A novel genetic variant in the transcription factor Islet-1 exerts gain of function on myocyte enhancer factor 2C promoter activity

作者:Friedrich Felix W; Dilanian Gilles; Khattar Patricia; Juhr Denise; Gueneau Lucie; Charron Philippe; Fressart Veronique; Vilquin Jean Thomas; Isnard Richard; Gouya Laurent; Richard Pascale; Hammoudi Naima; Komajda Michel; Bonne Gisele; Eschenhagen Thomas; Dubourg Olivier; Villard Eric; Carrier Lucie*
来源:European Journal of Heart Failure, 2013, 15(3): 267-276.
DOI:10.1093/eurjhf/hfs178

摘要

Aims The transcription factor Islet-1 (ISL1) is a marker of cardiovascular progenitors and is essential for mammalian cardiogenesis. An ISL1 haplotype has recently been associated with congenital heart disease. In this study we evaluated whether ISL1 variants are associated with hypertrophic (HCM), dilated (DCM), arrhythmogenic right ventricular cardiomyopathy (ARVC), or with Emery-Dreifuss muscular dystrophy (EDMD). Methods and results The six exon and intron boundaries of ISL1 were screened for genetic variants in a cohort of 454 index cases. Eleven exonic variants were identified in HCM, DCM, ARVC, and/or EDMD. Out of the five novel variants, two are located in the 5'-untranstated region, two are silent (p.Arg171Arg and p.Asn189Asn), and one is a missense (p.Asn252Ser). The latter was identified in the homozygous state in one DCM patient, and in the heterozygous state in 11 relatives, who did not present with DCM but often with cardiovascular features. This variant was found in one HCM patient also carrying a MYH7 mutation and in 3/96 North-African Caucasian control individuals, but was absent in 138 European Caucasian control individuals. We investigated the effect of the ISL1 wild type and p.Asn252Ser mutant on myocyte enhancer factor 2C (Mef2c) promoter activity, an established ISL1 target. Mef2c promoter activity was similar to 4-fold higher in the presence of wild-type and similar to 6-fold higher in the presence of mutant ISL1 in both HEK and CHO cells. Conclusion This study describes a new gain-of-function p.Asn252Ser variant in the human ISL1 gene, which could potentially lead to greater activation of downstream targets involved in cardiac development, dilation, and hypertrophy.

  • 出版日期2013-3