Large-scale association analysis provides insights into the genetic architecture and pathophysiology of type 2 diabetes

Morris, Ap; Voight, Bf; Teslovich, Tm; Ferreira, T; Segre, Av; Steinthorsdottir, V; Strawbridge, Rj; Khan, H; Grallert, H; Mahajan, A; Prokopenko, I; Kang, Hm; Dina, C; Esko, T; Fraser, Rm; Kanoni, S; Kumar, A; Lagou, V; Langenberg, C; Luan, J; Lindgren, Cm; Mullernurasyid, M; Pechlivanis, S; Rayner, Nw; Scott, Lj; Wiltshire, S; Yengo, L; Kinnunen, L; Rossin, Ej; Raychaudhuri, S; Johnson, Ad; Dimas, As; Rjf, Loos; Vedantam, S; Chen, H; Florez, Jc; Fox, C; Liu, Ct; Rybin, D; Couper, Dj; Whl, Kao; M, Li; Cornelis, Mc; Kraft, P; Sun, Q; Van Dam Rm,; Stringham, Hm; Chines, Ps; Fischer, K; Fontanillas, P; Holmen, Ol; Hunt, Se; Jackson, Au; Kong, A; Lawrence, R; Meyer, J; Jrb, Perry; Cgp, Platou; Potter, S; Rehnberg, E; Robertson, N; Sivapalaratnam, S; Stancakova, A; Stirrups, K; Thorleifsson, G; Tikkanen, E; Wood, Ar; Almgren, P; Atalay, M; Benediktsson, R; Bonnycastle, Ll; Burtt, N; Carey, J; Charpentier, G; Crenshaw, At; Asf, Doney; Dorkhan, M; Edkins, S; Emilsson, V; Eury, E; Forsen, T; Gertow, K; Gigante, B; Grant, Gb; Groves, Cj; Guiducci, C; Herder, C; Hreidarsson, Ab; Hui, J; James, A; Jonsson, A; Rathmann, W; Klopp, N; Kravic, J; Krjutskov, K; Langford, C; Leander, K; Lindholm, E; Lobbens, S; Mannisto, S; Mirza, G; Muhleisen, Tw; Musk, B; Parkin, M; Rallidis, L; Saramies, J; Sennblad, B; Shah, S; Sigursson, G; Silveira, A; Steinbach, G; Thorand, B; Trakalo, J; Veglia, F; Wennauer, R; Winckler, W; Zabaneh, D; Campbell, H; Van Duijn, C; Uitterlinden, Ag; Hofman, A; Sijbrands, E; Abecasis, Gr; Owen, Kr; Zeggini, E; Trip, Md; Forouhi, Ng; Syvanen, Ac; Eriksson, Jg; Peltonen, L; Nothen, Mm; Balkau, B; Cna, Palmer; Lyssenko, V; Tuomi, T; Isomaa, B; Hunter, Dj; L, Qi; Shuldiner, Ar; Roden, M; Barroso, I; Wilsgaard, T; Beilby, J; Hovingh, K; Price, Jf; Wilson, Jf; Rauramaa, R; Lakka, Ta; Lind, L; Dedoussis, G; Njolstad, I; Pedersen, Nl; Khaw, Kt; Wareham, Nj; Keinanenkiukaanniemi, Sm; Saaristo, Te; Korpihyovalti, E; Saltevo, J; Laakso, M; Kuusisto, J; Metspalu, A; Collins, Fs; Mohlke, Kl; Bergman, Rn; Tuomilehto, J; Boehm, Bo; Gieger, C; Hveem, K; Cauchi, S; Froguel, P; Baldassarre, D; Tremoli, E; Humphries, Se; Saleheen, D; Danesh, J; Ingelsson, E; Ripatti, S; Salomaa, V; Erbel, R; Jockel, Kh; Moebus, S; Peters, A; Illig, T; Faire, Ud; Hamsten, A; Morris, Ad; Donnelly, Pj; Frayling, Tm; Hattersley, At; Boerwinkle, E; Melander, O; Kathiresan, S; Nilsson, Pm; Deloukas, P; Thorsteinsdottir, U; Groop, Lc; Stefansson, K; F, Hu; Pankow, Js; Dupuis, J; Meigs, Jb; Altshuler, D; Boehnke, M; Mccarthy, Mi

doi:10.1038/ng.2383

To extend understanding of the genetic architecture and molecular basis of type 2 diabetes (T2D), we conducted a meta-analysis of genetic variants on the Metabochip, including 34,840 cases and 114,981 controls, overwhelmingly of European descent. We identified ten previously unreported T2D susceptibility loci, including two showing sex-differentiated association. Genome-wide analyses of these data are consistent with a long tail of additional common variant loci explaining much of the variation in susceptibility to T2D. Exploration of the enlarged set of susceptibility loci implicates several processes, including CREBBP-related transcription, adipocytokine signaling and cell cycle regulation, in diabetes pathogenesis. © 2012 Nature America, Inc. All rights reserved.