SPONTANEOUS RELEASE OF NITRIC-OXIDE INHIBITS ELECTRICAL, CA2+ AND MECHANICAL TRANSIENTS IN CANINE GASTRIC SMOOTH-MUSCLE

1. In canine antrum, rhythmic electrical activity consists of a rapid upstroke phase followed by a plateau depolarization. In response to slow waves, cytosolic Ca2+ ([Ca2+]cyt) and tension increased. 2. Addition of sodium nitroprusside (SNP, 0.5-mu-M) decreased the amplitude of the plateau phase of slow waves without significant effects on the upstroke depolarization. SNP also inhibited changes in [Ca2+]cyt and tension associated with the plateau potential. SNP induced a negative chronotropic effect at concentrations above 0.1-mu-M. 3. Similar to the effects of SNP, illumination of muscles during slow waves with ultraviolet (UV) light caused premature repolarization. UV illumination is known to release NO in some tissues. 4. L-N(G)-monomethyl-arginine (L-NMMA, 300-mu-M), Methylene Blue (MB, 5-mu-M) and oxyhaemoglobin (oxy-Hb, 5-mu-M) increased the force of contractions. In contrast, L-arginine (L-Arg, 300-mu-M) decreased contractile force and antagonized the effects of L-NMMA. 5. During the upstroke phase, SNP caused a small reduction in [Ca2+]cyt and a large reduction in force, suggesting that SNP caused a decrease in Ca2+ sensitivity. 6. In muscles permeabilized by alpha-toxin, cyclic GMP (100-mu-M) and UV illumination inhibited Ca2+-induced contraction (at pCa 5.5). 7. These data suggest that NO or NO-related compounds are spontaneously released in gastric muscles. These agents have two effects on excitation-contraction coupling: (i) inhibition (directly and/or indirectly) of the voltage-dependent Ca2+ channels that participate in the plateau phase of slow waves, and (ii) reduction in the Ca2+ sensitivity of the contractile element.