Abstract
Although (pro)renin receptor (PRR) is highly expressed in the brain, the physiological importance of brain PRR remains to be determined. We previously showed that PRR mRNA levels were up-regulated in the brain regions involved in blood pressure (BP) regulation including the subfornical organs (SFO), paraventricular nuclei (PVN), and rostral ventrolateral medulla (RVLM) in the DOCA-salt-induced hypertensive mice. To elucidate whether the increase of PRR expression contributes to the development of hypertension, we developed a neuron-specific PRR knockout mouse (Nefh-PRR) model by crossing PRR-floxed mice with mice that express Cre-recombinase with neurofilament-H (Nefh-Cre) promoter. Immunostaining showed that PRR expression was significantly reduced in cardiac regulatory brain regions including SFO (0.35± 0.15), PVN (0.34 ± 0.09), and RVLM (0.41 ± 0.1), where the Cre-recombinase was expressed, in Nefh-PRR compared to Nefh-cre mice (1 ± 0.1, 1 ± 0.19 and 1 ± 0.06). Nefh-PRR mice and Nefh-cre mice with wild type PRR gene (WT, n=8/group) were implanted with telemetric probes. BP (mmHg) and heart rate (HR, bpm) were recorded for baseline and following DOCA-salt treatment (50mg DOCA, 0.9%NaCl drinking solution, 21 days). Nefh-PRR mice exhibited normal baseline BP and HR. Following DOCA-salt treatment, BP was significantly lower in Nefh-PRR mice (108 ± 3) compared to WT mice (132 ± 6, P<0.05). The cardiac sympathetic tone (HR response to propranolol, ΔHR: -128±46vs. -180±45) and the vasomotor sympathetic tone (BP response to chlorisondamine, ΔBP: -46 ±17vs.-68± 12) were lower in Nefh-PRR than WT mice after DOCA-salt treatment. Moreover, HR response to methylatropine (ΔHR: 98±38 vs. 43±19) was greater in Nefh-PRR. In addition, DOCA-salt treatment increased plasma vasopressin (AVP) levels (33.6 ± 5.3 vs.3.0 ± 0.3pg/ml) in WT mice. PRR deletion significantly attenuated the increase in plasma AVP levels (19.0 ± 2.0pg/ml) induced by DOCA-salt. The data suggest PRR deletion prevents the development of DOCA-salt hypertension and is associated with reduction of plasma AVP levels and improvement of autonomic function. We conclude that brain PRR may be a novel therapeutic target for the treatment of hypertension.
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