Exercise training restores weight gain and attenuates hepatic inflammation in a rat model of non-celiac gluten sensitivity.

Gluten intolerance is associated with several disorders in the body. Although research has grown in recent years, the understanding of its impact on different tissues and the effects of physical exercise in mitigating health problems in the condition of gluten intolerance are still limited. Therefore, our objective was to test whether gliadin would affect metabolism and inflammation in liver tissue and whether aerobic physical exercise would mitigate the negative impacts of gliadin administration in rodents. Wistar rats were divided into exercised gliadin, gliadin, and control groups. Gliadin was administered by gavage from birth to 60 days of age. The rats in the exercised gliadin group performed an aerobic running exercise training protocol for 15 days. At the end of the experiments, physiological, histological, and molecular analyzes were performed in the study. Compared to the control group, the gliadin group had impaired weight gain and increased gluconeogenesis, lipogenesis, and inflammatory biomarkers in the liver. On the other hand, compared to the gliadin group, animals in the exercise-gliadin group had a recovery in body weight, improved insulin sensitivity, and a reduction in some gluconeogenesis, lipogenesis, and inflammatory biomarkers in the liver. In conclusion, our results revealed that the administration of gliadin from birth impaired weight gain and induced an increase in hepatic inflammatory cytokines, which was associated with an impairment of glycemic homeostasis in the liver, all of which were attenuated by adding aerobic exercise training in the gliadin group.

Resistance exercise attenuates IKKε phosphorylation and hepatic fat accumulation of obese mice.

Obesity is associated with low-grade inflammation and disturbances in hepatic metabolism. This study aimed to investigate the effects of resistance exercise on inflammatory signalling related to IκB kinase (IKK) ɛ protein (IKKɛ) and on hepatic fat accumulation in obese mice. Male Swiss mice were distributed into three groups: control (CTL) fed with standard chow; obese (OB) mice induced by a high-fat diet (HFD); obese exercised (OB + RE) mice fed with HFD and submitted to a resistance exercise training. The resistance exercise training protocol consisted of 20 sets/3 ladder climbs for 8 weeks, three times/week on alternate days. The training overload was equivalent to 70% of the maximum load supported by the rodent. Assays were performed to evaluate weight gain, hepatic fat content, fasting glucose, insulin sensitivity, IKKɛ phosphorylation and proteins related to insulin signalling and lipogenesis in the liver. Mice that received the high-fat diet showed greater adiposity, impaired insulin sensitivity, increased fasting glucose and increased hepatic fat accumulation. These results were accompanied by an increase in IKKɛ phosphorylation and lipogenesis-related proteins such as cluster of differentiation 36 (CD36) and fatty acid synthase (FAS) in the liver of obese mice. In contrast, exercised mice showed lower body weight and adiposity evolution throughout the experiment. In addition, resistance exercise suppressed the effects of the high-fat diet by reducing IKKɛ phosphorylation and hepatic fat content. In conclusion, resistance exercise training improves hepatic fat metabolism and glycaemic homeostasis, which are, at least in part, linked to the anti-inflammatory effect of reduced IKKɛ phosphorylation in the liver of obese mice.

Potential therapeutic effects of green tea on obese lipid profile - a systematic review.

Background: Green tea, obtained from the plant Camellis sinensis, is one of the oldest drinks in the world and contains numerous bioactive compounds. Studies have demonstrated the efficacy of green tea in preventing obesity and cardiovascular diseases that may be related to the reduction of lipid levels. Aim: This study aimed to evidence, through a systematic review, the therapeutic potential of green tea on the lipid profile in preclinical studies in obese animals and clinical studies in obese individuals. Methods: This systematic review follows the recommendations of the preferred report items for systematic reviews and meta-analyses. The electronic databases, PubMed (Medline), Science Direct, Scopus, and Web of Science were consulted. Articles from January 2009 to December 2019 were selected. Results: This search resulted in twenty-nine articles were included cirtically reviewed. In experimental studies, green tea administration has been shown to reduce total cholesterol, triglycerides and low-density lipoprotein cholesterol in animals exposed to obesity-inducing diet. In humans' studies green tea was not shown to be effective for obese lipid control. Because supplementation with green tea extract reduced total cholesterol, triglycerides, low-density lipoprotein for three months at a specific dose. Conclusion: Therefore, green tea appears to act as a protective agent for dyslipidemia in obesity-induced animals. In human studies, green tea has not been shown to be effective in controlling obese lipids.

