PMCID: PMC3935450.-- et al. ; Type 2 diabetes affects over 300 million people, causing severe complications and premature death, yet the underlying molecular mechanisms are largely unknown. Pancreatic islet dysfunction is central in type 2 diabetes pathogenesis, and understanding islet genome regulation could therefore provide valuable mechanistic insights. We have now mapped and examined the function of human islet cis-regulatory networks. We identify genomic sequences that are targeted by islet transcription factors to drive islet-specific gene activity and show that most such sequences reside in clusters of enhancers that form physical three-dimensional chromatin domains. We find that sequence variants associated with type 2 diabetes and fasting glycemia are enriched in these clustered islet enhancers and identify trait-associated variants that disrupt DNA binding and islet enhancer activity. Our studies illustrate how islet transcription factors interact functionally with the epigenome and provide systematic evidence that the dysregulation of islet enhancers is relevant to the mechanisms underlying type 2 diabetes. ; We thank the DIAGRAM and MAGIC consortia, the Singapore Prospective Study Program, the Singapore Consortium of Cohort Studies, the Singapore Indian Eye Study, the Singapore Malay Eye Study and Y.Y. Teo, E.S. Tai, T.Y. Wong, W.Y. Lim and X. Wang (National University of Singapore; funded by the National Medical Research Council of Singapore, Singapore Translational Researcher Award schemes, the Biomedical Research Council of Singapore and the National Research Foundation (NRF) Fellowship scheme). This work was carried out in part at the Centre Esther Koplowitz. This work was funded by grants from a European Foundation for the Study of Diabetes Lilly fellowship (L. Pasquali), the Ministerio de Economía y Competitividad (SAF2011-27086 to J.F., BFU2010-14839 and CSD2007-00008 to J.L.G.S.), the Innovative Medicines Initiative (DIRECT to M.I.M. and J.F.), the Andalusian Government (CVI-3488 to J.L.G.S.), the Biology of Liver and Pancreatic Development and Disease Marie Curie Initial Training Network (F.M. and J.F.), the Wellcome Trust (090532, 98381 and 090367 to M.I.M., 095101 to A.L.G., 101033 to J.F.), Juvenile Diabetes Research Foundation (31-2012-783 to T.B., F.P. and L. Piemonti) and Framework Programme 7 (HEALTH-F4-2007-201413 to M.I.M.). ; Peer Reviewed