The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh, Easter Bush, Midlothian, UK.
Theriogenology. 2013 Feb;79(3):409-16. doi: 10.1016/j.theriogenology.2012.08.017. Epub 2012 Nov 28.
There is evidence in several species that high circulating LH concentrations can interfere with normal follicle development and ovulation. In the mare, high LH levels after induction of luteolysis with PGF(2α) have been temporally associated with an increased incidence of anovulatory follicles. We hypothesized that a premature increase in LH levels during a follicular wave in mares would disrupt normal follicle maturation leading to ovulatory dysfunction. In experiment 1, all follicles >10 mm were ablated at midestrous cycle in pony mares followed by twice daily administration of equine LH (eLH; 1.6 μg/kg body weight) or saline (vehicle; N = 8 mares per group). When a dominant follicle reached >32 mm, an ovulatory dose of hCG was given. Treatment with eLH had no effects on ovulatory responses or progesterone levels during the posttreatment luteal phase. In experiment 2, after follicle ablation, mares were treated with eLH or vehicle (as above) or were given a single injection of PGF(2α) (N = 7 mares per group), followed by aspiration of a dominant follicle when it reached >32 mm. Administration of eLH induced an increase in circulating LH levels similar to that after PGF(2α) injection. Neither PGF(2α) nor eLH administration had significant effects on follicle growth or total number of follicles in the postablation wave. However, compared with mares treated with vehicle, the preovulatory follicle in the eLH and PGF(2α) groups had lower levels of androstenedione (P = 0.03) and higher levels of insulin-like growth factor I (P = 0.03). Further, levels of prostaglandin E2 in preovulatory follicles tended to be lower in the eLH and PGF(2α) groups (P = 0.06). In conclusion, exposure of developing follicles to high LH in mares did not have apparent effects on ovulation but it induced changes in follicular fluid factor levels which might reflect a disruption in follicle and/or oocyte maturation, indicating the need to further study the implications of using PGF(2α) for the control of fertility in farm animals.
在几种物种中,有证据表明高循环 LH 浓度会干扰正常的卵泡发育和排卵。在母马中,在 PGF(2α)诱导黄体溶解后,LH 水平升高与无排卵卵泡的发生率增加有关。我们假设在母马的卵泡波中,LH 水平过早升高会破坏正常的卵泡成熟,导致排卵功能障碍。在实验 1 中,在小马驹的发情周期中期切除所有 >10mm 的卵泡,然后每天两次给予马 LH(eLH;1.6μg/kg 体重)或盐水(载体;每组 8 匹母马)。当一个优势卵泡达到 >32mm 时,给予排卵剂量的 hCG。在治疗后的黄体期,eLH 处理对排卵反应或孕酮水平没有影响。在实验 2 中,在卵泡切除后,母马接受 eLH 或载体(如上所述)或单次注射 PGF(2α)(每组 7 匹母马),然后当优势卵泡达到 >32mm 时抽吸。eLH 的给予导致循环 LH 水平升高,类似于 PGF(2α)注射后的升高。PGF(2α)或 eLH 的给予对切除后卵泡的生长或卵泡总数均无显著影响。然而,与用载体处理的母马相比,eLH 和 PGF(2α)组的排卵前卵泡的雄烯二酮水平较低(P=0.03),胰岛素样生长因子 I 水平较高(P=0.03)。此外,eLH 和 PGF(2α)组的排卵前卵泡中前列腺素 E2 的水平趋于较低(P=0.06)。总之,暴露于高 LH 的发育中的卵泡对排卵没有明显影响,但它诱导了卵泡液因子水平的变化,这可能反映了卵泡和/或卵母细胞成熟的破坏,表明需要进一步研究在农场动物中使用 PGF(2α)控制生育力的影响。
