To test the hypothesis that the administration of 2.5 mg of estradiol benzoate (EB) followed by 1500 mg of long acting progesterone (LA P4) causes similar uterine changes and molecular dynamics in anovulatory mares to those observed in cyclic ones, we evaluated the changes of estrogen (ERα and ERβ) and progesterone receptors (PR) in anestrous, transitional and cyclic mares by RT-qPCR and immunohistochemistry. In addition, we evaluated uterine edema, tonus and estrogens and progesterone plasma profile. Endometrial biopsies were taken from anestrous and transitional mares immediately before EB injection, 48 h after EB administration and five days after LA P4 was given. In cyclic mares, biopsies were collected at estrus and at five days after ovulation. Similar estrogen peaks were achieved after the injection of the single EB dose between treated and cyclic groups, as well as maximum uterine edema. Uterine tone was increased to diestrus levels after administration of 1500 mg of LA P4. Changes in relative abundance of transcripts for PR, ERα and ERβ when progesterone stimulated endometrium was compared to estrogen stimulated endometrium were similar between cyclic and non-cyclic treated mares. However, apparent decreased PR in the endometrial glandular epithelium was not observed in non-cyclic mares five days after LA P4 administration as observed at five days after ovulation in cyclic mares. The protocol produced similar endometrial edema, uterine tonus and changes in relative abundance of PR, ERα and ERβ transcripts to those observed in cyclic mares during late estrus and early diestrus, as well as similar estradiol and estrogen conjugate plasma concentrations.
Human chorionic gonadotropin (hCG) has been used to induce ovulation and as a luteotrophic agent in cattle. However, the effect of hCG therapy on the functional status of the equine corpus luteum (CL) is unclear. This study aimed to characterize the hemodynamic and secretory function of early CL of mares treated with different doses of hCG at distinct stages of the estrous cycle. Mares were assigned to nine experimental groups (n ¼ 6 mares/ group) according to dose of hCG and time of treatment. A single injection of one of three different doses of hCG (750, 1,500, or 2,500 IU) was performed in one of three distinct stages of the estrous cycle: preovulatory follicle !35 mm, day of ovulation (D0), or 48 hours after ovulation (D2). In addition, a control group treated with NaCl 0.9% was included in the study. The end points evaluated daily from D0 to D8 were area of the CL, luteal vascularity, number of colored pixels and total pixel intensity, and concentrations of plasma progesterone (P4). No effect (P > .1) of dose or time of treatment was observed for any end point, within each day. Luteal area did not differ throughout the days (P > .1), whereas Doppler parameters and concentrations of plasma P4 presented a progressive increase (P < .05) after ovulation in all groups. Secretory function and luteal hemodynamic were not affected (P > .1) by hCG dose and time of treatment. In conclusion, hCG therapy during estrus or early diestrus, at the doses tested, did not improve P4 secretion or luteal blood flow.
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