Characterization of estrogen receptor-beta (ERbeta) messenger ribonucleic acid and protein expression in rat granulosa cells.

We have examined estrogen-responsiveness of ovarian granulosa cells by focusing on estrogen receptor (ER) expression. Estrogen responsiveness was determined by examining the effect of 17beta-estradiol (1-10 nM) on luciferase reporter activity in rat granulosa cells transfected with an ERE-luciferase construct. The results demonstrate an estrogen-induced (approximately 3-fold) increase in luciferase reporter activity, indicating that granulosa cells contain functional estrogen response element (ERE)-binding transcriptional activators. Gel mobility shift assays in combination with ER antibodies show that ERbeta is the predominant ERE-binding protein in granulosa cells. Western blotting results show that granulosa cells contain ERbeta-immunoreactive protein(s) migrating at a size substantially larger than the recombinant protein generated from the originally proposed 485 amino acid open-reading frame. This size discrepancy is not due to granulosa cell expression of ERbeta isoforms with insertions within the coding region because RT-PCR assays revealed products with sizes expected for ERbeta, ERbetaB, and delta3 isoforms. This size discrepancy appears to be due to usage of a well-conserved, upstream in-frame translation initiation codon (ATG436) leading to a 530 amino acid open reading frame. ERbeta messenger RNA (mRNA) characterization using 5'-rapid amplification of complementary DNA ends (5'-RACE) show the presence of two different (P1- and P2-) 5'-ends of rat ERbeta mRNA encoding the full-length ERbeta protein. The generation of the P2-specific exon is likely due to initiation of transcription from an alternative promoter. Both P1- and P2-specific exon-containing ERbeta mRNAs are expressed in granulosa cells, and they are rapidly down-regulated by the cAMP-mediated intracellular signaling pathway in cultured granulosa cells. Taken together, our results show that rat granulosa cells produce two different 3',5'-cAMP-regulated ERbeta mRNA species and that these mRNA species are capable of encoding the full-length ERbeta protein.