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Vol. 281, Issue 2, 670-676, 1997
Laboratory of Cardiovascular Biochemistry (J.G., S.M.-D.) and
Laboratory of Cell Biology of Hypertension (J.T.), Centre de Recherche
Hótel-Dieu de Montréal and Université de
Montréal, Marie-de-la-Ferre Pavilion, Montreal, Quebec H2W 1T8,
Canada
It is generally thought that the cardiovascular and renal effects of
clonidine, an alpha-2 adrenergic agonist, are mediated by central mechanisms. Our previous work has shown that diuresis and
natriuresis caused by central administration of clonidine are mediated
by an enhanced release of atrial natriuretic factor (ANF). Because
clonidine has been shown to have peripheral actions the objective of
the present study was to determine whether ANF is also involved in
these actions. Studies were performed with use of a structural
clonidine analog, ST-91, which does not cross the blood-brain barrier.
Intravenous injection of various doses (0-250 µg/rat) of ST-91 into
conscious, normally hydrated female Sprague-Dawley rats (200-250 g)
produced dose-related increases in urinary output, which were
accompanied by significant increases in urinary sodium, potassium and
cGMP excretion. Compared with saline, the highest dose of ST-91 (250 µg/rat) during the first hour of treatment significantly (P < .001, n = 18) enhanced urinary output (0.2 ± 0.1 vs. 3.0 ± 1.1 ml/h) and excretion of sodium (28 ± 4 vs. 345 ± 50 µmol/h), potassium
(10 ± 4 vs. 165 ± 37 µmol/h) and cGMP
(191 ± 29 vs. 1340 ± 322 pmol/h), the
biological marker of ANF. These renal responses were associated with
increased plasma ANF (59 ± 7 vs. 810 ± 28 pg/ml, P < .001, n = 12), measured 10 min
after ST-91 (250 µg/rat), which remained elevated for at least 1 h (P < .01, n = 6). The enhanced renal
responses that were induced by 10 µg ST-91 were partially, yet
significantly inhibited by yohimbine (50 µg), an
alpha-2 antagonist. On the other hand, efaroxan (500 µg), an I1 imidazoline receptor antagonist, showed a
stronger inhibitory effect, whereas naloxone (0.8 mg) had no effect.
Pretreatment of rats with anti-ANF reduced the diuretic and natriuretic
effects of ST-91. These results indicate that the renal effects of
ST-91 are mediated by imidazoline as well as by alpha-2
adrenergic receptors, but not by opioid receptors. Furthermore, the
renal effects evoked by ST-91 are mediated by ANF.
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