1.
Dietary fat may modulate adipose tissue homeostasis through the processes of autophagy and apoptosis.
Camargo, A, Rangel-Zúñiga, OA, Alcalá-Díaz, J, Gomez-Delgado, F, Delgado-Lista, J, García-Carpintero, S, Marín, C, Almadén, Y, Yubero-Serrano, EM, López-Moreno, J, et al
European journal of nutrition. 2017;(4):1621-1628
Abstract
PURPOSE Obesity increases the risk of cardiovascular disease, type 2 diabetes mellitus and cancer development. Autophagy and apoptosis are critical processes for development and homeostasis in multicellular organisms and have been linked to a variety of disorders. We aimed to investigate whether the quantity and quality of dietary fat can influence these processes in the adipose tissue of obese people. METHODS A randomized, controlled trial within the LIPGENE study assigned 39 obese people with metabolic syndrome to 1 of 4 diets: (a) a high-saturated fatty acid diet, (b) a high-monounsaturated fatty acid (HMUFA) diet, and (c, d) two low-fat, high-complex carbohydrate diets supplemented with long-chain n-3 polyunsaturated fatty acids (LFHCC n-3) or placebo (LFHCC), for 12 weeks each. RESULTS We found an increase in the expression of autophagy-related BECN1 and ATG7 genes after the long-term consumption of the HMUFA diet (p = 0.001 and p = 0.004, respectively) and an increase in the expression of the apoptosis-related CASP3 gene after the long-term consumption of the LFHCC and LFHCC n-3 diets (p = 0.001 and p = 0.029, respectively). CASP3 and CASP7 gene expression changes correlated with HOMA index. CONCLUSION Our results suggest that the processes of autophagy and apoptosis in adipose tissue may be modified by diet and that the consumption of a diet rich in monounsaturated fat may contribute to adipose tissue homeostasis by increasing autophagy. They also reinforce the notion that apoptosis in adipose tissue is linked to insulin resistance. CLINICAL TRIAL REGISTRATION NUMBER ClinicalTrials.gov NCT00429195.
2.
Effects of dietary fat modification on oxidative stress and inflammatory markers in the LIPGENE study.
Petersson, H, Risérus, U, McMonagle, J, Gulseth, HL, Tierney, AC, Morange, S, Helal, O, Shaw, DI, Ruano, JA, López-Miranda, J, et al
The British journal of nutrition. 2010;(9):1357-62
Abstract
Subjects with the metabolic syndrome (MetS) have enhanced oxidative stress and inflammation. Dietary fat quality has been proposed to be implicated in these conditions. We investigated the impact of four diets distinct in fat quantity and quality on 8-iso-PGF2α (a major F2-isoprostane and oxidative stress indicator), 15-keto-13,14-dihydro-PGF2α (15-keto-dihydro-PGF2α, a major PGF2α metabolite and marker of cyclooxygenase-mediated inflammation) and C-reactive protein (CRP). In a 12-week parallel multicentre dietary intervention study (LIPGENE), 417 volunteers with the MetS were randomly assigned to one of the four diets: two high-fat diets (38 % energy (%E)) rich in SFA or MUFA and two low-fat high-complex carbohydrate diets (28 %E) with (LFHCC n-3) or without (LFHCC) 1·24 g/d of very long chain n-3 fatty acid supplementation. Urinary levels of 8-iso-PGF2α and 15-keto-dihydro-PGF2α were determined by RIA and adjusted for urinary creatinine levels. Serum concentration of CRP was measured by ELISA. Neither concentrations of 8-iso-PGF2α and 15-keto-dihydro-PGF2α nor those of CRP differed between diet groups at baseline (P>0·07) or at the end of the study (P>0·44). Also, no differences in changes of the markers were observed between the diet groups (8-iso-PGF2α, P = 0·83; 15-keto-dihydro-PGF2α, P = 0·45; and CRP, P = 0·97). In conclusion, a 12-week dietary fat modification did not affect the investigated markers of oxidative stress and inflammation among subjects with the MetS in the LIPGENE study.
3.
The effect of the plasma n-3/n-6 polyunsaturated fatty acid ratio on the dietary LDL phenotype transformation - insights from the LIPGENE study.
Hartwich, J, Malec, MM, Partyka, L, Pérez-Martinez, P, Marin, C, López-Miranda, J, Tierney, AC, Mc Monagle, J, Roche, HM, Defoort, C, et al
Clinical nutrition (Edinburgh, Scotland). 2009;(5):510-5
Abstract
BACKGROUND & AIMS LDL phenotype B is associated with obesity, insulin resistance, hypertriglyceridemia and oxidative stress. The effect of plasma n-3/n-6 PUFA ratio on LDL phenotype transformation was investigated. METHODS Patients with metabolic syndrome (n=99) received one of four isocaloric diets: (A) High-fat (38% energy) SFA-rich diet (HSFA); (B) High-fat (38% energy), MUFA-rich diet (HMUFA); (C), low-fat (LF) (28% energy), high-complex carbohydrate diet with 1.24g/d oleic sunflower oil (LFHCC) and (D): low-fat (28% energy), high-complex carbohydrate diet, with 1.24g/d LC n-3 PUFA (LFHCC n-3) for 12 weeks. Analysis of plasma lipid profile and LDL phenotype was done pre- and post-interventions. RESULTS Post-dietary change of LDL density was a main effect observed in all groups. LFHCC n-3 and HFMUFA diets resulted in favorable alteration of LDL phenotype from B to A and decreased LDL density. In contrast, increased LDL density was observed in HSFA and LFHCC groups. The plasma pre-n3/n6 PUFA, Apo E change and pre-Apo CIII/CII ratios explained in 65% the post-dietary change of LDL density in diet LFHCC n-3 consumers. CONCLUSIONS Study demonstrates efficacy of dietary n-3 PUFA to modify pro-atherogenic to less atherogenic LDL phenotype in patients with metabolic syndrome. Study identifier at ClinicalTrials.gov was NCT00429195.