Inhibition of S-adenosyl-L-methionine sterol-C-24-methyltransferase by analogues of a carbocationic ion high-energy intermediate. Structure activity relationships for C-25 heteroatoms (N, As, S) substituted triterpenoid derivatives.

Microsomes from maize seedlings are capable of catalyzing the C-24 alkylation of 4,4,14 alpha-trimethyl-9 beta,19-cyclo-5 alpha-cholest-24-en-3 beta-ol (cycloartenol) by (S)-adenosyl-L-methionine (AdoMet) leading to 24-methylene cycloartanol. Derivatives of cycloartenol bearing a nitrogen atom at C-25 have been previously shown to be potent inhibitors of the AdoMet-cycloartenol-C-24-methyltransferase (Narula, A. S., Rahier, A., Benveniste, P., and Schuber, F. (1981) J. Am. Chem. Soc. 103, 2408-2409). In order to determine the molecular parameters of the inhibition and to gain information about its mechanism, various azasteroids and analogues have been synthesized and assayed. The following results have been obtained. i) The presence of a positive charge at position 25 was found to be the major cause of the inhibition since electrostatically neutral isosteric compounds possessing a carbon in place of the nitrogen atom were not inhibitory. The positive charge leading to inhibition may be conferred by a protonated amine, a quaternary ammonium group, as well as by a sulfonium or an arsonium group. ii) A steroid-like structure of the inhibitor was also important. And iii) the presence of a free 3 beta-hydroxy group and the bent conformation of cycloartenol, which are essential molecular features of the substrate for the methylation reaction, were no longer required to observe inhibition. The data obtained strongly support the idea that C-25 heteroatoms (N, As, and S), substituted triterpenoid derivatives possessing a positive charge at position 25, are analogues of a carbocationic high-energy intermediate involved during the reaction catalyzed by the AdoMet-cycloartenol-C-24-methyltransferase.