Prostaglandin translocation from the lumen of the rabbit uterus in vitro in relation to day of pregnancy or pseudopregnancy.

Abstract

Transport of 3H-labeled prostaglandins (PGs) E2 and F2 alpha from the uterine lumen across the uterine wall has been studied in rabbit uteri in vitro in incubations lasting up to 180 min, in relation to sexual state of the rabbit, incubation temperature, intraluminal PG concentration, addition of metabolic inhibitors and time of incubation. PG accumulation by the tissue increased rapidly up to 30 min and then remained relatively constant. By 30 min, radioactivity was found in the external incubation medium, and this increased linearly with time. The translocation of PGF2 alpha was significantly greater in pseudopregnant than in pregnant animals on Day 6, whereas that of PGE2 was significantly higher in pregnant than in pseudopregnant animals on Day 6.8. In pregnant animals, both PGF2 alpha and PGE2 were translocated to the exterior more rapidly on Day 6.8 than on Days 5 or 6. Transport of PGs was reduced by low temperature, unaffected by metabolic inhibitors and only that of PGE2 increased with increased (5 microM) intraluminal concentrations. During incubation, the tissue remained viable as judged by T/M ratios (dpm tissue/dpm medium) for 204 thallium. Transport of [14C] sucrose was much slower than that of [14C] urea, which was greater than the fastest rates exhibited by the PGs. In general, amounts of radioactivity found in antimesometrial, mesometrial and lateral portions of the uterine wall, or in implantation and interimplantation areas did not differ, but more was found in the endometrium than the myometrium. PGF2 alpha was translocated unmetabolized to the external medium, while only two-thirds of the PGE2 was translocated unchanged, and one-third converted to PGF2 alpha. It is concluded that the rabbit uterus shows some selectivity in handling PGs in relation to stage of pregnancy.