BINDING OF ANGIOTENSIN ANTAGONISTS TO RAT-LIVER AND BRAIN MEMBRANES MEASURED EX-VIVO

1 The effects of the angiotensin antagonists GR117289, losartan and Sa r1Ala8-angiotensin 11 on the ex vivo binding of [I-125]-Sar1Ile8-angio tensin II to rat liver and cortex/hippocampus (Cx/H) membranes have be en investigated. 2 GR117289 (0.1-30 mg kg-1, s.c., 2 h pretreatment) c aused a dose-dependent reduction in [I-125-Sar1Ile8-angiotensin II bin ding to both liver and cortex/hippocampus membranes. 3 Administration of a submaximal dose of GR117289 (1 mg kg-1, s.c.) indicated that the peak inhibition of binding in the liver occurred within 0.5 h, whereas the peak inhibition of binding in the Cx/H occurred 2 h after drug tr eatment. 4 The effect of GR 1 17289 was long lasting. Binding was stil l reduced in the Cx/H 48 h after drug treatment (10 mg kg-1, s.c.) but had returned to normal 72 h after drug treatment. In the liver bindin g was still reduced 72 h after treatment with the same dose. 5 Losarta n (1-30 mg kg-1, s.c.) was equipotent with GR 1 17289 in its ability t o reduce liver binding, but was less effective at inhibiting binding t o central receptors. 6 The non-peptide antagonist Sar1Ala8-angiotensin II (3 and 10 mg kg-1) reduced binding in the liver but not in the Cx/ H membranes. 7 These results suggest that, unlike the peptide antagoni st Sar1Ala8-angiotensin II, the non-peptide angiotensin antagonists, G R117289 and losartan, are able to cross the blood brain barrier and oc cupy central angiotensin II receptors.