Effect of unilateral ovariectomy and subsequent ovum implantation in mice.

Unilateral ovariectomy (ULO) was done on any stage of the cycle and the animals were mated within day 1 to day 21 to observe the acute and long term effect of ULO on ovum implantation. Implantation reduced in proportion to single ovary if the animals were mated within 24 hr of ULO. Increase in ovarian weight along with an increase in implantation number continued in mated mice and reached at peak on day 19-21 of ULO (sacrificed after 6 days i.e., 25-27 days of ULO). After ULO the remaining ovary compensated within day 5-6 of ULO even during pregnancy. Ovarian histology showed stimulation of small antral follicles in mice mated on day 3 of ULO (sacrificed after 6 days i.e., day 9 of ULO) along with a decrease of large antral follicles and pre-antral follicles. Preantral follicles were at peak on day 12-14. Large antral follicles attained a peak on day 4 which slowly decreased. The occurrence of implantation in such ULO conditions are discussed.

Pre-implantation embryo development in BALB/C ByJ mice.

Problem of failure of ovum implantation in BALB/C ByJ strain in comparison to Swiss inbred mouse was studied. The results were compared with those of BALB outbred mice thereafter. BALB/C ByJ strain showed a poor responsiveness to superovulatory stimuli and their embryo development was not uniform. The embryo were delayed in attaining blastocyst stage on day 4. The delay was not significant in Swiss inbred embryos and was prevented by in vitro cultures. By direct embryo transfer it was shown that the uterus was not receptive for successful implantation. However, when these blastocysts were transferred to F1 hybrid (CBA x BALB outbred) recipients demonstrated normal acceptances. This may be a manifestation of inbreeding depression.

Physiological aspects of blastocyst uterine interaction.

An interaction between the blastocyst and the uterus is essential for establishment of pregnancy. Because maternal estrogen is not an absolute requirement, estrogen of embryonic origin has been implicated in this process in the pig and the rabbit. Furthermore, estrogen forming capacity has been documented in the blastocyst of these species. However, while the complete machinery for steroid synthesis in the pig balstocyst has been demonstrated, the issue is still unresolved for the rabbit blastocyst. In the present communication we have shown that 17α-hydroxylase and C17-20-lyase, enzymes involved in the formation of androgens (C19-steroids) from C21-steroids (progestins), are present in day-6 rabbit blastocysts. C17-20-lyase activity was undetectable to low in day-5 and increased in day-6 balstocysts. The activity was further increased in day-6 blastocysts cultured for 24 h. Because prostaglandins have been implicated in uterine vascular changes at about the time of implantation and pregnancy establishment, and because catechol estrogens are more potent than phenolic estrogens in stimulating prostaglandin synthesis in the blastocyst and the uterus, we determined catechol estrogen forming capacity in the rabbit and pig blastocyst. Catechol estrogen forming capacity (estrogen-2/4-hydroxylase) in the pig blastocyst appears on day 10 of pregnancy, peaks on day 12 and then declines. Our preliminary experiments also indicate that day-6 rabbit blastocysts have catechol estrogen forming capacity. On the basis of our present findings and of others, we propose that catechol estrogens of embryonic origin mediate the stimulatory effect of estrogens on prostaglandin synthesis in the embryo and/or the uterus and thus participate in the process of establishment of pregnancy.