Yolanda Gómez-Pérez scite author profile

Muscle resistance to insulin plays a key role in the metabolic dysregulation associated to obesity. A pro-inflammatory and pro-oxidant status has been proposed to be the link between dietary obesity and insulin resistance. Given the gender differences previously found in mitochondrial function and oxidative stress, the aim of the present study was to investigate whether this gender dimorphism leads to differences in the development of high-fat-diet-induced insulin resistance in rat skeletal muscle. Male and female rats of 15 months of age were fed with a high-fat-diet (32% fat) for 14 weeks. Control male rats showed a more marked insulin resistance status compared to females, as indicated by the glucose tolerance curve profile and the serum insulin, resistin and adiponectin levels. High-fat-diet feeding induced an excess of body weight of 16.2% in males and 38.4% in females, an increase in both muscle mitochondrial hydrogen peroxide production and in oxidative damage, together with a decrease in the Mn-superoxide dismutase activity in both genders. However, high-fat-diet fed female rats showed a less marked insulin resistance profile than males, higher mitochondrial oxygen consumption and cytochrome c oxidase activity, and a better capacity to counteract the oxidative-stress-dependent insulin resistance through an overexpression of both muscle UCP3 and GLUT4 proteins. These results point to a gender dimorphism in the insulin resistance status and in the response of skeletal muscle to high-fat-diet feeding which could be related to a more detrimental effect of age in male rats.

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Gender Related Differences in Paraoxonase 1 Response to High‐fat Diet‐induced Oxidative Stress

Thomàs-Moyà

Gómez-Pérez

Fiol

et al. 2008

Obesity

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Objective: To evaluate the influence of the pro-oxidant and proinflammatory state related to dietary obesity on serum paraoxonase 1 (PON1) activity in male and female rats. Methods and Procedures: Adult Wistar rats of both genders were fed on a high-fat diet to induce weight gain or standard diet for 14 weeks. Body weight was assessed weekly and food intake fortnightly throughout the dietary treatment. Biometrical parameters and serum lipid profile, glucose, insulin, and adipokine levels were measured. To assess the effect of dietary obesity on oxidative stress, levels of liver and serum thiobarbituric acid reactive substances, liver protein carbonyl groups, liver antioxidant enzymes activities, and serum PON1 activities were measured. Results: High-fat diet feeding induced a significant body weight gain in both male and female rats, as well as a reduction of liver antioxidant protection. High-fat diet increased serum lipid peroxides in male rats and reduced serum PON1 activities and serum apolipoprotein A-I (apoA-I) levels in females, although did not alter serum PON1 or apolipoprotein J (apoJ) levels. Discussion: Our results reveal a gender dimorphism in the high-fat diet-induced reduction of serum PON1 activity, which is likely to be related to the greater obese and proinflammatory state achieved in female rats. We suggest that the enhanced oxidative stress caused by dietary increased body weight, on leading to high-density lipoprotein (HDL), apoA-I or PON1 oxidation could entail the destabilization of the PON1 association to HDL or a direct inactivation of PON1 enzymatic activity, thus accounting for the decreased serum PON1 activities observed in female rats.

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Phytotherapy in a rat model of hyperoxaluria: the antioxidant effects of quercetin involve serum paraoxonase 1 activation

Amengual-Cladera

Nadal-Casellas

Gómez-Pérez

et al. 2011

Exp Biol Med (Maywood)

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Serum paraoxonase 1 (PON1) has been reported to be an important contributor to the antioxidant and anti-inflammatory activities of HDL, avoiding LDL oxidation. The activity of this enzyme is reduced in patients with renal insufficiency, caused by elevated oxidative stress and disturbances of apolipoprotein metabolism. Therapeutic utilization of antioxidants to control renal oxidative stress may be an effective therapy in renal protection. The aim was to investigate the protective effects of several antioxidant compounds against the oxidative stress associated to renal failure induced by ethylene glycol (EG), focusing on the possible role of serum PON1 activity. Fifty-four male Wistar rats were randomly assigned to six groups (n = 9): an untreated control (C) group, an EG-treated group, a catechin (CAT)-treated group, an epicatechin (EPI)-treated group, a quercetin (QUE)-treated group and a folk herbal extract (FHE)-treated group. After 16 d of treatment, calcium oxalate lithiasis was induced in the rats using EG. After eight days (treatment + EG), the animals were sacrificed. EG treatment impaired kidney composition, increased oxidative damage, and decreased serum paraoxonase and arylesterase activities. CAT, QUE and the FHE Fagolitos improved oxidative status by enhancing antioxidant defenses - superoxide dismutase and PON1 activities - and reducing oxidative damage, thus reinforcing the idea of a possible role of PON1 in the protective effects of QUE against the deleterious consequences of oxidative stress in kidney.

