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The diabetic phenotype in HNF4A mutation carriers is moderated by the expression of HNF4A isoforms from the P1 promoter during fetal development

The diabetic phenotype in HNF4A mutation carriers is moderated by the expression of HNF4A isoforms from the P1 promoter during fetal development
The diabetic phenotype in HNF4A mutation carriers is moderated by the expression of HNF4A isoforms from the P1 promoter during fetal development
OBJECTIVE: Mutations in the alternatively spliced HNF4A gene cause maturity-onset diabetes of the young (MODY). We characterized the spatial and developmental expression patterns of HNF4A transcripts in human tissues and investigated their role as potential moderators of the MODY phenotype. RESEARCH DESIGN AND METHODS: We measured the expression of HNF4A isoforms in human adult tissues and gestationally staged fetal pancreas by isoform-specific real-time PCR. The correlation between mutation position and age of diagnosis or age-related penetrance was assessed in a cohort of 190 patients with HNF4A mutations. RESULTS: HNF4A was expressed exclusively from the P2 promoter in adult pancreas, but from 9 weeks until at least 26 weeks after conception, up to 23% of expression in fetal pancreas was of P1 origin. HNF4A4-6 transcripts were not detected in any tissue. In whole pancreas, HNF4A9 expression was greater than in islets isolated from the endocrine pancreas (relative level 22 vs. 7%). Patients with mutations in exons 9 and 10 (absent from HNF4A3, HNF4A6, and HNF4A9 isoforms) developed diabetes later than those with mutations in exons 2-8, where all isoforms were affected (40 vs. 24 years; P = 0.029). Exon 9/10 mutations were also associated with a reduced age-related penetrance (53 vs. 10% without diabetes at age 55 years; P < 0.00001). CONCLUSIONS: We conclude that isoforms derived from the HNF4A P1 promoter are expressed in human fetal, but not adult, pancreas, and that their presence during pancreatic development may moderate the diabetic phenotype in individuals with mutations in the HNF4A gene
diabetes, fetal development, research support, cohort, expression, human, research design, methods, diagnosis, exons, research, pancreas, mutation, adult, fetal, design, role, phenotype, patients
0012-1797
1745-1752
Harries, L.W.
f578eb4b-21bf-4bb1-bdf5-31655828a901
Locke, J.M.
52e15932-36b2-40ec-b742-2363d099d007
Shields, B.
a5618958-deea-4620-a5fa-b544e9a67090
Hanley, N.A.
ac5bcdcc-51dd-4f2c-ad06-fef6c1d50ebd
Hanley, K.P.
48234f69-48c2-4336-8893-873e2b25cf32
Steele, A.
1a8569fe-fcd3-4396-b3d0-dc6b3b0d0773
Njolstad, P.R.
0dc41c67-5244-434b-b3e0-d64187f1a35a
Ellard, S.
e83de653-52c7-4706-9ddf-da5047a1cef5
Hattersley, A.T.
c555d835-dd08-415c-be14-26940d5c582d
Harries, L.W.
f578eb4b-21bf-4bb1-bdf5-31655828a901
Locke, J.M.
52e15932-36b2-40ec-b742-2363d099d007
Shields, B.
a5618958-deea-4620-a5fa-b544e9a67090
Hanley, N.A.
ac5bcdcc-51dd-4f2c-ad06-fef6c1d50ebd
Hanley, K.P.
48234f69-48c2-4336-8893-873e2b25cf32
Steele, A.
1a8569fe-fcd3-4396-b3d0-dc6b3b0d0773
Njolstad, P.R.
0dc41c67-5244-434b-b3e0-d64187f1a35a
Ellard, S.
e83de653-52c7-4706-9ddf-da5047a1cef5
Hattersley, A.T.
c555d835-dd08-415c-be14-26940d5c582d

Harries, L.W., Locke, J.M., Shields, B., Hanley, N.A., Hanley, K.P., Steele, A., Njolstad, P.R., Ellard, S. and Hattersley, A.T. (2008) The diabetic phenotype in HNF4A mutation carriers is moderated by the expression of HNF4A isoforms from the P1 promoter during fetal development. Diabetes, 57 (6), 1745-1752.

Record type: Article

Abstract

OBJECTIVE: Mutations in the alternatively spliced HNF4A gene cause maturity-onset diabetes of the young (MODY). We characterized the spatial and developmental expression patterns of HNF4A transcripts in human tissues and investigated their role as potential moderators of the MODY phenotype. RESEARCH DESIGN AND METHODS: We measured the expression of HNF4A isoforms in human adult tissues and gestationally staged fetal pancreas by isoform-specific real-time PCR. The correlation between mutation position and age of diagnosis or age-related penetrance was assessed in a cohort of 190 patients with HNF4A mutations. RESULTS: HNF4A was expressed exclusively from the P2 promoter in adult pancreas, but from 9 weeks until at least 26 weeks after conception, up to 23% of expression in fetal pancreas was of P1 origin. HNF4A4-6 transcripts were not detected in any tissue. In whole pancreas, HNF4A9 expression was greater than in islets isolated from the endocrine pancreas (relative level 22 vs. 7%). Patients with mutations in exons 9 and 10 (absent from HNF4A3, HNF4A6, and HNF4A9 isoforms) developed diabetes later than those with mutations in exons 2-8, where all isoforms were affected (40 vs. 24 years; P = 0.029). Exon 9/10 mutations were also associated with a reduced age-related penetrance (53 vs. 10% without diabetes at age 55 years; P < 0.00001). CONCLUSIONS: We conclude that isoforms derived from the HNF4A P1 promoter are expressed in human fetal, but not adult, pancreas, and that their presence during pancreatic development may moderate the diabetic phenotype in individuals with mutations in the HNF4A gene

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Published date: 2008
Keywords: diabetes, fetal development, research support, cohort, expression, human, research design, methods, diagnosis, exons, research, pancreas, mutation, adult, fetal, design, role, phenotype, patients

Identifiers

Local EPrints ID: 59811
URI: http://eprints.soton.ac.uk/id/eprint/59811
ISSN: 0012-1797
PURE UUID: 63a94a12-0c41-40ea-a0c8-7a36abacfe48

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Date deposited: 10 Sep 2008
Last modified: 22 Jul 2022 21:11

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Contributors

Author: L.W. Harries
Author: J.M. Locke
Author: B. Shields
Author: N.A. Hanley
Author: K.P. Hanley
Author: A. Steele
Author: P.R. Njolstad
Author: S. Ellard
Author: A.T. Hattersley

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