Abstract

Primate and equine species are thought to be unique among mammals in synthesizing placental gonadotropin glycoprotein hormones. Human chorionic gonadotropin (CG) and equine pregnant mare's serum gonadotropin (PMSG) are produced in placenta by the specific activation of a glycoprotein hormone α-subunit gene and a corresponding β-subunit gene. The evolutionary mechanisms for the apparently independent aquisition of tissue specificity were investigated by cloning the 5′ flanking region of the equine α-subunit gene and comparing the DNA elements and trans-acting factors involved in placental expression. We find that though the equine gene is expressed and induced by cAMP, it does not contain the elements known to confer tissue-specific expression to the human gene, the cAMP response element (CRE) and the trophoblast-specific element (TSE), nor does it bind to the trans-acting factors CREB and TSEB. Instead, an additional factor (α-ACT) is found which binds to the equine and human, but not the murine, α-subunit genes in a region between the positions of the CRE and TSE and confers cAMP responsiveness.