AIMS/HYPOTHESIS: The recently identified alternative promoter (P2) of HNF-4 alpha is the major HNF-4 alpha transcription start site in pancreatic beta cells. The significance of the P2 promoter was shown by the identification of a mutation in the IPF-1 binding site of the alternative promoter which cosegregated with diabetes in a large MODY family. The role of the P2 promoter and the associated alternative exon 1 in both MODY and polygenic Type II (non-insulin-dependent) diabetes mellitus is not known. Linkage to this region in studies of Type II diabetes makes the P2 region a strong candidate for a role in Type II diabetes susceptibility. METHODS: To assess the role of the P2 region we screened MODY, young-onset Type II diabetic subjects, and probands from Type II diabetes families linked to chromosome 20 for variants of the P2 promoter and associated exon of HNF-4 alpha. RESULTS: Two variants were found that were not present in the control subjects. The -79 C/T substitution was present in a MODY family but did not perfectly cosegregate with diabetes. A -276 G/T substitution was identified in two UK young-onset diabetes probands but did not co-segregate with diabetes. Reporter gene studies did not indicate changes in transcriptional activity caused by either the -79 C/T or -276 G/T single nucleotide substitutions. CONCLUSION/ INTERPRETATION: We found no evidence to suggest that variation in the P2 proximal promoter region and associated alternative exon 1 of HNF-4 alpha contribute to young onset Type II diabetes susceptibility in Northern Europeans.
AIMS/HYPOTHESIS: The recently identified alternative promoter (P2) of HNF-4 alpha is the major HNF-4 alpha transcription start site in pancreatic beta cells. The significance of the P2 promoter was shown by the identification of a mutation in the IPF-1 binding site of the alternative promoter which cosegregated with diabetes in a large MODY family. The role of the P2 promoter and the associated alternative exon 1 in both MODY and polygenic Type II (non-insulin-dependent) diabetes mellitus is not known. Linkage to this region in studies of Type II diabetes makes the P2 region a strong candidate for a role in Type II diabetes susceptibility. METHODS: To assess the role of the P2 region we screened MODY, young-onset Type II diabetic subjects, and probands from Type II diabetes families linked to chromosome 20 for variants of the P2 promoter and associated exon of HNF-4 alpha. RESULTS: Two variants were found that were not present in the control subjects. The -79 C/T substitution was present in a MODY family but did not perfectly cosegregate with diabetes. A -276 G/T substitution was identified in two UK young-onset diabetes probands but did not co-segregate with diabetes. Reporter gene studies did not indicate changes in transcriptional activity caused by either the -79 C/T or -276 G/T single nucleotide substitutions. CONCLUSION/ INTERPRETATION: We found no evidence to suggest that variation in the P2 proximal promoter region and associated alternative exon 1 of HNF-4 alpha contribute to young onset Type II diabetes susceptibility in Northern Europeans.
Authors: S K Hansen; C S Rose; C Glümer; T Drivsholm; K Borch-Johnsen; T Jørgensen; O Pedersen; T Hansen Journal: Diabetologia Date: 2005-02-25 Impact factor: 10.122
Authors: M Vaxillaire; C Dina; S Lobbens; A Dechaume; V Vasseur-Delannoy; N Helbecque; G Charpentier; P Froguel Journal: Diabetologia Date: 2005-02-25 Impact factor: 10.122