S-adenosylhomocysteine hydrolases as the primary target enzymes in androgen regulation of methylation complexes

Abstract

tRNA methylation complexes consisting of S-adenosylmethionine (AdoMet) synthetase, tRNA methylases, and S-adenosylhomocysteine (AdoHcy) hydrolase have been prepared from rat Novikoff hepatoma cells. The existence of the ternary enzyme complex is supported by dissociation and reconstitution of the ternany tRNA methylation complexes. In rat prostate and testis, two isozymes each for AdoMet synthetase and AdoHcy hydrolase are detected. The K m (methionine) values for the two AdoMet synthetases are 3.1 and 23.7 μ m and the K m (adenosine) values for the two AdoHcy hydrolases are 0.33 and 1.8 μ m. Correspondingly, two groups of methylation complexes are detectable, sedimenting in a sucrose gradient as 7 S and 8 S. The 7 S complexes are composed of AdoMet synthetase and AdoHcy hydrolase with the higher K m values, and the 8 S complexes are composed of the respective isozymes with the lower K m values. tRNA methylation complexes belong to the 8 S group. In hormone-depleted rat prostates and testes following hypophysectomy, the specific activities of AdoMet synthetases, tRNA methylases, and AdoHcy hydrolases are decreased severely, but are restored promptly after administration of testosterone. Thus, methylation enzymes are responsive to the regulation by steroid hormone. AdoHcy hydrolases from hormone-depleted tissues are unstable, and ternary tRNA methylation complexes are easily dissociable into individual activities. The stability of AdoHcy hydrolases is markedly improved by testosterone, and the integrity of ternary tRNA methylation complexes is maintained in the presence of testosterone. These results suggest that AdoHcy hydrolases are the primary target enzymes in adrogen regulation of methylation complexes.