Association of increased estrogen receptor beta2 expression with parity-induced alterations in the rat mammary gland.

In this study, we investigated the cellular and molecular events involved in parity-related alterations in mammary gland (MG) proliferation and differentiation. Rat MGs were removed on day 9 of either first (nulliparous), second (primiparous) or third (multiparous) pregnancy. Expression of steroid hormone receptors along with cellular biomarkers of proliferation and differentiation were quantified in all MG tissue compartments by immunohistochemistry.

Characterization of a plasma membrane-resident albumin-binding protein associated with the proliferation of estrogen-target, serum-sensitive cells.

Estrogens control the proliferation of their target cells through a receptor-mediated pathway. Recently presented evidence suggests that estradiol cancels the proliferative inhibition exerted by human albumin (HA) and recombinant human albumin (rHA) on estrogen-target serum-sensitive cells (indirect-negative hypothesis). We postulate that this mechanism requires the presence of a plasma membrane estrogen receptor (mER) and a plasma membrane albumin-binding protein (mABP).

Mechanism of androgen action on cell proliferation: AS3 protein as a mediator of proliferative arrest in the rat prostate.

Androgens control the proliferation of their target cells first by increasing cell proliferation and later by inhibiting the proliferation of those same cells. Recently, we reported that the AS3 protein mediates the androgen-induced quiescence in androgen-target human cell lines. Our aims were to investigate the expression of the AS3 protein in the rat prostate in situ and in human cells in culture.