Disparate effects of estradiol on egg transport and oviductal protein synthesis in mated and cyclic rats

Previously, we found that the dose of estradiol (E-2) require to accelerate egg transport increases 5- to 10-fold, in mated compared to cyclic rats. H ere we examined protein synthesis in the oviduct of mated and cyclic rats f ollowing a single injection of E-2 known to accelerate oviductal egg transp ort or after concomitant treatment with progesterone (P-4) known to block t his acceleration. On Day 1 of the cycle or pregnancy, E-2, P-4, or E-2 + P- 4 were injected s.c., and 4 h later oviducts were removed and incubated for 8 h in medium with S-35-methionine. Tissue proteins were separated by SDS- PAGE, and protein bands were quantitated by fluorography and densitometry. In mated rats, E-2 and P-4 increased different protein bands and P-4 did no t affect the fluorographic pattern induced by E-2. In contrast with mated r ats, none of these treatments changed the fluorographic pattern of the ovid uctal proteins in cyclic rats. Estradiol-induced egg transport acceleration was then compared under conditions in which oviductal protein synthesis wa s suppressed. Mated and cyclic rats treated with equipotent doses of E-2 fo r accelerating egg transport also received actinomycin D (Act D) locally. E stradiol-induced oviductal egg loss was partially blocked by Act D in mated but had no effect in cyclic rats. We conclude that the oviduct of mated an d cyclic rats differs in that only the former responds with increased prote in synthesis to a pulse of exogenous E-2 and P-4 and requires an intact pro tein synthesis machinery in order to accelerate egg transport in response t o E-2.