Abstract
Cyclic GMP and cyclic AMP levels in eight different rat tissues were examined after animlas were immersed in liquid nitrogen. In order of decreasing concentration, cerebellu, kidney, lung and cerebral cortex contained the greatest quantities fo cyclic GMP. These tissues also contained relatively high concentrations of cyclic AMP. Compared to values in animals which were sacrificed in liquid nitrogen, levels of both nucleotides in many of the tissues examined were altered by decapitation or anesthesia with ether and pentobarbital. Decapitation increased the levels of both cyclic GMP and cyclic AMP in cerebellum, lung, heart, liver and skeletabl muscle. However, decapitation increased only cyclic AMP in cerebral cortex and kidney. Our previously reported high level of cyclic GMP in lung was attributed to ether anesthesia and surgical removal which increased the cyclic GMP content in lung, heart, testis and skeletal muscle. The effect of ether on cyclic GMP levels in lung and heart was blocked by pretreatment of animals with atropine which indicated that cholinergic agents increase cyclic GMP content in these tissues. Acetylcholine and carbachol in the presence of theophylline increased the accumulation of cyclic GMP in incubations of rat lung minces. Increases in cyclic GMP and cyclic AMP levels in cerebellum with ether anesthesia were prevented if rats were immersed in liquid nitrogen after anesthesis with ether. Anesthesia with pentobarbital decreased the levels of cyclic GMP in cerebellum and kidney and increased the nucleotide in heart, liver, testis and skeletal muscle compared to levels in tissues from animals immersed in liquid nitrogen. However, pentobarbital increased cyclic AMP levels in cerebellum and cerebral cortex and decreased the nucleotide in liver, kidney, testis and skeletal muscle. These studies provide a possible explanation for the variability in in vivo levels of cyclic GMP and cyclic AMP which have been previously reported. In addition, these studies support the hypothesis that the synthesis and degradation of cyclic AMP and cyclic GMP are regulated independently and not necessarily in a parallel or reciprocal manner. These studies also suggest that the increase accumulation of one cyclic nucleotide has no major effect on the synthesis and/or metabolism of the other; however, such interactions cannot be entirely excluded from the results of this study.
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More From: Biochimica et Biophysica Acta (BBA) - General Subjects
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