Steroid hormones can act either at the level of the hypothalamus or the pituitary to regulate gonadotropin subunit gene expression. However, their exact site of action remains controversial. Using the bovine gonadotropin alpha-subunit promoter linked to an expression cassette encoding the beta-subunit of LH, we have developed a transgenic mouse model where hypersecretion of LH occurs despite the presence of elevated ovarian steroids. We used this model to determine how hypersecretion of LH could occur when steroid levels are pathological. During transition from the neonatal period to adulthood, the endogenous LHbeta subunit gene becomes completely silent in these mice, whereas the alpha-directed transgene and endogenous alpha-subunit gene remain active. Interestingly, gonadectomy stimulates expression of the endogenous alpha and LHbeta subunit genes as well as the transgene; however, only the endogenous LHbeta gene retains responsiveness to 17beta-estradiol and GnRH. In contrast, LH levels remain responsive to negative regulation by androgen. Thus, alpha-subunit gene expression, as reflected by both the transgene and the endogenous gene, has become independent of GnRH regulation and, as a result, unresponsive to estradiol-negative feedback. This process is accompanied by a decrease in estrogen receptor alpha gene expression as well as an increase in the expression of transcription factors known to regulate the alpha-subunit promoter, such as cJun and P-LIM. These studies provide in vivo evidence that estrogen-negative feedback on alpha and LHbeta subunit gene expression requires GnRH input, reflecting an indirect mechanism of action of the steroid. In contrast, androgen suppresses alpha-subunit expression in both transgenic and nontransgenic mice. This suggests that androgens must regulate alpha-subunit promoter activity independently of GnRH. In addition to allowing the assessment of site of action of sex steroids on alpha-subunit gene expression, these studies also indicate that chronic exposure of the pituitary to LH-dependent ovarian hyperstimulation leads to a heretofore-undescribed pathological condition, whereby normal regulation of alpha, but not LHbeta, subunit gene expression becomes compromised.