| Abstract: | Hydroxylation of 19-hydroxyandrost-4-ene-3,17-dione (19OHA) by aromatase occurs at the 19-pro-R hydrogen, suggesting that the C19 group has a preferred conformation in the enzyme active site. X-ray crystallographic studies have led to a postulate that the steroid plays a role in determining this conformation. In an effort to quantitate the steroid's role, we estimated conformational constraints about the C10-C19 bond of 19OHA using molecular mechanics calculations. Rotational barriers less than or equal to 6 kcal/mol and energy differences between conformers less than or equal to 1 kcal/mol were found. We perturbed these conformational constraints by preparing an altered substrate, 19-hydroxyandrosta-4,6-diene-3,17-dione (19OHAD). The stereospecificity of aromatization for 19OHA and 19OHAD was found to be the same. Thus, theoretical and experimental approaches both indicate that conformational constraints intrinsic to 19OHA cannot be a major determinant in the sterospecificity of its oxidation by aromatase. |
