Department of Medicine and Clinical Science, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, 2-5-1 Shikata-cho, Kitaku, Okayama 700-8558, Japan.
Mol Cell Endocrinol. 2012 Jul 6;358(1):18-26. doi: 10.1016/j.mce.2012.02.011. Epub 2012 Feb 24.
Although kit ligand (KL)-c-kit interaction is known to be critical for oogenesis and folliculogenesis, its role in ovarian steroidogenesis has yet to be elucidated. We studied the impact of KL-c-kit interaction in regulation of steroidogenesis using rat oocyte/granulosa cell co-culture. In the presence of oocytes, soluble KL suppressed FSH-induced estradiol production and aromatase mRNA expression without affecting FSH-induced progesterone production. The KL effect on steroidogenesis was interrupted by an anti-c-kit neutralizing antibody, suggesting that KL-c-kit interaction is involved in suppression of estrogen by granulosa cells through oocyte c-kit action. The cAMP-PKA pathway activity was not directly involved in the estrogen regulation by KL-c-kit action. It was of note that KL treatment increased the expression levels of oocyte-derived FGF-8, GDF-9 and BMP-6, while it reduced the expression levels of oocyte-derived BMP-15 in the oocyte-granulosa cell co-culture. Given the findings that FGF-8, but not GDF-9, BMP-6 or -15, suppressed FSH-induced estrogen production by granulosa cells, oocyte-derived FGF-8 is linked to suppression of FSH-induced estrogen production through the KL-c-kit interaction. Furthermore, the suppression of FSH-induced estrogen production by KL in the co-culture was reversed by a FGF receptor kinase inhibitor and the effect of the inhibitor was enhanced in combination with extracellular-domain protein of BMPRII, which interferes with BMP-15 and GDF-9 activities. Thus, the actions of endogenous oocyte factors including FGF-8 and BMP-15/GDF-9 were involved in the KL activity that inhibited FSH-induced estradiol production. Collectively, the results indicate that KL-c-kit interaction plays a role in estrogenic regulation through oocyte-granulosa cell communication.
虽然 kit 配体(KL)-c-kit 相互作用对于卵母细胞发生和卵泡发生至关重要,但它在卵巢甾体生成中的作用尚未阐明。我们使用大鼠卵母细胞/颗粒细胞共培养研究了 KL-c-kit 相互作用在甾体生成调节中的作用。在存在卵母细胞的情况下,可溶性 KL 抑制 FSH 诱导的雌二醇产生和芳香酶 mRNA 表达,而不影响 FSH 诱导的孕激素产生。抗 c-kit 中和抗体中断了 KL 对甾体生成的作用,表明 KL-c-kit 相互作用通过卵母细胞 c-kit 作用参与颗粒细胞对雌激素的抑制。cAMP-PKA 途径活性未直接参与 KL-c-kit 作用对雌激素的调节。值得注意的是,KL 处理增加了卵母细胞来源的 FGF-8、GDF-9 和 BMP-6 的表达水平,同时降低了卵母细胞-颗粒细胞共培养中卵母细胞来源的 BMP-15 的表达水平。鉴于 FGF-8 但不是 GDF-9、BMP-6 或 -15 抑制 FSH 诱导的颗粒细胞雌二醇产生的发现,卵母细胞来源的 FGF-8 通过 KL-c-kit 相互作用与抑制 FSH 诱导的雌二醇产生有关。此外,共培养中 KL 对 FSH 诱导的雌二醇产生的抑制作用被 FGF 受体激酶抑制剂逆转,并且该抑制剂与干扰 BMP-15 和 GDF-9 活性的 BMPRII 细胞外结构域蛋白联合使用时效果增强。因此,包括 FGF-8 和 BMP-15/GDF-9 在内的内源性卵母细胞因子的作用参与了 KL 抑制 FSH 诱导的雌二醇产生的活性。总之,这些结果表明 KL-c-kit 相互作用通过卵母细胞-颗粒细胞通讯在雌激素调节中发挥作用。
