K R Owen1, J Roland, K Smith, A T Hattersley. 1. Department of Diabetes and Vascular Medicine, Peninsula Medical School, Exeter, UK. k.r.owen@exeter.ac.uk
Abstract
BACKGROUND: Childhood onset Type 2 diabetes in the UK has been reported in obese, insulin-resistant subjects. Investigation is necessary to exclude other aetiologies including genetic causes. The co-existence of diabetes and a chromosomal breakpoint may indicate the position of novel diabetes genes. CASE REPORT: We describe a novel unbalanced translocation between Xq and 10p associated with amenorrhoea and onset of Type 2 diabetes in a non-obese Caucasian adolescent. There was no evidence of an autoimmune or known genetic aetiology for the diabetes and the phenotype was not typical of youth-onset Type 2. We therefore hypothesize that the translocation is implicated in the aetiology of the diabetes. This is supported by previous reports of diabetes as a feature of Xq deletions and Turner's syndrome and linkage to the Xq region in a genome-wide scan for Type 2 genes. CONCLUSION: That this region may harbour a gene predisposing to Type 2 diabetes and that cytogenetic studies may be useful in investigating diabetes in children and young adults.
BACKGROUND: Childhood onset Type 2 diabetes in the UK has been reported in obese, insulin-resistant subjects. Investigation is necessary to exclude other aetiologies including genetic causes. The co-existence of diabetes and a chromosomal breakpoint may indicate the position of novel diabetes genes. CASE REPORT: We describe a novel unbalanced translocation between Xq and 10p associated with amenorrhoea and onset of Type 2 diabetes in a non-obese Caucasian adolescent. There was no evidence of an autoimmune or known genetic aetiology for the diabetes and the phenotype was not typical of youth-onset Type 2. We therefore hypothesize that the translocation is implicated in the aetiology of the diabetes. This is supported by previous reports of diabetes as a feature of Xq deletions and Turner's syndrome and linkage to the Xq region in a genome-wide scan for Type 2 genes. CONCLUSION: That this region may harbour a gene predisposing to Type 2 diabetes and that cytogenetic studies may be useful in investigating diabetes in children and young adults.
Authors: Elizabeth J Bhoj; Stefano Romeo; Marco G Baroni; Guy Bartov; Roger A Schultz; Andrew R Zinn Journal: Mol Cytogenet Date: 2009-02-13 Impact factor: 2.009
Authors: Inês Barroso; Jian'an Luan; Eleanor Wheeler; Pamela Whittaker; Jon Wasson; Eleftheria Zeggini; Michael N Weedon; Sarah Hunt; Ranganath Venkatesh; Timothy M Frayling; Marcos Delgado; Rosalind J Neuman; Jinghua Zhao; Richard Sherva; Benjamin Glaser; Mark Walker; Graham Hitman; Mark I McCarthy; Andrew T Hattersley; M Alan Permutt; Nicholas J Wareham; Panagiotis Deloukas Journal: Diabetes Date: 2008-08-26 Impact factor: 9.461