Neal B. West

Analysis of monomeric-dimeric states of the estrogen receptor with monoclonal antiestrophilins.

We studied the antibody-combining properties of 3 forms of the estrogen receptor found in buffers of high ionic strength. Shifts to a faster sedimenting peak on sucrose gradients or a faster eluting peak on a gel filtration column with antibody addition allowed us to determine whether a given form contained one, two or more antibody-binding sites. The monomeric cytosolic estrogen receptor, ERC, contained one antibody binding site for each of 2 monoclonal antiestrophilins (H222 and H165, provided by Abbott Laboratories). Both the heat-transformed cytosolic estrogen receptor, ERC*, and a major fraction of the estrogen receptor extracted from nuclei, ERN, contained two sites for H165, but only one for H222. A minor fraction of ERN had only one site for each antibody. The kinetics of transformation of ERC to a species with two H165 binding sites were appropriate to a dimerization of ERC*. Addition of H222, but not H165, before the onset of the heat-induced transformation blocked the formation of ERC to ERC. These data suggest that ERC* and a major form of ERN are comprised of two immunologically similar subunits identical to ERC. Also, the antigenic determinant for H222, but not H165, appears to be located close to the dimerization domain. The minor form of ERN appears to contain an altered or dissimilar subunit.

Progesterone-mediated suppression of estradiol receptors in cynomolgus macaque cervix, endometrium and oviduct during sequential estradiol-progesterone treatment

We used sequential treatment with implants of estradiol (E2) and progesterone (P) to create varied hormonal states in a group of spayed cynomolgus macaques. The reproductive tracts were removed, and nuclear and cytosolic estrogen receptors were analyzed in the cervical mucosa, endometrium, and oviducts. Nuclear receptor quantities were greater in tissues of E2-treated monkeys than in tissues of spayed animals. Sequential P treatment, even in the presence of continuous E2, decreased the amounts of nuclear and cytosolic E2 receptors. In the oviduct and endometrium, the P-mediated suppression of receptors occurred within 1 or 2 days. In the cervix, suppression occurred only if the serum P:E2 ratio was elevated to twice the amount (approximately 100:1) usually found during the luteal phase of the menstrual cycle (approximately 50:1) in this species. Of these three reproductive tract tissues, the cervix had the highest threshold for suppression by P of E2 receptors in the presence of E2.

Localization and regulation of estrogen, progestin and androgen receptors in the seminal vesicle of the rhesus monkey

We have used monoclonal antibodies against the estrogen (E), progestin (P) and androgen (A) receptors (R) to study receptor localization and regulation in the seminal vesicles of rhesus monkeys under different hormonal conditions. The antibodies caused substantial shifts of the appropriately labeled receptors on sucrose gradients. ER levels were lower in intact males than in immature, castrate, and estrogen-treated castrates. With immunocytochemistry, ER were detectable only in stromal and smooth muscle cells, not the epithelium. The number of ER-positive stromal cells was significantly lower in intact males than in immature, castrate, and estrogen-treated castrates, and low in a DHT-treated castrate animal. Androgen receptors were localized in epithelial as well as stromal and smooth muscle cells, and the number of AR-positive stromal cells was highest in intact adults and lowest in castrated and immature animals. Estrogen treatment at the time of castration induced PR in the ER-positive stromal cells, prevented a decline in the number of AR-positive stromal cells, and caused stromal hypertrophy. In summary, in the seminal vesicle, as in the prostate, ER is restricted to the fibromuscular stroma, is suppressed by androgens, and can mediate induction of PR on estrogen treatment. Androgen receptors are present in epithelial as well as stromal and smooth muscle cells, but variations in hormonal state appear to affect regulation of AR more in the stroma than the epithelium.

ESTROGEN RECEPTORS PROGESTIN RECEPTORS AND DNA SYNTHESIS IN THE MACAQUE ENDOMETRIUM DURING THE LUTEAL-FOLLICULAR TRANSITION

We have suggested that in the nonhuman primate endometrium, stromal cells might play a role in mediating the effects of estrogen on the epithelium, especially during the luteal-follicular transition (LFT) when target cells normally escape from the inhibitory influence of progesterone (P). We now report that like estrogen receptors (ER), endometrial progestin receptors (PR) are detectable only in stromal cells until the fifth day of the LFT. With a technique that combined immunocytochemistry and autoradiography on the same sections, we characterized the cellular distribution of ER or PR coincidentally with the localization of [3H]thymidine taken up in vitro by endometria from monkeys undergoing an LFT. DNA synthesis in the glands of the upper endometrium was E2-dependent, but the distribution of [3H]thymidine was not positively correlated with the presence of ER or PR. Readministration of P to animals on days 3 or 4 of the LFT significantly reduced the [3H]thymidine labeling index of the glandular epithelium and caused stromal ER to decline, but P did not block the eventual appearance of ER in epithelial cells on day 5 of the LFT. Thus, E2 stimulated DNA synthesis in epithelial cells that lacked ER, and P suppressed DNA synthesis in these cells even though PR was only detected in the stroma when P treatment began. These data are consistent with a role for endometrial stromal cells in mediating the effects of E2 and P on the epithelium during the LFT.

Progesterone Suppression of the Estradiol Receptor in the Reproductive Tract of Macaques, Cats, and Hamsters

Few biological phenomena are so well described and yet so poorly understood as the periodic morphological changes that occur in the mammalian reproductive tract during estrous or menstrual cycles.

