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Vol. 285, Issue 2, 716-723, May 1998
Cardiology Division, University of Utah Medical Center, Salt Lake
City, Utah
Angiotensin II (A-II) is known to potentiate ischemic dysfunction
during ischemia, but the mechanisms involved are not completely established. We examined the effects of A-II on intracellular calcium
concentration ([Ca++]i) and cell contracture
caused by metabolic inhibition in isolated adult rabbit ventricular
myocytes. [Ca++]i was assessed by flow
cytometry, using the Ca++-sensitive fluorescent probe,
fluo-3. After 90 min of exposure to 2 mM cyanide (CN) and 0 glucose,
there was a significant increase in myocyte
[Ca++]i. This increase was slightly augmented
in the presence of 100 nM A-II. In the presence of partial
Na+/K+ ATP pump inhibition
([K+]o = 0.8 mM), there was a more
significant increase in [Ca++]i associated
with exposure to CN+A-II vs. CN alone. Similar results were
obtained with CN plus 2-deoxyglucose, and the effect of A-II was
inhibited by 10 µM 5-(N-ethyl-N-isopropyl)amiloride. Myocytes exposed
to 2 mM CN and 0 glucose gradually developed contracture over a 3-hr
period. Addition of 100 nM A-II significantly (P < .01) enhanced
loss of rod shape morphology during 3 hr of CN exposure. Partial
inhibition of the Na+ pump by exposure to 0.8 mM
K+ had no effect on myocyte survival in the absence of CN,
but augmented the harmful effect of A-II on cell contracture caused by
CN exposure. This effect of A-II was completely reversed by the
addition of 1 mM amiloride, a Na+/H+ exchange
inhibitor. We conclude that A-II directly enhances cell injury during
CN exposure in isolated rabbit ventricular myocytes. We postulate that
this effect of A-II is mediated by stimulation of
Na+/H+ exchange with resultant increased
[Na+]i and subsequent
[Ca++]i loading, possibly via reverse
Na+/Ca++ exchange.
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