Sa. Katz et al., ACTIVE RENIN AND RENIN GLYCOFORM DYNAMICS IN THE CAROTID-ARTERY, American journal of physiology. Heart and circulatory physiology, 40(1), 1996, pp. 184-191
Active renin and five major active renin glycoforms were measured in p
lasma and the carotid wall of anesthetized rabbits before and after 1.
5 and 24-h bilateral nephrectomy (BNX). Before BNX, there was no diffe
rence in renin glycoform proportions between plasma and the carotid wa
ll. Plasma renin concentration (PRC) fell by 67% after 1.5-h BNX due t
o preferential clearance of renin glycoforms I+II, but no significant
change in renin concentration was seen in the carotid artery (or aorta
). Twenty-four hours after BNX, PRC and carotid wall renin concentrati
ons were reduced by 99.7 and 97.7%, respectively, while the proportion
of renin glycoforms I+II in the carotid wall was significantly elevat
ed. These data are consistent with the view that vascular renin is der
ived from plasma renin of renal origin. After BNX, renin disappearance
from the carotid (and aortic wall) is slower than renin decay from pl
asma, and the less negatively charged active renin glycoforms I+II exi
t the carotid wall much more slowly than the more negatively charged g
lycoforms. After 24-h BNX, renin glycoforms I+II were still effluxing
from the vascular wall and represented the only glycoforms present in
the carotid wall.