The influence of high salt intake and/or chronic blood volume expansion on renin-angiotensin system in Brattleboro rats

Exogenous central angiotensin fails to stimulate a sodium appetite in diabetes insipidus Brattleboro rats

We investigated the effect of central administration of angiotensin II (AngII) on a specific salt appetite (SSA) in homozygous diabetes insipidus Brattleboro (DI) rats because this stimulus induces such a response in all other rat strains. DI rats have a deficiency in the synthesis of arginine vasopressin (AVP) and a reduced content of pituitary oxytocin (OT). They are characterized also by polyuria, polydipsia, and they seldom ingest high concentrations of NaCl solutions. We also tested if the appetite can be influenced by neurohypophyseal hormones especially oxytocin (OT) because it inhibits SSA in other animals. DI rats and Long Evans (LE) controls were fed ad libitum and given a choice between water, and either 0.9% or 1.8% NaCl. The data showed a significant increase of daily spontaneous water intake in DI compared with LE rats. Both DI and LE ingested similar small spontaneous volumes of the isotonic NaCl solution, but DI rats drank significantly less hypertonic NaCl than the LE controls. I.c.v infusion of AngII induced significant sodium intake in LE rats, but only raised water intake in DI rats. When combined with i.c.v. Ang II, OVT enhanced salt intake in LE animals while AVP attenuated water intake in both groups of rats and blocked NaCl intake completely in LE rats. In conclusion, DI rats did not demonstrate a SSA in response to central administration of AngII, although the drinking of water was enhanced. In combination with i.c.v. AngII, AVP inhibits water drinking in both DI and LE rats. In the LE controls OT attenuates AngII-induced SSA but has no effect in DI rats.

Nitric oxide synthase and renin-angiotensin system gene expression in salt-sensitive and salt-resistant Sabra rats

The molecular mechanisms of salt sensitivity and the contribution of the kidney to salt-induced hypertension in Sabra rats are imperfectly defined. We investigated the expression of the nitric oxide (NO) system (endothelial, inducible, and neural NO synthases) and renin-angiotensin system (renin, angiotensinogen, and angiotensin II type 1A receptor) gene components in the kidneys of SBN/y (salt-resistant) and SBH/y (salt-sensitive) Sabra rat substrains, with and without deoxycorticosterone acetate (DOCA)-salt treatment. We also looked for immunocytochemical evidence of angiotensin II, the effector peptide of the renin-angiotensin system. Inducible and neural NO synthase gene expression values were lower in SBH/y than in SBN/y before and after DOCA-salt treatment. The gene expression level of endothelial NO synthase was not different in SBH/y and SBN/y, either with or without DOCA salt. Renin gene expression was significantly higher in kidneys of SBN/y than in kidneys of SBH/y rats, whereas angiotensinogen gene expression was significantly lower in SBN/y. After DOCA-salt treatment, renin gene expression was strongly suppressed in both strains but more so in SBH/y. Angiotensinogen gene expression, on the other hand, was increased by DOCA salt in SBN/y rats so that the two strains were no longer different. Angiotensin II immunoreactivity was significantly higher in SBN/y than in SBH/y; however, after DOCA salt, immunoreactivity in both strains was no longer detectable. Angiotensin II type 1A receptor gene expression was not different between the two strains, either before or after DOCA-salt administration. We conclude that DOCA salt induced a decrease in the activity of the renin-angiotensin system but did not change NO synthase gene expression in SBH/y and SBN/y. Inducible and neural NO synthase gene expression values were less in SBH/y than in SBN/y, independent of DOCA-salt administration. Thus, the NO system could explain, at least in part, the salt resistance of SBN/y.