SHetA2 is a novel compound with the potential to treat cervical dysplasia, but has poor water solubility. A vaginal suppository formulation was able to achieve therapeutic concentrations in the cervix of mice, but these concentrations were variable. Histological analysis indicated that mice in the same group were in different stages of their estrous cycle, which is known to induce anatomical changes in their gynecological tissues. We investigated the effects of these changes on the pharmacokinetics and pharmacodynamics of SHetA2 when administered vaginally. Mice were synchronized to be either in estrous or diestrus stage for administration of the SHetA2 suppository. Pharmacokinetic parameters were calculated from the SHetA2 concentrations vs. time data. The reduction in the expression of cyclin D1 protein in the cervix was used as pharmacodynamic endpoint. Mice dosed during diestrus had a larger AUCcervix (335 μg mL h-1), higher Cmax (121.8 ± 38.7 µg/g) and longer t1/2-cervix (30.3 h) compared to mice dosed during estrus (120 μg mL h-1, 44.6 ± 29.5 µg/g and 3.6 h respectively). Therapeutic concentrations of SHetA2 were maintained for 48 h in the cervix of mice dosed during diestrus and for only 12 h in the estrus group. The treatment reduced the expression of cyclin D1 protein in the cervix of mice in the estrus to a larger extent. These results indicate that the estrous cycle of mice influences significantly the disposition of SHetA2 after vaginal administration and may also influence its efficacy.
Keywords: Cervical dysplasia; Estrous cycle; Preclinical PK/PD; SHetA2; Tissue absorption; Vaginal drug delivery.
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