Nuclear receptors (NRs) regulate transcription in a ligand-dependent way through two types of coactivator complexes: the p160/CBP histone acetyl transferase (HAT) complex and the DRIP/TRAP/SMCC complex without HAT activity. Here we identified a large human (h) coactivator complex necessary for the estrogen receptor alpha (ERalpha) transactivation. This complex contains the GCN5 HAT, the c-Myc interacting protein TRRAP/PAF400, TAF(II)30, and other subunits. Similarly to known TFTC (TBP-free TAF(II)-containing)-type HAT complexes (hTFTC, hPCAF, and hSTAGA), TRRP directly interacted with liganded ER alpha, or other NRs. ER alpha transactivation was enhanced by the purified complex in vitro. Antisense TRRAP RNA inhibited estrogen-dependent cell growth of breast cancer cells. Thus, the isolated TFTC-type HAT complex acts as a third class of coactivator complex for NR function.
BackgroundResveratrol is a natural polyphenolic compound known for its beneficial effects on energy homeostasis, and it also has multiple properties, including anti-oxidant, anti-inflammatory, and anti-tumor activities. Recently, silent information regulator genes (Sirtuins) have been identified as targets of resveratrol. Sirtuin 1 (SIRT1), originally found as an NAD+-dependent histone deacetylase, is a principal modulator of pathways downstream of calorie restriction, and the activation of SIRT1 ameliorates glucose homeostasis and insulin sensitivity. To date, the presence and physiological role of SIRT1 in the ovary are not known. Here we found that SIRT1 was localized in granulosa cells of the human ovary.MethodsThe physiological roles of resveratrol and SIRT1 in the ovary were analyzed. Immunohistochemistry was performed to localize the SIRT1 expression. SIRT1 protein expression of cultured cells and luteinized human granulosa cells was investigated by Western blot. Rat granulosa cells were obtained from diethylstilbestrol treated rats. The cells were treated with increasing doses of resveratrol, and subsequently harvested to determine mRNA levels and protein levels. Cell viability was tested by MTS assay. Cellular apoptosis was analyzed by caspase 3/7 activity test and Hoechst 33342 staining.ResultsSIRT1 protein was expressed in the human ovarian tissues and human luteinized granulosa cells. We demonstrated that resveratrol exhibited a potent concentration-dependent inhibition of rat granulosa cells viability. However, resveratrol-induced inhibition of rat granulosa cells viability is independent of apoptosis signal. Resveratrol increased mRNA levels of SIRT1, LH receptor, StAR, and P450 aromatase, while mRNA levels of FSH receptor remained unchanged. Western blot analysis was consistent with the results of quantitative real-time RT-PCR assay. In addition, progesterone secretion was induced by the treatment of resveratrol.ConclusionsThese results suggest a novel mechanism that resveratrol could enhance progesterone secretion and expression of luteinization-related genes in the ovary, and thus provide important implications to understand the mechanism of luteal phase deficiency.
RFamide-related peptide-3 (RFRP-3), a mammalian ortholog of avian gonadotropin-inhibitory hormone, has pronounced inhibitory effects on reproduction in a number of species. RFRP-3 suppresses gonadotropin release at the hypothalamic and/or pituitary levels; however, increasing evidence also suggests putative functions within the ovary. We have now demonstrated the expression of both RFRP and its receptor (GPR147) in primary cultures of human granulosa-lutein cells. Immunohistochemical analysis of normal human ovaries from premenopausal women showed that RFRPs and GPR147 were primarily localized in the granulosa cell layer of large preovulatory follicles as well as in the corpus luteum. Treatment of human granulosa-lutein cells with RFRP-3 reduced FSH-, LH- and forskolin-stimulated progesterone production and steroidogenic acute regulatory protein expression but did not affect basal or 8-bromoadenosine 3'5'-cyclic monophosphate stimulated levels. In addition, RFRP-3 inhibited gonadotropin- and forskolin-induced intracellular cAMP accumulation, and these effects were abolished by pretreatment with an inhibitor of inhibitory G(i/o) proteins (pertussis toxin). Importantly, the effects of RFRP-3 on FSH-, LH-, and forskolin-induced cAMP and progesterone accumulation were completely eliminated by cotreatment with the bifunctional GPR147/GPR74 antagonist RF9 or by pretreatment with GPR147 small interfering RNA. These results suggest that RFRP-3 is expressed in human granulosa cells in which it acts via its receptor, GPR147, to inhibit gonadotropin signaling at the level of adenylyl cyclase via activation of a pertussis toxin-sensitive Gα(i/o) protein. This leads to reduced gonadotropin-stimulated cAMP accumulation and progesterone synthesis, likely via reduced steroidogenic acute regulatory protein expression. Thus, ovarian RFRP-3/GPR147 signaling could contribute to normal ovarian function.
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