Literature DB >> 28838971

A Loss-of-Function Splice Acceptor Variant in IGF2 Is Protective for Type 2 Diabetes.

Josep M Mercader1,2,3, Rachel G Liao1, Avery D Bell4,5,6, Zachary Dymek1, Karol Estrada1,7,8, Taru Tukiainen4,6,7, Alicia Huerta-Chagoya9, Hortensia Moreno-Macías10,11, Kathleen A Jablonski12, Robert L Hanson13, Geoffrey A Walford1,2,8, Ignasi Moran14, Ling Chen1,2, Vineeta Agarwala6, María Luisa Ordoñez-Sánchez9, Rosario Rodríguez-Guillen9, Maribel Rodríguez-Torres9, Yayoi Segura-Kato9, Humberto García-Ortiz15, Federico Centeno-Cruz15, Francisco Barajas-Olmos15, Lizz Caulkins1, Sobha Puppala16, Pierre Fontanillas6, Amy L Williams17, Sílvia Bonàs-Guarch3, Chris Hartl6, Stephan Ripke5,7,18, Katherine Tooley4,5,6, Jacqueline Lane6,19,20, Carlos Zerrweck21, Angélica Martínez-Hernández15, Emilio J Córdova15, Elvia Mendoza-Caamal15, Cecilia Contreras-Cubas15, María E González-Villalpando22, Ivette Cruz-Bautista23, Liliana Muñoz-Hernández23, Donaji Gómez-Velasco23, Ulises Alvirde23, Brian E Henderson24, Lynne R Wilkens25, Loic Le Marchand25, Olimpia Arellano-Campos23, Laura Riba23, Maegan Harden26, Stacey Gabriel26, Hanna E Abboud27, Maria L Cortes28, Cristina Revilla-Monsalve29, Sergio Islas-Andrade29, Xavier Soberon15, Joanne E Curran30, Christopher P Jenkinson31, Ralph A DeFronzo32, Donna M Lehman33, Craig L Hanis34, Graeme I Bell35,36, Michael Boehnke37, John Blangero30, Ravindranath Duggirala31, Richa Saxena6,19,20, Daniel MacArthur6,7,8, Jorge Ferrer14,38,39, Steven A McCarroll4,5,6, David Torrents3,40, William C Knowler13, Leslie J Baier13, Noel Burtt1, Clicerio González-Villalpando22, Christopher A Haiman25, Carlos A Aguilar-Salinas23, Teresa Tusié-Luna10, Jason Flannick1,2,41, Suzanne B R Jacobs1,2, Lorena Orozco15, David Altshuler2,4,6,8,19,41,42, Jose C Florez43,2,8.   

Abstract

Type 2 diabetes (T2D) affects more than 415 million people worldwide, and its costs to the health care system continue to rise. To identify common or rare genetic variation with potential therapeutic implications for T2D, we analyzed and replicated genome-wide protein coding variation in a total of 8,227 individuals with T2D and 12,966 individuals without T2D of Latino descent. We identified a novel genetic variant in the IGF2 gene associated with ∼20% reduced risk for T2D. This variant, which has an allele frequency of 17% in the Mexican population but is rare in Europe, prevents splicing between IGF2 exons 1 and 2. We show in vitro and in human liver and adipose tissue that the variant is associated with a specific, allele-dosage-dependent reduction in the expression of IGF2 isoform 2. In individuals who do not carry the protective allele, expression of IGF2 isoform 2 in adipose is positively correlated with both incidence of T2D and increased plasma glycated hemoglobin in individuals without T2D, providing support that the protective effects are mediated by reductions in IGF2 isoform 2. Broad phenotypic examination of carriers of the protective variant revealed no association with other disease states or impaired reproductive health. These findings suggest that reducing IGF2 isoform 2 expression in relevant tissues has potential as a new therapeutic strategy for T2D, even beyond the Latin American population, with no major adverse effects on health or reproduction.
© 2017 by the American Diabetes Association.

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Year:  2017        PMID: 28838971      PMCID: PMC5652606          DOI: 10.2337/db17-0187

Source DB:  PubMed          Journal:  Diabetes        ISSN: 0012-1797            Impact factor:   9.461


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