Genome-wide gene-based analyses of weight loss interventions identify a potential role for NKX6.3 in metabolism

Armand Valsesia; Qiao‐Ping Wang; Nele Gheldof; Jérôme Carayol; Hélène Ruffieux; Teleri Clark; Victoria Shenton; Lisa J. Oyston; Grégory Lefebvre; Sylviane Métairon; Christian Chabert; Ondine Walter; Polina Mironova; Paulina Lau; Patrick Descombes; Nathalie Viguerie; Dominique Langin; Mary‐Ellen Harper; Arne Astrup; Wim H. M. Saris; Robert Dent; G. Gregory Neely; Jörg Hager

doi:10.1038/s41467-019-08492-8

Genome-wide gene-based analyses of weight loss interventions identify a potential role for NKX6.3 in metabolism

Armand Valsesia(Nestlé (Switzerland)), Qiao‐Ping Wang(The University of Sydney), Nele Gheldof(Nestlé (Switzerland)), Jérôme Carayol(Nestlé (Switzerland)), Hélène Ruffieux(Nestlé (Switzerland)), Teleri Clark(The University of Sydney), Victoria Shenton(The University of Sydney), Lisa J. Oyston(The University of Sydney), Grégory Lefebvre(Nestlé (Switzerland)), Sylviane Métairon(Nestlé (Switzerland)), Christian Chabert(Nestlé (Switzerland)), Ondine Walter(Nestlé (Switzerland)), Polina Mironova(Nestlé (Switzerland)), Paulina Lau(Ottawa Hospital), Patrick Descombes(Nestlé (Switzerland)), Nathalie Viguerie(Université Toulouse III - Paul Sabatier), Dominique Langin(Université Toulouse III - Paul Sabatier), Mary‐Ellen Harper(University of Ottawa), Arne Astrup(University of Copenhagen), Wim H. M. Saris(Maastricht University Medical Centre), Robert Dent(École Polytechnique Fédérale de Lausanne), G. Gregory Neely(The University of Sydney), Jörg Hager(Nestlé (Switzerland))

Nature Communications

February 1, 2019

10.1038/s41467-019-08492-8

Cited by 1,072Open Access

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Abstract

Hundreds of genetic variants have been associated with Body Mass Index (BMI) through genome-wide association studies (GWAS) using observational cohorts. However, the genetic contribution to efficient weight loss in response to dietary intervention remains unknown. We perform a GWAS in two large low-caloric diet intervention cohorts of obese participants. Two loci close to NKX6.3/MIR486 and RBSG4 are identified in the Canadian discovery cohort (n = 1166) and replicated in the DiOGenes cohort (n = 789). Modulation of HGTX (NKX6.3 ortholog) levels in Drosophila melanogaster leads to significantly altered triglyceride levels. Additional tissue-specific experiments demonstrate an action through the oenocytes, fly hepatocyte-like cells that regulate lipid metabolism. Our results identify genetic variants associated with the efficacy of weight loss in obese subjects and identify a role for NKX6.3 in lipid metabolism, and thereby possibly weight control.

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