The objective of this study was to determine preimplantational effects of progesterone antagonists (PA) on the cell biology of the endometrium, on corpus luteum (CL) function and on the complex interactions between these two organs. The PA onapristone (ZK 98.299) or lilopristone (ZK 98.734) was given to pseudopregnant rabbits at days 5, 6, and 7 p.hCG. Three treatment protocols were investigated: Exp I, onapristone or lilopristone treatment only; Exp II, onapristone treatment after hysterectomy at day 1 p.hCG; Exp III, onapristone treatment together with 17 beta-estradiol, which represents the ultimate luteotropic hormone in the rabbit. In Exp I, onapristone and lilopristone gave rise to endometrial regression (inhibition of epithelial proliferation and differentiation, increase of apoptosis). Simultaneous addition of 17 beta-estradiol in Exp III did not alter these findings. A rapid luteolysis was found in Exp I. In Exp II and III, however, onapristone was unable to impair luteal development and function. Due to the unaffected CL in Exp III and due to the 17 beta-estradiol substitution, the endometrium was capable of starting a new transformation, which met all requirements for receptivity at day 12 p.hCG. Transfers of day 4 p.c. blastocysts from untreated donors into such delayed secretion recipient rabbits at days 12 p.hCG resulted in normal implantations and normal embryonic development. Contrary to Exp III, the missing of any luteotropic substitutions in Exp I resulted in a complete inhibition of further uterine transformation. The present findings suggest that PA can exert a direct inhibitory effect on the endometrium, which is followed by an indirect luteolytic effect via endometrial mediators. The simultaneous addition of a proper luteotropic signal to the PA protocol results in survival of CL. Furthermore, this prolongation of the CL life span can be interpreted as a functional dissociation of the endometrium from the CL.
The induction of ovulation with clomiphene citrate (CC) in human patients results in a high ovulation rate but achieves a relatively low pregnancy rate. To clarify the possible role of CC in interfering with the normal reproductive physiology and embryology, we have used our rabbit model and transferred 4-day-old blastocysts from untreated donors to CC-treated pseudopregnant recipients and from CC-treated donors to untreated pseudopregnant recipients to study embryonic development and implantation. Each group was further subdivided into two subgroups, one receiving CC before and the other after ovulation. CC was administered subcutaneously in three consecutive doses of 10 mg/kg body weight. Ovulation was induced with pregnant mare serum gonadotropin (PMS) and human chorionic gonadotropin (hCG). The implantation rate of the control group, evaluated on day 8 of pregnancy, reached 62.0%. When recipients were treated with CC before ovulation, implantation rate was reduced to 18.8% (P less than 0.0002), and to 20.0% (P less than 0.003) when CC was administered after ovulation. The implantation rate of blastocysts transferred from donors, treated before ovulation, is 22.2% (P less than 0.0055), however, reached 70.8% when treatment was started after ovulation. All implantations were analysed microscopically and showed normal morphological features. Our results demonstrate a potential multiple effect of CC, first on the endometrium by altering its receptivity for the implanting conceptus, second, on tubal physiology by altering egg transport, and finally on ovum maturation before ovulation interfering with development of blastocysts. These parameters may all result in rapid decrease in establishment of implantations and in turn in very low pregnancy rates.
The immunological identity of a uteroglobin-like protein, occurring in respiratory tract secretions and tissue, with uteroglobin from rabbit endometrial secretion is demonstrated. A uteroglobin-like antigen has been localized in bronchial epithelial cells and in bronchioles by immunofluorescence. This secretory protein is, in contrast to the authentic uteroglobin, hormone-independent, as far as estrogens and progesterone are concerned. The possible significance of comparative studies on uteroglobin and the uteroglobin-like antigen is discussed, taking into account cytological, endocrinological, and molecularbiological aspects.
Under physiological conditions the zona pellucida disappears in the rabbit between Day 3 and early Day 4 post coitum (p.c.) and is replaced by a new layer, the neozona. The dissolution of the zona pellucida and the formation of the neozona was investigated in three different experimental approaches, all of them characterized by non-physiological developmental conditions for the embryo: Prevention of embryo migration from the oviduct into the uterus by postcoital (48 h p.c.) tubal ligation, in vitro culture, and asynchronous embryo transfer into uteri of recipient rabbits. Embryos of age 2 1/2, 3, 4 and 4 1/2 days p.c. were cultured for 12 to 72 h. The media used for in vitro culture were supplemented with BSA, serum or with uterine secretions that were collected either synchronously or asynchronously to the developmental stage of the cultured embryos. Three-day-old embryos were transferred into uteri of pseudopregnant foster rabbits of either synchronous (Day 3) or asynchronous stages (Day 0, 2, 4, 5, 6) and were recovered 24 to 72 h after transfer. The transformation of the coverings was evaluated by light and transmission electron microscopy. The dissolution of the zona pellucida was greatly disturbed in tube-locked embryos, and in cultured embryos if standard protein supplements (BSA or serum) had been used for in vitro culture. In many cases the zona was still completely preserved after 2 or 3 days in culture, at a time when it normally would have already been replaced by the neozona in vivo. The dissolution in vitro, however, progressed incomparably better if the culture medium had been substituted with synchronous or asynchronous uterine secretions. The formation of the neozona could not be verified in cultured blastocysts. After embryo transfer, the dissolution of the zona pellucida was completed in most cases by 2 days after transfer, irrespective of the recipients' progestational stage. Present results indicate that uterine components are essential for the dissolution of the rabbit zona pellucida. These components appear to be present in the uterine cavity constitutively, i.e. independently of the uterine progestational transformation, and need not be in synchrony with the embryo's developmental stage for dissolution of the zona. Normal formation of the neozona does not take place under the non-physiological developmental conditions of in vitro culture.
Development of rabbit preimplantation blastocysts cultured with precultured endometrial tissue
Endometrial fragments were explanted from pseudopregnant rabbits 4.5 days after injecting with human chorionic gonadotrophin and were precultured for 2 days in suspension culture in the presence of oestradiol and progesterone equivalent to concentrations in rabbit serum at that stage. Preimplantation blastocysts were obtained at day 6.5 of pregnancy and cultured in the presence or absence of precultured endometrial fragments. Attachment of the trophoblast to the endometrium was prevented by continuous agitation. After 2 and 3 days, specimens were monitored for development in vitro using light and scanning electron microscopy. Although the development of blastocysts was slower in vitro than in vivo in both groups, development was clearly superior in the presence of precultured synchronous endometrial fragments. In the absence of endometrium, the embryonic anlage appeared disordered, particularly in the caudal region, but in the presence of uterine tissue the blastocysts developed much better. Up to nine somites were differentiated; the neural tube had started to close and the various parts of the brain anlage showed incipient differentiation. Syncytiotrophoblast differentiated in the presence or absence of endometrium in the embryonic and abembryonic hemispheres, but typical patterns were maintained better and cell degeneration was less frequent during co-culture. Although the culture model described here has not been optimized using criteria of blastocyst differentiation, the results suggest that culture of blastocysts with precultured synchronous endometrial fragments is advantageous.
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