Role of Upstream Stimulatory Factor Phosphorylation in the Regulation of the Prostaglandin G/H Synthase-2 Promoter in Granulosa Cells

Pituitary FSH promotes pubertal timing and normal gametogenesis by binding its receptor (FSHR) located on Sertoli and granulosa cells of the testis and ovary, respectively. Studies on Fshr transcription provide substantial evidence that upstream stimulatory factor (USF) 1 and USF2, basic helix-loop-helix leucine zipper proteins, regulate Fshr through an E-box within its promoter. However, despite the strong in vitro support for USF1 and USF2 in Fshr regulation, there is currently no in vivo corroborating evidence. In the present study, chromatin immunoprecipitation demonstrated specific binding of USF1 and USF2 to the Fshr promoter in both Sertoli and granulosa cells, in vivo. Control cells lacking Fshr expression showed no USF-Fshr promoter binding, thus correlating USF-promoter binding to gene activity. Evaluation of Fshr expression in Usf1 and Usf2 null mice further explored USF’s role in Fshr transcription. Loss of either gene significantly reduced ovarian Fshr levels, whereas testis levels were unaltered. Chromatin immunoprecipitation analysis of USF-Fshr promoter binding in Usf-null mice indicated differences in the composition of promoter-bound USF dimers in granulosa and Sertoli cells. Promoter-bound USF dimer levels declined in granulosa cells from both null mice, despite increased USF2 levels in Usf1-null ovaries. However, compensatory increases in promoter-bound USF homodimers were evident in Usf-null Sertoli cells. In summary, this study provides the first in vivo evidence that USF1 and USF2 bind the Fshr promoter and revealed differences between Sertoli and granulosa cells in compensatory responses to USF loss and the USF dimeric composition required for Fshr transcription.

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The Delayed Activation of the Prostaglandin G/H Synthase-2 Promoter in Bovine Granulosa Cells Is Associated with Down-regulation of Truncated Upstream Stimulatory Factor-2

Journal of Biological Chemistry ◽

10.1074/jbc.274.49.35037 ◽

1999 ◽

Vol 274 (49) ◽

pp. 35037-35045 ◽

Cited By ~ 43

Author(s):

Jianmin Liu ◽

Martine Antaya ◽

Derek Boerboom ◽

Jacques G. Lussier ◽

David W. Silversides ◽

...

Keyword(s):

Granulosa Cells ◽

Upstream Stimulatory Factor ◽

Down Regulation ◽

Stimulatory Factor

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The role of upstream stimulatory factor 1 in the transcriptional regulation of the human TBX21 promoter mediated by the T-1514C polymorphism associated with systemic lupus erythematosus

Immunogenetics ◽

10.1007/s00251-011-0597-6 ◽

2012 ◽

Vol 64 (5) ◽

pp. 361-370 ◽

Cited By ~ 7

Author(s):

Junggang Li ◽

Jirong Li ◽

Yi You ◽

Song Chen

Keyword(s):

Systemic Lupus Erythematosus ◽

Transcriptional Regulation ◽

Lupus Erythematosus ◽

Upstream Stimulatory Factor ◽

Systemic Lupus ◽

Upstream Stimulatory Factor 1 ◽

Stimulatory Factor

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Regulation of human myocilin/TIGR gene transcription in trabecular meshwork cells and astrocytes: role of upstream stimulatory factor

Genes to Cells ◽

10.1046/j.1365-2443.2000.00355.x ◽

2000 ◽

Vol 5 (8) ◽

pp. 661-676 ◽

Cited By ~ 22

Author(s):

Lucienne Kirstein ◽

Ales Cvekl ◽

Bharesh K. Chauhan ◽

Ernst R. Tamm

Keyword(s):

Gene Transcription ◽

Trabecular Meshwork ◽

Upstream Stimulatory Factor ◽

Trabecular Meshwork Cells ◽

Stimulatory Factor

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Amphetamine-Decreased Progesterone and Estradiol Release in Rat Granulosa Cells: The Regulatory Role of cAMP- and Ca2+-Mediated Signaling Pathways

Biomedicines ◽

10.3390/biomedicines9050493 ◽

2021 ◽

Vol 9 (5) ◽

pp. 493

Author(s):

Chung-Yu Chen ◽

Chien-Rung Chen ◽

Chiao-Nan Chen ◽

Paulus S. Wang ◽

Toby Mündel ◽

...

