Abstract
MAGALHAES, F.C. Role of the renin-angiotensin system on the erythropoietic adaptations induced by aerobic exercise training. 82 pages. Doctoral Thesis School of Physical Education and Sport, University of Sao Paulo, Sao Paulo, 2011. Physical training (PT) promotes changes in the hematopoietic system and the NH2-terminal active site of angiotensin-converting enzyme I (ACE) hydrolyzes a tetrapeptide, negative hemoregulador, the acetyl-seryl-aspartyl-lysyl-proline (Ac-SDKP). The purpose of this study was to investigate whether the NH2-terminal active site of ACE plays a role in the hematopoietic changes induced by PT. We conducted two series of experiments. The first in prder to determine which PT protocol would be more appropriate to study the erythropoietic adaptations and the second to study the role of the NH2-terminal site of ACE in these adaptations. Experiment series 1: female Wistar rats were divided into 3 groups: control (C), submitted to PT (60 min/d, 5d/week) for 10 weeks once a day (T1) and submitted to the same TF for 8 weeks, followed by a week 2 times a day and a week 3 times a day (T2). Experiment series 2: female Wistar rats were divided into four groups: control (C), control treated with captopril (10 mg.kg-1.day-1) (C-Cap), trained under the protocol T2 (T2) and trained under protocol T2 treated with captopril (Cap-T2). We measured: 1) blood pressure (BP) and heart rate, 2) cardiac hypertrophy and citrate synthase activity, 3) the maximum oxygen consumption, exercise time and distance in maximal test, 4) catalytic activity ACE terminals, 5) plasma and bone marrow extracellular fraction concentration of Ac-SDKP, 6) the number and proliferation of hematopoietic stem cells (HSC) in the blood and marrow, 8) reticulocytosis and erythrocyte life-spam. The observed differences presented p <0.05. Experiment series 1: T2 protocol induced greater physiological, morphological and functional compared to T1. T2 protocol was effective in causing changes in the erythropoietic system such as increase the number and proliferative capacity of HSC, the percentage of reticulocytes and reduced erythrocyte life-spam. The protocol T2 increased the catalytic activity of the NH2-terminal site of ACE and decreased plasma and bone marrow extracellular fraction concentration of Ac-SDKP, which was not observed in T1. Experiment series 2: the T2 group showed an increase in the activity of the NH2-terminal ACE, which was inhibited in group T2-Cap. Inhibition of the NH2-terminal site of ACE did not influence or affect the BP responses to training. The T2 group showed a reduction in plasma and bone marrow extracellular fraction of Ac-SDKP, whereas in the T2-Cap there was no reduction of AcSDKP in plasma and there was attenuation of the reduction in the extracellular fraction of bone marrow. There was an increase in the number and proliferation of HSC in bone marrow and blood in the T2 group and this increase was partially inhibited in group T2-Cap. There was an increase in reticulocytosis in group T2 and partial inhibition of the increase in T2-Cap group. The erythrocyte life-spam was reduced by 50% in T2, while in the T2-Cap group there was attenuation of the reduction. We conclude that the training protocol T2 stimulates hematopoiesis by increasing the activity of the NH2-terminal site of ACE, an increase that inactivates the tetrapeptide Ac-SDKP.
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