[Comparison of moderate and high volume aerobic training on gene expression of uncoupling protein 1 [UCP-1] in subcutaneous white adipose tissue of wistar rats]

Introduction: The aim of this study was to investigate the effect of moderate and high volume aerobic training on the expression of Uncoupling Protein 1[UCP-1] gene in subcutaneous WAT [sub-WAT]

Materials and Methods: Twenty-four rats were assigned randomly into three groups: 1] control [n=8] 2] moderate-volume aerobic training [n=8] and 3] high-volume aerobic training [n=8]. Subjects of training groups underwent continuous aerobic training on the treadmill for 8 weeks, 5 sessions per week at two different volumes of training. The Real Time-PCR method was used to measure the expression ratio of UCP-1 gene

Results: Data showed that although the expression ratio of UCP1 gene in the moderate volume aerobic training group was significantly higher than control group [P=0.014], its expression ratio in the high volume aerobic training group did not differ significantly from controls [P=0.36]; neither was the gene expression ratio different between moderate and high volume aerobic training groups [P=0.59]

Conclusion: Results indicate that moderate volume aerobic training, had an obvious effect in inducing UCP1 gene expression in subcutaneous adipose tissue, while the high volume aerobic training did not. Thus, increasing the volume of aerobic training to high levels may not be a key factor in promoting the non-shivering theremogenesis of sub-WAT

effect of endurance training in changes of blood lactate and plasma calcitonin gene related peptide levels in type 2 diabetic rats

Streptozotocin-induced type2 diabetes causes functional and metabolic changes in some tissues and subsequently produces some intermediates and substances which enter the circulation. On the other hand, endurance training can modify the amount of these substances. In this study, the effects of diabetes and endurance training on resting levels of blood lactate and plasma calcitonin gene- related peptide [CGRP] were investigated. Fifty rats were divided into 4 groups including control nondiabetic [n=10] training nondiabetic [n=10] nontraining diabetic [n=15] and training diabetic. Diabetes was induced by feeding with high fat diet HFD and injecting STZ. The training groups underwent an endurance training program on treadmill. Blood Lactate concentration was measured by a lactate kit and plasma CGRP concentration was determined by enzyme immunoassay kit [EIA]. In the control nondiabetic, training nondiabetic, nontraining diabetic control and training diabetic groups, the restig values of blood lactate were 2.4, 2.08, 4.5, 3.7 [mmol/L] and plasma CGRP values were 0.40, 0.35, 4.9,3.0 [ng/ml], respectively. Resting levels of circulating lactate and CGRP were higher in diabetic subjects than in control nondiabetic rats and endurance training decreased resting value of blood lactate in diabetic rats but did not change the plasma CGRP. Thus, it seems that the role of endurance training in ameliorating diabetes is due to decreasing resting level of blood lactate, but not plasma CGRP