Conversion of arachidonic acid to prostaglandins in homogenates of human skeletal muscle and kidney

Abstract

The capacity of human skeletal muscle and kidney homogenates to synthetize prostaglandins (PGs) from exogenous precursor was investigated. Low–speed supernatants of muscle as well as renal medullary and cortical homogenates were incubated with ¹⁴C–labelled arachidonic acid (¹⁴C–AA) prepared as a sodium salt. ¹⁴C–PGs in the incubates were extracted, separated with thin–layer chromatography (TLC) and quantified by radioscanning. In the skeletal muscle incubates ¹⁴C–AA was converted into ¹⁴C–PGs with a time–dependent yield, most effectively after 10–15 min incubation. Well–defined radiopeaks parallel to unlabelled standards of PGD₂, PGE₂, PGF_2α and 6–keto–PGF_1α were obtained in the chromatograms. PGE₂ was the main PG formed, constituting over 50% of ¹⁴C–activity, whereas 6–keto–PGF_1α, PGD₂ and PGF_2α were found in considerably lower proportions. In the renal medullary incubates, PGE₂ likewise accounted for the largest part of ¹⁴C–PGs formed, but significant relative amounts of PGF_2α and PGD₂ were also found. A minor peak, corresponding to 6–keto–PGF,_a and thus indicating formation of PGI₂, was also obtained. In contrast to the medulla, no ¹⁴C–PGs could be found in the renal cortical incubates. The results demonstrate the existence of a considerable tissue specificity in the quantitative and qualitative expression of PG biosynthesis in man.