It is well known that the renin-angiotensin system plays a critical role in cardiovascular control and hydro-electrolyte homeostasis. At least in some circumstances Alamandine (Ala) and Angiotensin-(1-7) can have selective actions such as reported in the insular córtex (IC). Hydrolysis of Angiotensin-(1-7) by angiotensin converting enzyme (ACE) can form the heptapeptide Angiotensin-(1-5) and recently our group demonstrated that hydrolysis of Ala by ACE can form Ala-(1-5). In this study we aimed to evaluate the cardiovascular effects produced by microinjection of Ala-(1-5) and Angiotensin-(1-5) into the rostral region of the posterior IC. Urethane (1.4g/kg) anesthetized rats were instrumented for measurement of mean arterial pressure (MAP), heart rate (HR) and renal sympathetic nerve activity (RSNA). Unilateral microinjection of vehicle (0,9% NaCl, 100nL, n=4), Ala (40pmol/100nl, n=7), Ala-(1-5) (400pmol/100nl, n=7) or Angiotensin-(1-5) (400pmol/100nl, n=5) were made into IC (+1.5mm rostral to the bregma). At the baseline, there was no difference between the groups (Vehicle: 85±2 mmHg and 388±5bpm, Ala: 83±9mmHg and 389±10bpm, Ala-(1–5): 91±6mmHg and 386±7bpm or Ang-(1-5): 96±9mmHg and 375±6bpm). Vehicle microinjection was performed as a control for nonspecific effects (ΔMAP:2±1mmHg, ΔHR:4±2bpm, ΔRSNA:3±1%). Ala microinjection into IC, confirmed our previous data showing a long-lasting (18±3min) increase in MAP (Δ=14±2mmHg), and this effect was associated with a significant increase in HR (Δ=32±4bpm) and in RSNA (Δ=36±6%). These responses were elicited immediately after Ala microinjection. When compared with vehicle and, very different from what was observed with Ala, microinjection of Ala-(1–5) evoked a significant increase in blood pressure without altering RSNA or HR (ΔMAP:22±2mmHg, ΔHR:-1±3bpm, ΔRSNA:1±3%). Differently from Ala evoked responses, the effects of Ala-(1–5) had a shorter duration (5.88±1.9min) without delay to beginning the effects. On other hand, microinjection of Angiotensin-(1-5) did not elicited autonomic and cardiovascular effects (ΔMAP:-1±3mmHg, ΔHR:-2±2bpm, ΔRSNA:2±3%). In conclusion, these data showed that the IC is a brain site that has unique effects of Ala (increase in MAP, HR and RSNA) and Ala-(1-5) (increase in MAP only) contrasting with the essentially absent effects of Angiotensin-(1-7) and Angiotensin-(1-5). These findings will contribute to extend our understanding of the brain renin-angiotensin system.
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