Dyslipidemia Secondary to the Use of HAART in Adults: A Systematic Review.

BACKGROUND: HIV infection affects millions of people globally. Currently, although several drugs have brought an improvement in the quality and life expectancy of these individuals, they are accompanied by several adverse effects. OBJECTIVE: To conduct a systematic review of studies examining the relationship between antiretroviral therapy (ART) uses and secondary dyslipidemia. METHODS: The review followed the criteria defined by PRISMA. Only articles that completely evaluated the lipid profile were included, which consisted of total cholesterol (TC), triglycerides (TG), and LDL cholesterol (LDL-c), HDL cholesterol (HDL-c). RESULTS: It was observed that the use of nucleoside and non-nucleoside reverse transcriptase inhibitor (NNRTI and NNRTI respectively) drugs and protease inhibitors are the most used in ART and are associated with changes in lipid profiles. The main changes observed were increases in TC, TG, and LDL-c in addition to a decrease in HDL-c. These patients had a higher risk of developing cardiovascular disease not only due to the use of therapy, but also due to the presence of other comorbidities evaluated in these studies, such as obesity, diabetes, and hypertension. The increase in age, the difference between genders, CD4 T-cell count, and viral load, were observed as risk factors for worsening dyslipidemia. CONCLUSION: According to the findings of this study, anti-HIV therapy is linked to dyslipidemia, which may or may not be the primary cause, and is frequently connected with a number of metabolic problems that can exacerbate the illness.

12,13-diHOME as a new therapeutic target for metabolic diseases.

Lipokines are bioactive compounds, derived from adipose tissue depots, that control several molecular signaling pathways. Recently, 12,13-dihydroxy-9Z-octadecenoic acid (12,13-diHOME), an oxylipin, has gained prominence in the scientific literature. An increase in circulating 12,13-diHOME has been associated with improved metabolic health, and the action of this molecule appears to be mediated by brown adipose tissue (BAT). Scientific evidence indicates that the increase in serum levels of 12,13-diHOME caused by stimuli such as physical exercise and exposure to cold may favor the absorption of fatty acids by brown adipose tissue and stimulate the browning process in white adipose tissue (WAT). Thus, strategies capable of increasing 12,13-diHOME levels may be promising for the prevention and treatment of obesity and metabolic diseases. This review explores the relationship of 12,13-diHOME with brown adipose tissue and its role in the metabolic health context, as well as the signaling pathways involved between 12,13-diHOME and BAT.

Mitochondrial dysfunction plays an essential role in remodeling aging adipose tissue.

Aging is characterized by several physiological changes in the human body, such as the remodeling/redistribution of body fat, highlighted by the increase in fat in the abdominal region due to reduced fat in the peripheral limbs. Abdominal fat is related to metabolic complications and an increased risk for developing diseases such as obesity, type 2 diabetes mellitus, and hypertension. Understanding this process is crucial for developing new therapeutic strategies able to mitigate its impact. This redistribution of fat has been associated with lower activation of brown adipose tissue over the years of life. Brown adipose tissue differs from white adipose tissue, mainly because it produces heat, increasing energy expenditure. Current evidence points to morphological and functional changes in mitochondria during aging, a key mechanism for understanding the dysmetabolic and pro-inflammatory phenotype associated with senescence. Therefore, this minireview will focus on how aging-induced mitochondrial changes are involved in the remodeling/redistribution of body fat.