Differential expression of human gonadotropin-releasing hormone receptor gene in pituitary and ovarian cells

Abstract

In terms of regulation of gene expression, gonadotropin-releasing hormone receptor (GnRHR) found in extrapituitary tissues has been suggested to be different from that in the pituitary. In the present study, we examined the molecular basis of this difference using the pituitary αT3-1 and ovarian carcinoma OVCAR-3 cells. As a first step, the different expression levels of GnRHR mRNA in the pituitary and ovarian cells were investigated using semi-quantitative RT-PCR. Quantitative analysis showed that the expression level of hGnRHR is a nine-fold higher in primary pituitary tissues than the primary culture of ovarian carcinomas (PCO). In pituitary αT3-1 cells, the expression level of hGnRHR was ten-fold higher than ovarian carcinoma OVCAR-3 cells. The possibility of the differential use of various cell-specific promoters in different cells was addressed by transiently transfecting cells with 3′-deletion clones of human GnRHR promoter. Sequential deletion of the 5′-flanking region of the gene revealed the use of two putative promoters, designated PR1 (-771 to -557) and PR2 (-1351 to -1022), and a negative control region (-1022 to -771), in the pituitary and ovarian cells. The same promoters appeared to be utilized for driving the basal promoter activities in both αT3-1 and OVCAR-3 cells, suggesting that there is no cell-specific promoter usage for the human GnRHR gene. Alternatively, the involvement of different regulatory protein factors was investigated using electrophoretic gel mobility shift assays. When end-labeled PR1 was used as a probe, two unique shifted complexes were identified in OVCAR-3 cells when compared to αT3-1 cells. One unique protein–DNA complex was observed in αT3-1 cells compared to OVCAR-3 cells when incubated with end-labeled PR2 as a probe. These DNA–protein complexes appeared to be specific, as they competed with excess amount of unlabelled competitor PR1 and PR2, respectively. In summary, it is unlikely that the use of a cell-specific promoter contributes to the different characteristics of ovarian GnRHR. Our study demonstrates that one mechanism by which cell-specific expression of human GnRHR is achieved is through the binding of distinct and/or combinations of cell-specific regulatory factors to various promoter elements in the 5′-flanking region of the gene.