
d4e32f85-9988-4b83-b353-012210ea0151

Rautanen, A., Eriksson, J.G., Kere, J., Andersson, S., Osmond, C., Tienari, P., Sairanen, H., Barker, D.J., Phillips, D.I., Forsen, T. and Kajantie, E. (2006) Associations of body size at birth with late-life cortisol concentrations and glucose tolerance are modified by haplotypes of the glucocorticoid receptor gene. Journal of Clinical Endocrinology & Metabolism, 91 (11), 4544-4551. (doi:10.1210/jc.2006-1065).

Record type: Article

Abstract

CONTEXT: Small body size at birth is associated with cardiovascular disease and type 2 diabetes in adult life. This link may be in part mediated by early-life programming of the hypothalamic-pituitary-adrenal axis (HPAA) function. OBJECTIVE: Our objective was to assess whether haplotypes of the glucocorticoid receptor (GR) gene modify this link. DESIGN AND PARTICIPANTS: We conducted a birth cohort study that included 437 men and women born in Helsinki, Finland, during 1924-1933, whose birth measurements were recorded. MAIN OUTCOME MEASURES: We studied how the oral glucose tolerance test and fasting plasma total and free cortisol concentrations and, in a subset of 162 women, a more detailed HPAA evaluation, are predicted by body size at birth and haplotypes of the GR locus. We also measured the haplotype-specific relative mRNA expression level for the haplotype of interest. RESULTS: One of the haplotypes was associated with lower birth weight and length and higher fasting plasma and mean 24-h salivary cortisol. Moreover, this haplotype modified the association of length at birth with adult phenotypes; in carriers, short length at birth was associated with increased fasting plasma cortisol, cortisol/corticosteroid-binding globulin ratio, impaired glucose tolerance or diabetes [1 cm decrease corresponded to 1.36-fold odds ratio; 95% confidence interval (CI), 1.09-1.70; P = 0.007], and higher 120-min glucose (5.8%; 95% CI, 2.5-9.1%; P = 0.0007), but no association was seen in noncarriers (P for interaction was 0.06, 0.01, 0.02, and 0.01, respectively). The mRNA expression level of this haplotype was 93.7% (95% CI, 90.5-96.8%; P = 2.2 x 10(-4)) of the expression level of the other haplotypes. CONCLUSIONS: A common GR haplotype may contribute to and modify the association of short length at birth with adult glucose tolerance and HPAA function by a mechanism that affects regulation of GR expression

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More information

Published date: 2006
Keywords: women, cohort studies, function, research, birth-weight, glucose tolerance test, odds ratio, tolerance, birth weight, fasting, glucocorticoid receptor, men, finland, birth, cardiovascular-disease, size, programming, weight, glucose tolerance, expression, glucose, disease, body size, haplotypes, glucocorticoid-receptor, diabetes, no, cortisol, cardiovascular, adult, cohort, early-life, gene, plasma, phenotype, cardiovascular disease

Identifiers

Local EPrints ID: 61456
URI: http://eprints.soton.ac.uk/id/eprint/61456
DOI: doi:10.1210/jc.2006-1065
PURE UUID: 7d059bc9-c907-4b42-b612-9109575a3034
ORCID for C. Osmond: ORCID iD orcid.org/0000-0002-9054-4655

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Date deposited: 12 Sep 2008
Last modified: 16 Mar 2024 02:50

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Contributors

Author: A. Rautanen
Author: J.G. Eriksson
Author: J. Kere
Author: S. Andersson
Author: C. Osmond ORCID iD
Author: P. Tienari
Author: H. Sairanen
Author: D.J. Barker
Author: D.I. Phillips
Author: T. Forsen
Author: E. Kajantie

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