Keyword(s):

Granulosa Cells ◽

Prostaglandin F2α ◽

Inhibitory Effect ◽

Inhibitory Effects ◽

Steroidogenic Enzyme ◽

Estradiol Secretion ◽

Basal Release ◽

Ca2 Channels

The purpose of this study is to evaluate the amphetamine effects on progesterone and estradiol production in rat granulosa cells and the underlying cellular regulatory mechanisms. Freshly dispersed rat granulosa cells were cultured with various test drugs in the presence of amphetamine, and the estradiol/progesterone production and the cytosolic cAMP level were measured. Additionally, the cytosolic-free Ca2+ concentrations ([Ca2+]i) were measured to examine the role of Ca2+ influx in the presence of amphetamine. Amphetamine in vitro inhibited both basal and porcine follicle-stimulating hormone-stimulated estradiol/progesterone release, and amphetamine significantly decreased steroidogenic enzyme activities. Adding 8-Bromo-cAMP did not recover the inhibitory effects of amphetamine on progesterone and estradiol release. H89 significantly decreased progesterone and estradiol basal release but failed to enhance a further amphetamine inhibitory effect. Amphetamine was capable of further suppressing the release of estradiol release under the presence of nifedipine. Pretreatment with the amphetamine for 2 h decreased the basal [Ca2+]i and prostaglandin F2α-stimulated increase of [Ca2+]i. Amphetamine inhibits progesterone and estradiol secretion in rat granulosa cells through a mechanism involving decreased PKA-downstream steroidogenic enzyme activity and L-type Ca2+ channels. Our current findings show that it is necessary to study the possibility of amphetamine perturbing reproduction in females.

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Sirtuin 1 and Sirtuin 3 in Granulosa Cell Tumors

International Journal of Molecular Sciences ◽

10.3390/ijms22042047 ◽

2021 ◽

Vol 22 (4) ◽

pp. 2047

Author(s):

Nina Schmid ◽

Kim-Gwendolyn Dietrich ◽

Ignasi Forne ◽

Alexander Burges ◽

Magdalena Szymanska ◽

...

Keyword(s):

Cell Proliferation ◽

Granulosa Cell ◽

Granulosa Cells ◽

Drug Targets ◽

Growth Regulation ◽

Sirtuin 1 ◽

Ki 67 ◽

Granulosa Cell Tumors ◽

Novel Drug

Sirtuins (SIRTs) are NAD+-dependent deacetylases that regulate proliferation and cell death. In the human ovary, granulosa cells express sirtuin 1 (SIRT1), which has also been detected in human tumors derived from granulosa cells, i.e., granulosa cell tumors (GCTs), and in KGN cells. KGN cells are an established cellular model for the majority of GCTs and were used to explore the role of SIRT1. The SIRT1 activator SRT2104 increased cell proliferation. By contrast, the inhibitor EX527 reduced cell numbers, without inducing apoptosis. These results were supported by the outcome of siRNA-mediated silencing studies. A tissue microarray containing 92 GCTs revealed nuclear and/or cytoplasmic SIRT1 staining in the majority of the samples, and also, SIRT2-7 were detected in most samples. The expression of SIRT1–7 was not correlated with the survival of the patients; however, SIRT3 and SIRT7 expression was significantly correlated with the proliferation marker Ki-67, implying roles in tumor cell proliferation. SIRT3 was identified by a proteomic analysis as the most abundant SIRT in KGN. The results of the siRNA-silencing experiments indicate involvement of SIRT3 in proliferation. Thus, several SIRTs are expressed by GCTs, and SIRT1 and SIRT3 are involved in the growth regulation of KGN. If transferable to GCTs, these SIRTs may represent novel drug targets.

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