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Long-term high-fat-diet feeding induces skeletal muscle mitochondrial biogenesis in rats in a sex-dependent and muscle-type specific manner

et al. 2012

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BackgroundMitochondrial dysfunction is thought to play a crucial role in the etiology of insulin resistance, in which skeletal muscle is the main tissue contributor. Sex differences in skeletal muscle insulin and antioxidant responses to high-fat-diet (HFD) feeding have been described. The aim of this study was to elucidate whether there is a sex dimorphism in the effects of HFD feeding on skeletal muscle mitochondrial biogenesis and on the adiponectin signaling pathway, as well as the influence of the muscle type (oxidative or glycolytic).MethodsGastrocnemius and soleus muscles of male and female Wistar rats of 2 months of age fed with a high-fat-diet (HFD) or a low fat diet for 26 weeks were used. Mitochondrial biogenesis and oxidative damage markers, oxidative capacity and antioxidant defences were analyzed. Serum insulin sensitivity parameters and the levels of proteins involved in adiponectin signaling pathway were also determined.ResultsHFD feeding induced mitochondrial biogenesis in both sexes, but to a higher degree in male rats. Although HFD female rats showed greater antioxidant protection and maintained a better insulin sensitivity profile than their male counterparts, both sexes showed an impaired response to adiponectin, which was more evident in gastrocnemius muscle.ConclusionsWe conclude that HFD rats may induce skeletal muscle mitochondrial biogenesis as an attempt to compensate the deleterious consequences of adiponectin and insulin resistance on oxidative metabolism, and that the effects of HFD feeding are sex-dependent and muscle-type specific.

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Age-Related Decline of Skeletal Muscle Insulin Sensitivity in Rats: Effect of Sex and Muscle Type

Gómez-Pérez

Gianotti

Proenza

et al. 2011

Rejuvenation Research

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Aging is associated with a progressive decline of skeletal muscle function and insulin sensitivity. Sex differences in the insulin response to different physiological situations have been found, leading to the development of type 2 diabetes. The aim of this study was to investigate the changes in insulin sensitivity with age in male and female rats and to elucidate whether there are sex differences in the alteration profiles of systemic insulin sensitivity parameters, adiposity, skeletal muscle oxidative damage, and the insulin signaling pathway. The gastrocnemius and soleus muscles of male and female rats of 3, 9, and 18 months of age were used. The decrease of insulin sensitivity with age was higher in female than in male rats. However, the increase of both serum insulin levels and adiposity with age shows a different profile in both sexes and suggests an earlier onset of age-related impairment of insulin sensitivity in male than in female rats. Sex differences in insulin signaling key protein levels were found mainly in the most aged rats, suggesting that sex differences in these proteins would be manifested at more advanced ages than differences in the insulin-sensitivity serum profile. In addition, the gastrocnemius muscle showed more age-associated oxidative damage and insulin resistance impact than the soleus in both sexes. These results suggest the sex differences found in the impairment of insulin sensitivity of aged rats would not be attributable to differences between sexes in the time course of the levels of key proteins of the skeletal muscle insulin signaling pathway, at least in the first 18 months of life.

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Sex-Dependent Effects of High-Fat-Diet Feeding on Rat Pancreas Oxidative Stress

Gómez-Pérez

Gianotti

Lladó

et al. 2011

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S10.14 Skeletal muscle UCP3 gender dimorphism in high-fat-diet-induced insulin resistance in aged rats

Gómez-Pérez

Amengual-Cladera

Català-Niell

et al. 2008

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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