Abstract
Background Aerobic exercise has been proven to have a positive effect on cardiac function after hypertension; however, the mechanism is not entirely clarified. Skeletal muscle mass and microcirculation are closely associated with blood pressure and cardiac function. Objective This study was designed to investigate the effects of aerobic exercise on the skeletal muscle capillary and muscle mass, to explore the possible mechanisms involved in exercise-induced mitigation of cardiac dysfunction in pressure overload mice. Methods In this study, 60 BALB/C mice aged 8 weeks were randomly divided into 3 groups: control (CON), TAC, and TAC plus exercise (TAE) group and utilized transverse aortic constriction (TAC) to establish hypertensive model; meanwhile, treadmill training is used for aerobic exercise. After 5 days of recovery, mice in the TAE group were subjected to 10-week aerobic exercise. Carotid pressure and cardiac function were examined before mice were executed by Millar catheter and ultrasound, respectively. Muscle mass of gastrocnemius was weighed; cross-sectional area and the number of capillaries of gastrocnemius were detected by HE and immunohistochemistry, respectively. The mRNA and protein levels of VEGF in skeletal muscle were determined by RT-PCR and western blot, respectively. Results We found that ① 10-week aerobic exercise counteracted hypertension and attenuated cardiac dysfunction in TAC-induced hypertensive mice; ② TAC decreased muscle mass of gastrocnemius and resulted in muscle atrophy, while 10-week aerobic exercise could reserve transverse aortic constriction-induced the decline of muscle mass and muscle atrophy; and ③ TAC reduced the number of capillaries and the protein level of VEGF in gastrocnemius, whereas 10-week aerobic exercise augmented the number of capillaries, the mRNA and protein levels of VEGF in mice were subjected to TAC surgery. Conclusions This study indicates that 10-week aerobic exercise might fulfill its blood pressure-lowering effect via improving skeletal muscle microcirculation and increasing muscle mass.
Highlights
Hypertension is a potential risk factor for cardiovascular disease [1]; long-standing elevated blood pressure induces cardiac remodeling and dysfunction, including left ventricular hypertrophy (LVH) and reduced ejection fraction (EF), leading to heart failure [2, 3]
Establishment of Pressure Overload Mice Model. e pressure overload mice model was established by transverse aortic constriction (TAC) surgery or sham operation according to previous studies [23, 24]
Consistent with previous studies, we demonstrated that aerobic exercise lasting for 10 weeks effectively prevented the elevated blood pressure in TAC-induced hypertensive mice; exercise attenuated cardiac dysfunction and mitigated TAC-induced pathological ventricular remodeling, which suggested that aerobic exercise was an effective intervention for hypertension and prevented the development of heart failure
Summary
Hypertension is a potential risk factor for cardiovascular disease [1]; long-standing elevated blood pressure induces cardiac remodeling and dysfunction, including left ventricular hypertrophy (LVH) and reduced ejection fraction (EF), leading to heart failure [2, 3]. Aerobic exercise has been proven to have a positive effect on cardiac function after hypertension; the mechanism is not entirely clarified. Skeletal muscle mass and microcirculation are closely associated with blood pressure and cardiac function. Is study was designed to investigate the effects of aerobic exercise on the skeletal muscle capillary and muscle mass, to explore the possible mechanisms involved in exercise-induced mitigation of cardiac dysfunction in pressure overload mice. 60 BALB/C mice aged 8 weeks were randomly divided into 3 groups: control (CON), TAC, and TAC plus exercise (TAE) group and utilized transverse aortic constriction (TAC) to establish hypertensive model; treadmill training is used for aerobic exercise. Is study indicates that 10-week aerobic exercise might fulfill its blood pressure-lowering effect via improving skeletal muscle microcirculation and increasing muscle mass Conclusions. is study indicates that 10-week aerobic exercise might fulfill its blood pressure-lowering effect via improving skeletal muscle microcirculation and increasing muscle mass
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