Progesterone treatment suppresses estrogen receptor in the sex skin of Macaca nemestrina.

We measured tightly bound nuclear estrogen receptors (ER) in sex skin biopsies obtained from pig-tailed macaques (Macaca nemestrina) which were previously ovariectomized and treated with an estradiol-progesterone regimen. Incubation of fresh tissue slices with a saturating concentration of [3H]estradiol (E2) was done to determine the capacity of nuclear acceptor sites to bind activated ER with high affinity. The radiolabeled ER was extracted from nuclei with 0.5 M KCl, complexed with an anti-ER monoclonal antibody, and quantitated by analysis on sucrose gradients. Even though serum E2 levels were unchanged, 7 and 14 days of sequential progesterone (P) treatment decreased ER amounts below those found after 7, 14 and 21-23 days of E2 treatment. ER regulation in sex skin of this species is similar to that found in macaque reproductive tract; P suppresses ER levels even in the presence of continuous E2. The tissue responses of sex skin to the hormone treatments correlated well with the measured fluctuations of tightly bound nuclear ER, which suggests the functional significance of this ER component.

Immunocytochemistry of the estrogen receptor in spontaneous endometriosis in rhesus macaques

Immunocytochemical, biochemical, and histologic analysis of endometriotic lesions and endometria from rhesus macaques with endometriosis revealed several distinctions between ectopic and eutopic endometrium. In lesions, unlike endometrium, neither the mean percentages of estrogen receptor positive (ER+) cells nor the total ER content changed significantly during the menstrual cycle. In eutopic endometria, ER staining in both stromal and epithelial cells increased and decreased synchronously during the cycle, but in endometriotic lesions, such synchrony was lacking. Moreover, in lesions, unlike endometria, the percentage of ER+ cells was low in the stroma and highly variable in epithelium throughout the cycle. These data, taken together, indicate a defect in the hormonal regulation of ER in endometriotic lesions of monkeys.

Differential suppression of progesterone receptors by progesterone in the reproductive tract of female macaques

Ovariectomized cynomolgus macaques were treated with implants of estradiol (E2) for 14 days. Some animals then received an additional implant of progesterone (P) for 7-14 more days. After treatment with either E2 alone or with E2 plus P we removed the reproductive tracts and measured nuclear and cytosolic P receptors by exchange assay. In addition we used steroid radioimmunoassays(RIA) to measure levels of E2 and P in parallel aliquots of the nuclear and cytosolic fractions. P treatment reduced the concentrations of E2 in nuclear and cytosolic fractions in the cervix, endometrium, myometrium and oviduct compared to the amounts present after 14 days of E2; these data are consistent with many reports that P treatment significantly lowers the amount of nuclear and cytosolic estrogen receptors in all of these tissues. In the oviduct, myometrium and cervix both cytosolic and nuclear P receptor levels were lowered during P action. In the endometrium, however, P treatment reduced the amount of P receptor only in the cytosolic but not the nuclear fraction. RIA determinations of the amount of P retained in nuclear fractions of the P-treated animals indicate that P levels were significantly elevated only in the nuclei obtained from endometrium. This specific increase in the retention of P by endometrial nuclei during P action is consistent with the specific retention of P receptor by endometrial nuclei. These results lead to the unexpected conclusion that the stimulatory effects of P as expressed in the maintenance of the progestational state in the primate endometrium may require higher levels of occupied nuclear P receptor than do the suppressive effects of P as expressed in oviductal atrophy, diminished cervical secretion and myometrial quieting.

IMMUNORECOGNITION OF ESTROGEN RECEPTORS BY MONOCLONAL ANTIBODY H222 IN REPRODUCTIVE TISSUES OF THE RED-SIDED GARTER SNAKE

A study was conducted to determine if a monoclonal antibody (MAB), H222, prepared against human breast cancer estrogen receptors (ER) would recognize ER in the oviduct and liver of garter snakes (Thamnophis sirtalis parietalis). Using sucrose gradient analysis of antibody-ER complexes bound to [3H]estradiol we have determined that the MAB H222 binds to an ER in the cytosolic and nuclear extracts of snake tissues. The snake ER is not bound by nonspecific MABs in the sucrose gradient analysis. Further, the snake ER does not bind to other steroids, including a synthetic progestin, R5020, or the androgens 5 alpha dihydrotestosterone and R1881. The quantity of ER in the snake oviduct (200-700 fmol/mg DNA) is within an order of magnitude of that found in the oviduct of the nonhuman primate. These results suggest that the MAB H222 and 17 beta-estradiol bind to an ER in the snake that shares common properties with mammalian ER.

Immunocytochemistry of Estrogen and Progestin Receptors in the Primate Reproductive Tract

The central focus of our research program, since its inception, has been on steroid receptors as components of regulatory mechanisms that control tissue structure and function in the reproductive tract in female primates. Our approach has been to correlate fluctuations in the levels of receptors with the morphological and physiological effects of the gonadal steroids. Our long-term goal is to deepen our understanding of how steroids bring about the various transformations that occur in the primate reproductive tract during the individual’s life history. Our current research depends heavily on immunocytochemical techniques that have come to maturity in our laboratory over the last few years (1–3). Our findings to date support the hypothesis (4) that there are significant stromal-epithelial interactions involved in steroid hormone action in the adult reproductive tract. Our findings also support the view that in vivo, the bulk of the estrogen receptor (ER) and progestin receptor (PR) are located in target cell nuclei, even in the absence of ligand (5–7).