Rasoul Mohammadi, Hasan Matin Homaee, , Mohammad Ali Azerbaijani, Kazem Baesi,
Volume 16, Issue 1 (1-2017)
Abstract
Background: Cardiomyopathy is a side effect caused by diabetes. Prolonged hyperglycemia gives rise to an increase in the expression of the receiver gene RAGE subsequently triggering pathogenesis cardiac signaling pathways in the heart of rats with type II diabetes. The present paper aims to examine how a 12 week Resistance training on gene expressions RAGE, ICAM, VCAM in the heart of diabetic rats with STZ.
Methods: 16 male Wistar rats with weight mean ranging from 200 ± 20 g were randomly assigned to two groups of Resistance diabetes (n = 8) and control diabetes (n = 8) and were kept under lab circumstances. A 12 week Resistance training was administered with the experimental group and 48 hours after the end of the last training session the rats were made unconscious and examined. Their hearts were, afterwards, cut out and the extent of gene expressions RAGE, ICAM, VCAM in the left ventricular heart was measured using Real time-PCR method.
Results: The results indicated there was a significant difference between left ventricular heart of the Resistance diabetes and that of control diabetes in terms of gene expression RAGE, yet no significant difference was detected between the two groups in terms of gene expressions ICAM, VCAM.
Conclusion: According to the results, in seems that Resistance trainings effectively reduce gene expressions RAGE and reduction pattern but non-significant in the Gene ICAM, VCAM in left ventricular heart of diabetic rats and therefore can be considered an effective way in reducing pathogenesis cardiac signaling pathways in the heart of rats with type II diabetes.
Mohamad Baghadam, Khalid Mohamadzadeh Salamat, Kamal Azizbeidi, Kazem Baesi,
Volume 18, Issue 5 (7-2019)
Abstract
Background: Cardiomyopathy is one of adverse effects of diabetes that associated with cardiac muscle metabolism and function disruption. Exercise training decreases adverse effects of diabetes on heart by changing genes involved in cardiac metabolism and increasing myokines secretion. So, the aim of this study was to investigate of 8 weeks aerobic training on cardiac PGC-1α gene expression and plasma irisin in STZ-induced diabetics’ rats.
Methods: 16 STZ-induced diabetics Wistar rats (10 weeks old) divided into control and aerobic training groups. Time and intensity of exercise session began with 15 minutes and 10 m/min, and gradually increased to 40 minutes and 25 m/min at seventh week and kept to the end of eighth’s week (8 weeks). Cardiac PGC-1α gene expression analyzed by PCR, and plasma concentration of insulin, glucose were analyzed by ELISA method 48 hours after the last session of exercise training. Data were analyzed by independent t test at alpha level of 0/05.
Results: the results showed that aerobic exercise training increased PGC-1α concentration (P<0/001) and plasma irisin (P<0/001). Further analysis showed that aerobic exercise training decreased glucose concentration (P<0/001) and increased insulin concentration (P<0/001), but had no effect of insulin resistance (P=0/79). In addition, the results revealed that there is a positive correlation between PGC-1α and plasma irisin (P<0/001) and insulin (P=0/019), but it has a negative correlation with plasma glucose (P=0/001). There is also a positive significant correlation between isirin and insulin (P=0/001), and a negative correlation between irisin and glucose (P=0/002).
Conclusion: The findings suggest that aerobic exercise training induces increased cardiac PGC-1α gene expression and plasma irisin. These changes have a significant correlation with lowered glucose and increased plasma insulin insulin in STZ-induced diabetics’ rats.