Effects of D-ring substituents on antiprogestational (antagonist) and progestational (agonist) activity of 11 beta-aryl steroids

Abstract

The discovery of antiprogestational steroids by the Roussel-Uclaf group not only was a major scientific advance but also opened the way to new methods of fertility control and new therapies for such conditions as cancer. RU486, the prototype of the series, is distinguished by a p-(N,N-dimethylaminophenyl) substituent at the 11 beta- position of the steroid framework, a 4,9-dien-3-one system and 17 beta-hydroxy-17 alpha-propynyl substituents. We examined the effect of varying the 17 alpha- substituent in 17 beta-hydroxy compounds analogous to RU486, the effect of introducing a progesterone side chain at C-17, and the effects of further substitution at C-17 alpha and C-16 alpha on the activity of these latter compounds. These studies indicate an important role for D-ring substituents in determining the balance of agonist/antagonist activity in this series. For example, 17 alpha-acetoxy-17 beta-acetyl substitution gave a potent antagonist, whereas 16 alpha-ethyl-17 beta-acetyl substitution resulted in a compound with potent progestational (agonist) activity. The compounds present opportunities for further interesting and useful biological investigations