Relative Binding Affinity of Antiprogestins Zk 98.299 And Zk 98.734 For Progesterone Receptors in the Endometrium and Myometrium of Bonnet Monkeys

Abstract

Progesterone bound with high affinity to the endometrial and myometrial cytosol of ovariectomized bonnet monkeys pretreated with estradiol benzoate and progesterone. The equilibrium dissociation constant (K_d) of ³H-progesterone was 4.5 nM and 5.5 nM and the binding capacity was 1.7 nM and 1.4 nM for the endometrial and myometrial receptors, respectively. This experimental ‘model’ was used to assess the relative binding affinity (RBA) of progesterone, ZK 98.299 and ZK 98.734. The tested compounds showed competitive binding to cytoplasmic progesterone receptors. The RBF of progesterone in the endometrium (100) was more than that of ZK 98.299 (25.1) and ZK 98.734 (17.8). A similar RBA pattern was observed in the myometrial cytosol. Both ZK 98.299 and ZK 98.734, like progesterone, displaced the ³H-progesterone bound to the receptors. The administration of ZK 98.299 or ZK 98.734, during the mid-luteal phase, has been reported to shorten the cycle length in bonnet monkeys and marmosets, respectively. These compounds, therefore, appear to intercept the progesterone action by blocking progesterone binding sites in the target tissue. Since ZK 98.299 has higher binding affinity than ZK 98.734, it may be a more potent progesterone antagonist.