Direct evidence for the presence of a different converting enzyme in the hamster cheek pouch.
KG Cornish, WL Joyner, JP Gilmore - Circulation Research, 1979 - Am Heart Assoc
KG Cornish, WL Joyner, JP Gilmore
Circulation Research, 1979•Am Heart AssocKininase II (angiotensin I-converting enzyme) is generally accepted to be the enzyme
responsible for the conversion of angiotensin I (AI) to angiotensin II (A II). This study
examined the response of the microvasculature of the hamster cheek pouch to the local
application of AI, A II, and the renin substrate, tetradecapeptide (TDP). AI and TDP caused a
localized vasoconstriction that was not blocked by converting enzyme inhibitors (CEI: BPF5a
for AI and BPF5a and the nonapeptide inhibitor for TDP). However, both the A II antagonist …
responsible for the conversion of angiotensin I (AI) to angiotensin II (A II). This study
examined the response of the microvasculature of the hamster cheek pouch to the local
application of AI, A II, and the renin substrate, tetradecapeptide (TDP). AI and TDP caused a
localized vasoconstriction that was not blocked by converting enzyme inhibitors (CEI: BPF5a
for AI and BPF5a and the nonapeptide inhibitor for TDP). However, both the A II antagonist …
Kininase II (angiotensin I-converting enzyme) is generally accepted to be the enzyme responsible for the conversion of angiotensin I (A I) to angiotensin II (A II). This study examined the response of the microvasculature of the hamster cheek pouch to the local application of A I, A II, and the renin substrate, tetradecapeptide (TDP). A I and TDP caused a localized vasoconstriction that was not blocked by converting enzyme inhibitors (CEI: BPF5a for A I and BPF5a and the nonapeptide inhibitor for TDP). However, both the A II antagonist [Sar1, Ala8]angiotensin II and the antiserum to A II blocked completely the A I- and TDP-induced vasoconstriction. Sixty-eight percent of the applied A I was converted to A II in the presence of CEI as well as in its absence. It is concluded that the vasculature of the hamster cheek pouch converts significant amounts of A I to A II by a route that does not involve kininase II.
Am Heart Assoc
