RESUMO
Obesity is a relevant health public issue and is the main factor for glucose metabolism dysregulation and diabetes progression; however, the differential role of a high-fat diet or high sugar diet consumption on glucose metabolism and insulin processing is not well understood and has been scarcely described. Our research aimed to analyze the effects of chronic consumption of both high sucrose and high-fat diets on glucose and insulin metabolism regulation. Wistar rats were fed with high-sugar or high-fat diets for 12 months; after that, fasting glucose and insulin levels were measured along with a glucose tolerance test (GTT). Proteins related to insulin synthesis and secretion were quantified in pancreas homogenates, whereas islets were isolated to analyze ROS generation and size measurement. Our results show that both diets induce metabolic syndrome, linked with central obesity, hyperglycemia, and insulin resistance. We observed alterations in the expression of proteins related with insulin synthesis and secretion, along with diminution of Langerhans islets size. Interestingly, the severity and number of alterations were more evident in the high-sugar diet than in the high-fat diet group. In conclusion, obesity and glucose metabolism dysregulation induced by carbohydrate consumption, led to worst outcomes than high-fat diet.
RESUMO
Pollution is considered a risk factor for cardiovascular disease; however, the mechanisms to explain this relationship are not well understood; ozone is one of the most abundant and studied air contaminants. Our study aimed to evaluate the effect of chronic exposition of rats to controlled low doses of ozone on oxidative stress, apoptosis, mitochondrial dynamics, and cardiac hypertrophy. Male Wistar rats were daily exposed to low ozone doses during 7, 15, 30, and 60 days, 4 h/day. Hearts were dissected, and homogenates were prepared. Oxidative stress was evaluated by TBARS and protein nitrosylation in addition to Superoxide dismutase 1 (SOD1) and Catalase levels; the apoptosis related-proteins caspase 3, caspase 9, Bax, Bcl-2, and the mitochondrial dynamic-associated proteins Fis1, Drp1, OPA1, and Mfn1 were quantified by western blot among the cardiac hypertrophy indicator alpha-actin (cardiac actin). There were no changes in the oxidative stress markers, however SOD1 expression increases. Caspase 3 expression decreased, whereas caspase 9 increased without changes in Bax or Bcl-2. Mitochondrial fission may be favored according to the increased expression of Drp1 but not changes in fusion-related proteins OPA1 and Mfn1. Finally, the molecular marker for cardiac hypertrophy was overexpressed after 30 and 60 days of ozone exposition. The chronic exposition to ozone induces a deleterious effect on cardiac mitochondria. Antioxidant defenses also show changes in relation to exposure time, as well as an apparent pro-hypertrophic effect associated with altered mitochondrial dynamics.
