The present study was designed to determine whether there are beneficial effects of intake of Omega-3E (containing 70% pure omega-3 and 2% natural vitamin E) in cardiac dysfunction of diabetic rats. We also examined whether there are gender-related differences in the responses to the intake of Omega-3E on the heart dysfunction. Experiments were performed by using Langendorff-perfused hearts from normal, diabetic (with 50 mg/kg streptozotocin), and Omega-3E (50 mg/kg body weight/day) treated diabetic 3-month-old Wistar rats. Omega-3E treatment of the diabetics caused small, but significant decrease (13% and 14% female versus male) in the blood glucose level. Omega-3E treatment of the diabetic female rats did not prevent diabetes-induced decrease in left ventricular developed pressure (LVDP) and increase in left ventricular end-diastolic pressure (LVEDP) with respect to the control female rats. On the other hand, the treatment of diabetic male rats caused significant recovery in depressed LVDP. Furthermore, such treatment of diabetic female and male rats caused significant recovery in depressed rates of changes of developed pressure. This effect was more significant in males. Besides, Omega-3E caused significant further lengthening in the diabetes-induced increased time to the peak of the developed pressure in females, while it normalized the lengthening in the relaxation of the developed pressure in diabetic males. In addition, Omega-3E treatment caused significant restorations in the diabetes-induced altered activities of antioxidant enzymes without any significant gender discrepancy. Present data show that there are gender related differences in diabetic heart dysfunction and the response to antioxidant treatment.
In heart disease, differences exist between women and men with respect to the impact of risk factors, symptoms, and therapeutic responses. The use of beta-adrenergic receptor blockers is now well established in the treatment of mild and moderate systolic heart failure. Although there are significant differences among agents, their clinical effects are predictable. To address the question of sex disparities in the heart, however, we investigated the effect of treatment with the nonselective beta-blockers timolol and propranolol on mechanical and electrical function of heart preparations from male and female rats. We examined the long-term effects of intragastric treatment with timolol (5 mg/kg per day) or propranolol (25 mg/kg per day) for 7 months on the hemodynamic and intracellular action potential parameters of the heart. Chronic administration of timolol but not propranolol produced a significant increase in the baseline activity of the left ventricular developed pressure (LVDP) in both male and female rats with no significant effect on the left ventricular end-diastolic pressure. Timolol or propranolol treatment of male rats and timolol but not propranolol treatment of female rats induced significant shortening in the repolarization phases of action potentials recorded from left ventricular papillary muscle strips of the hearts. The responses of LVDP to beta-adrenergic stimulation were similar in timolol- or propranolol-treated or untreated male rats. On the other hand, timolol treatment markedly increased, and propranolol treatment significantly decreased, the responses of increase in LVDP in female rats. Our results suggest that although treatment with beta-blockers for 7 months confirmed the role of the beta-adrenergic pathway in heart function, there are marked differences in the effects of individual beta-blockers on heart physiology. Sex differences should be taken into consideration when using beta-blockers during experimental studies and clinical therapy.
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