Voronina Ekaterina, Lovasco Lindsay A, Gyuris Aron, Baumgartner Robert A, Parlow Albert F, Freiman Richard N
Brown University, Department of Molecular and Cell Biology and Biochemistry, 69 Brown St., Box G-J115, Providence, RI 02912, USA.
Dev Biol. 2007 Mar 15;303(2):715-26. doi: 10.1016/j.ydbio.2006.12.011. Epub 2006 Dec 9.
Oocyte development in the mammalian ovary requires productive interactions with somatic granulosa cells of the ovarian follicle. Proliferating granulosa cells support the progression of follicular growth and maturation, multiplying dramatically as it unfolds. The cell cycle recruitment of granulosa cells is regulated at least in part by hormones such as follicle-stimulating hormone (FSH) and estrogen. Follicles recruited into the growth phase following formation of multiple layers of granulosa cells have two major fates: either to continue proliferation followed by differentiation, or to die by programmed cell death, or atresia. While many of the signaling pathways orchestrating ovarian follicle development are known, the downstream transcriptional regulators that integrate such signals in the mammalian ovary remain to be defined. Recent experiments in diverse organisms have revealed multiple instances of gonad-selective components of the basal transcriptional machinery. One such protein, TAF4b, is a gonadal-enriched coactivator subunit of the TFIID complex required for normal female fertility in the mouse. To determine the etiology of female infertility of the TAF4b-deficient mice, we have determined multiple functions of TAF4b during postnatal ovarian follicle development. Here we demonstrate that the TAF4b protein is expressed in the granulosa cell compartment of the mammalian ovarian follicle. Furthermore, TAF4b-deficient mouse ovaries contain reduced numbers of primordial as well as growing follicles and a concomitant increased proportion of apoptotic follicles in comparison to wild type counterparts. Importantly, TAF4b-null follicles are largely resistant to induction of proliferation in response to multiple hormonal stimuli including estrogen and FSH and demonstrate compromised granulosa cell survival. Together, these data suggest that TAF4b integrates a program of granulosa cell gene expression required for normal ovarian follicle survival and proliferation in response to diverse ovarian signaling events.
哺乳动物卵巢中的卵母细胞发育需要与卵巢卵泡中的体细胞颗粒细胞进行有效的相互作用。增殖的颗粒细胞支持卵泡生长和成熟的进程,随着卵泡发育,颗粒细胞数量急剧增加。颗粒细胞的细胞周期募集至少部分受促卵泡激素(FSH)和雌激素等激素的调节。在形成多层颗粒细胞后进入生长阶段的卵泡有两种主要命运:要么继续增殖然后分化,要么通过程序性细胞死亡或闭锁而死亡。虽然许多协调卵巢卵泡发育的信号通路已为人所知,但在哺乳动物卵巢中整合这些信号的下游转录调节因子仍有待确定。最近在不同生物体中的实验揭示了基础转录机制中多个性腺选择性成分的实例。一种这样的蛋白质TAF4b是TFIID复合物的性腺富集共激活亚基,对小鼠的正常雌性生育能力是必需的。为了确定TAF4b缺陷小鼠雌性不育的病因,我们已经确定了TAF4b在出生后卵巢卵泡发育过程中的多种功能。在这里,我们证明TAF4b蛋白在哺乳动物卵巢卵泡的颗粒细胞区室中表达。此外,与野生型相比,TAF4b缺陷小鼠的卵巢中原始卵泡和生长卵泡的数量减少,同时凋亡卵泡的比例增加。重要的是,TAF4b基因敲除的卵泡在响应包括雌激素和FSH在内的多种激素刺激时,对增殖诱导具有很大的抗性,并表现出颗粒细胞存活受损。这些数据共同表明,TAF4b整合了一个颗粒细胞基因表达程序,该程序是正常卵巢卵泡存活和增殖以响应各种卵巢信号事件所必需的。