Activation of kidney guanylate cyclase by cobalt.

Guanylate cyclase activity and cyclic nucleotide content were studied in individual slices from guinea pig kidneys. Basal guanylate cyclase activity, assayed in homogenates or in particulate fractions (100,000g × 1 h), and the tissue content of cGMP and cAMP were greater in the inner than in the outer (entirely cortical) slices. The fraction of guanylate cyclase activity recovered in the supernatant was greater in the cortex. Taurodeoxycholate increased activity of the particulate cyclase but decreased that of the supernatant enzyme. Activity of the particulate was increased ca. 200% and that of the supernatant >500% by 1 mm NaN₃. Supernatant activity was markedly increased by 0.1 mm Co²⁺, which had no effect on the particulate enzyme. (Incubation of kidney slices with 2 mm Co²⁺ did not alter their cGMP content, but caused a small increase in the cAMP content of slices containing medullary tissue.) Basal guanylate cyclase activity in fresh supernatants increased linearly with pH from 5.9 to 9, whereas in the presence of Co²⁺ there was a clear maximum at pH 7.3 to 7.5. Incubation of fresh supernatant fractions at 37 °C for 3 h increased guanylate cyclase activity and abolished Co²⁺ activation. The relationship between Co²⁺ activation and that resulting from incubation remains to be defined. It seems probable, however, that these phenomena reflect regulatory properties of the supernatant guanylate cyclases of kidney and other tissues.