Abstract
The effects of adenosine triphosphate (ATP), adenosine diphosphate (ADP), α,β-methylene-ATP (α,β-MeATP) and 2-methylthio-ATP (2-MeSATP) on longitudinally orientated smooth muscle strips from marmoset urinary bladder were investigated by use of standard organ bath techniques.
After being mounted in superfusion organ baths, 66.7% (n=249) of marmoset detrusor smooth muscle strips developed spontaneous tone, 48.2% of all strips examined developed tone equivalent to greater than 0.1 g mg−1 of tissue and were subsequently utilized in the present investigation.
On exposure to ATP, muscle strips exhibited a biphasic response, a rapid and transient contraction followed by a more prolonged relaxation. Both responses were found to be concentration-dependent. ADP and 2-MeSATP elicited a similar response (contraction followed by relaxation), whereas application of α,β-MeATP only produced a contraction. The potency order for each effect was α,β-MeATP>>2-MeSATP⩾ATP>ADP (contractile response) and ATP=2-MeSATP⩾ADP>>α,β-MeATP (relaxational response).
Desensitization with α,β-MeATP (10 μM) abolished the contractile phase of the response to ATP, but had no effect on the level of relaxation evoked by this agonist. On the other hand, the G-protein inactivator, GDPβS (100 μM) abolished only the relaxation response to ATP. Suramin (general P2 antagonist, 100 μM) shifted both the contractile and relaxation ATP concentration-response curves to the right, whereas cibacron blue (P2Y antagonist, 10 μM) only antagonized the relaxation response to ATP. In contrast, the adenosine receptor antagonist, 8-phenyltheophylline (10 μM), had no effect on the relaxation response curve to ATP.
Incubation with tetrodotoxin (TTX, 3 μM) or depolarization of the muscle strip with 40 mM K+ Krebs failed to abolish the relaxation to ATP. In addition, neither Nω-nitro-L-arginine (L-NOARG, 10 μM) nor methylene blue (10 μM) had any effect on the relaxation response curve. However, tos-phe-chloromethylketone (TPCK, 3 μM), an inhibitor of cyclicAMP-dependent protein kinase A (PKA), significantly (P<0.01) shifted the curve for the ATP-induced relaxation to the right.
It is proposed that marmoset detrusor smooth muscle contains two receptors for ATP, a classical P2X-type receptor mediating smooth muscle contraction, and a P2Y (G-protein linked) receptor mediating smooth muscle relaxation. The results also indicate that the ATP-evoked relaxation may occur through the activation of cyclicAMP-dependent PKA.
Keywords: ATP, marmoset urinary bladder, smooth muscle contraction and relaxation, P2 receptors, suramin, cibacron blue 3GA, cyclicAMP
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