Glycoprotein hormone alpha-subunit functions synergistically with progesterone to stimulate differentiation of cultured human endometrial stromal cells to decidualized cells: a novel role for free alpha-subunit in reproduction

Abstract

Glycoprotein hormone-free alpha subunit is secreted by the pituitary throughout the menstrual cycle and by the placenta during pregnancy. We showed previously that free alpha subunit stimulated PRL secretion from term pregnancy decidual cells, suggesting a function for free alpha in pregnancy. However, no role has been ascribed to free alpha in the normal menstrual cycle. Using an in vitro model, we examined the role of alpha subunit in regulating human endometrial stromal cell differentiation (decidualization). PRL and insulin-like growth factor binding protein-1 (IGFBP-1), specific decidual secretory products, were used as markers of decidualization. We found that alpha subunit acted synergistically with progesterone (P) to induce more rapid decidualization with higher output (2- to 6-fold) of PRL and IGFBP-1, compared with P alone (P < 0.01). The effect of alpha was dose dependent, with stimulatory activity starting at 0.05 ng/ml and reaching maximal levels at 1-2 ng/ml. These levels correspond to serum concentrations of free alpha found during the luteal phase of the menstrual cycle when endometrial decidualization occurs in vivo. These findings demonstrate new biological activity for alpha subunit in the regulation of human endometrial decidualization and indicate that free alpha plays a role in human reproduction. Furthermore, demonstration of potential bioactivities of free alpha subunit has important implications for understanding normal endocrine function and various pathological conditions.