Monoclonal antibody recognition of estrogen receptor in rabbit corpus luteum

Abstract

We demonstrated previously by administering [3H]estradiol and using autoradiography that, in vivo, the exogenous estradiol that will sustain progesterone production is sequestered to nuclei of the luteal cells in corpora lutea of pseudopregnant rabbits. Our objective in the present experiments was to use an immunological method to demonstrate that estrogen receptor of the rabbit corpus luteum is associated with this uptake. For this purpose, we prepared nuclear extracts from corpora lutea removed from anesthetized pseudopregnant rabbits 10 min after arterial infusion of 125I-estradiol. These extracts were then analyzed by sucrose density gradient centrifugation in the presence and absence of monoclonal antibody against human breast cancer estrogen receptor. We found that the 125I-estradiol-binding component extracted with 0.5 M KCl from the nuclear pellet sediments in the 3-4S region in high-salt gradients; in the presence of monoclonal antibody (D-547 Sp2 gamma), the entire estradiol-binding component is shifted to the 8-9S region, indicating the formation of immunocomplex with the 125I-estradiol-receptor moiety. The principal estradiol-binding component that can be observed in the 3-4S region of high-salt gradients of cytosol of rabbit corpora lutea reacts with this antibody regardless of whether 125I- or [3H]estradiol is given in vivo or in vitro. In both cytosol and nuclear extracts of luteal tissue, unlabeled diethylstibestrol totally inhibits the binding of radiolabeled estrogen to this antibody-shifted 125I- or [3H]estradiol-binding moiety; neither progesterone nor testosterone inhibit binding of radiolabeled estrogen to the antibody-shifted moiety. From these findings we conclude that sequestering of estradiol by the rabbit corpus luteum in vivo is accomplished by the steroid-specific estrogen receptor that shares characteristics of the estrogen receptor found in human breast cancers, including a) antigenic features and b) the capacity to translocate estrogens from the cytosol to the nuclear fraction.