TY - JOUR
T1 - Preliminary findings on the role of PLIN1 polymorphisms on body composition and energy metabolism response to energy restriction in obese omen
AU - Ruiz, J. R.
AU - Larrarte, E.
AU - Margareto, J.
AU - Ares, R.
AU - Alkorta, P.
AU - Labayen, I.
PY - 2011/8/28
Y1 - 2011/8/28
N2 - The aim of the present study as to investigate the association of PLIN1 11482G>A (rs894160) and PLIN1 13041A>G (rs2304795) polymorphisms ith body composition, energy and substrate metabolism, and the metabolic response to a 12-eek energy-restricted diet in obese omen. The study comprised a total of seventy-eight obese (BMI 34•0 (sd 2•8) kg/m2) omen (age 36•7 (sd 7) years). e measured eight, height and aist circumference before and after a 12-eek controlled energy-restricted diet intervention. Body fat mass and lean mass ere measured by dual-energy X-ray absorptiometry. RMR and lipid oxidation rate ere measured by indirect calorimetry. We also analysed fasting plasma glucose, insulin, cholesterol and leptin. Women carrying the 11482A allele had a lower reduction in waist circumference than non-A allele carriers (3•2 (sd 0•5) v. 4•6 (sd 0•6) %, respectively, P = 0•047; P for gene diet interaction = 0•064). Moreover, women with the 11482A allele had a higher decrease in lipid oxidation rate than non-A allele carriers (58•9 (sd 6•7) v. 31•3 (sd 8•2) %, respectively, P = 0•012; P for genediet interaction = 0•004). There was no interaction effect between the 13041A>G polymorphism and diet-induced changes on the outcome variables (all P>0•1). These results confirm and extend previous findings suggesting that the PLIN1 11482G>A polymorphism plays a modulating role on diet-induced changes in body fat and energy metabolism in obese women.
AB - The aim of the present study as to investigate the association of PLIN1 11482G>A (rs894160) and PLIN1 13041A>G (rs2304795) polymorphisms ith body composition, energy and substrate metabolism, and the metabolic response to a 12-eek energy-restricted diet in obese omen. The study comprised a total of seventy-eight obese (BMI 34•0 (sd 2•8) kg/m2) omen (age 36•7 (sd 7) years). e measured eight, height and aist circumference before and after a 12-eek controlled energy-restricted diet intervention. Body fat mass and lean mass ere measured by dual-energy X-ray absorptiometry. RMR and lipid oxidation rate ere measured by indirect calorimetry. We also analysed fasting plasma glucose, insulin, cholesterol and leptin. Women carrying the 11482A allele had a lower reduction in waist circumference than non-A allele carriers (3•2 (sd 0•5) v. 4•6 (sd 0•6) %, respectively, P = 0•047; P for gene diet interaction = 0•064). Moreover, women with the 11482A allele had a higher decrease in lipid oxidation rate than non-A allele carriers (58•9 (sd 6•7) v. 31•3 (sd 8•2) %, respectively, P = 0•012; P for genediet interaction = 0•004). There was no interaction effect between the 13041A>G polymorphism and diet-induced changes on the outcome variables (all P>0•1). These results confirm and extend previous findings suggesting that the PLIN1 11482G>A polymorphism plays a modulating role on diet-induced changes in body fat and energy metabolism in obese women.
KW - Diet
KW - Energy restriction
KW - Lean body mass
KW - Obesity
KW - Perilipin gene polymorphisms
UR - http://www.scopus.com/inward/record.url?scp=80052967735&partnerID=8YFLogxK
U2 - 10.1017/S0007114511000432
DO - 10.1017/S0007114511000432
M3 - Article
C2 - 21392418
AN - SCOPUS:80052967735
SN - 0007-1145
VL - 106
SP - 486
EP - 490
JO - British Journal of Nutrition
JF - British Journal of Nutrition
IS - 4
ER -