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Abstract
Steroidogenic acute regulatory protein (StAR) mediates
cholesterol transport into the mitochondria and is
essential for ovarian steroidogenesis. EGF has been
reported to inhibit FSH-stimulated differentiation in
porcine granulosa cells. Previous studies have
demonstrated FSH stimulates StAR mRNA accumulation and
gene promoter activation in granulosa cells. Treatment of
granulosa cells with FSH (5 ng/ml, 6 h) increased StAR
mRNA, whereas coaddition of EGF (10 ng/ml) significantly
reduced (P < 0.05) FSH-stimulated mRNA accumulation by
62.7 ± 13.9 %. Under these same conditions,
FSH-stimulated cAMP accumulation in cultures was unaltered
by coincubation with EGF. RNA stability studies showed
that cotreatment with FSH and EGF did not alter the
StAR
mRNA half-life compared to FSH alone, t1/2 =
1.9-3.8 and
2.7-4.1 h, respectively. EGF significantly inhibited (P <
0.05) FSH-stimulated StAR heterogeneous nuclear RNA
levels
by 47.6 ± 6.8 % implicating a repressive effect on
transcription. Surprisingly, EGF (1-50 ng/ml) did not
affect FSH-stimulation of a 1423 bp StAR gene
promoter-luciferase construct in transient transfection
assays in porcine granulosa cells. To evaluate FSH and
EGF effects on the endogenous StAR gene, chromatin
immunoprecipitation assays were performed in combination
with real-time PCR. FSH increased histone H3 acetylation
(lysines 9, 14) within the proximal region of the StAR
gene promoter and coincubation with EGF blocked this
effect. Dimethylation (lysine 9) of histone H3 was not
influenced by treatments. In conclusion, EGF repression
of FSH-stimulated StAR transcription in porcine
granulosa
cells is accompanied by reductions in histone H3
acetylation associated with the StAR gene promoter.
Key words:
Follicle-stimulating hormone •
Granulosa cells •
Growth factors •
Steroid hormones
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