Oestrogen and progesterone receptors in chick oviduct chromatin after administration of oestradiol, progesterone or anti-oestrogen.

Oestrogen-primed and withdrawn chicks were injected with oestradiol benzoate, progesterone, and/or the anti-oestrogens tamoxifen and 4-hydroxytamoxifen. Oestrogen receptors were studied in oviduct chromatin solubilized by mild digestion of purified nuclei with micrococcal nuclease. After a single injection of oestradiol benzoate, ultracentrifugation on sucrose gradients of chromatin extracts labelled with [3H]-oestradiol showed two peaks of oestradiol binding sites, sedimenting at 13--14 S and 7--8 S. After repeated injections of oestradiol benzoate, the 13--14 S peak increased more than the 7--8 S peak. After injection of anti-oestrogen alone or together with oestradiol benzoate, no [3H]oestradiol-binding or 4-hydroxy[3H]tamoxifen-binding peaks were detected in the chromatin. Injection of progesterone also produced an increase of the 13--14 S and 7--8 S chromatin oestradiol receptor. Progesterone receptor could only by detected in chromatin early after progesterone administration, and it sedimented in density gradients with the 12 S mononucleosome fraction. Tamoxifen injected together with progesterone gave higher levels of 13--14 S oestrogen binding sites than did progesterone alone. The presence of a 13--14 S peak of oestrogen binding sites in hormonal situations which promote a biological response in the chick oviduct, and the absence of this peak after administration of anti-oestrogens, suggest that this subfraction of chromatin contains elements involved in gene regulation.     

Mating changes the subcellular distribution and the functionality of estrogen receptors in the rat oviduct

Background  

Mating changes the mode of action of 17beta-estradiol (E2) to accelerate oviductal egg transport from a nongenomic to a genomic mode, although in both pathways estrogen receptors (ER) are required. This change was designated as intracellular path shifting (IPS).     

Evidence for two structurally related progesterone receptors in chick oviduct cytosol

The existence of two progesterone receptor forms present in crude cytosol of chick oviduct has been demonstrated by photoaffinity labelling using [3H]R5020. On SDS-polyacrylamide gels these two forms exhibit app. Mr-values of 79000 and 109000 corresponding to the progesterone receptor forms A and B. Peptide maps of photoaffinity-labelled steroid receptors have been established by limited proteolysis with alpha-chymotrypsin. The peptide map obtained for chick oviduct cytosol progesterone receptor crosslinked with [3H]R5020 proved to be the sum of peptides obtained from partially purified preparations of forms A and B. The peptide maps of both progesterone receptor forms were identical for peptides below the Mr-value of form A, indicating extensive homology of the two forms. A significantly different peptide pattern was observed for the rat liver glucocorticoid receptor crosslinked with [3H]triamcinolone acetonide. Prolonged proteolysis with chymotrypsin gave rise to peptides with Mr-values of 6000 and 10000 from the hormone-binding domain of progesterone and glucocorticoid receptors, respectively.     

Oxytocin receptors in rat oviduct.

Particles from rat oviduct homogenates sedimenting between 1,000 × g for 10 min and 48,000 × g for 30 min bound [³H]oxytocin $\text{in vitro}$. The apparent K_d for oxytocin binding to high affinity sites in particles prepared from estrogen-treated rats was 1.8 × 10^?9 M. About 215 fmoles of oxytocin were bound per mg of particulate protein. Oviducal preparations from untreated rats had about 25% the affinity for oxytocin of preparations from estrogen-treated rats. Oxytocin analogues were bound to oviducal particles in the same rank order as their uterotonic potencies: (desamino)oxytocin > (4-threonine)oxytocin > oxytocin > (8-lysine)vasopressin ? desaminotocinol. No oxytocin binding could be shown with the particulate fractions from rat ovary. The binding of oxytocin to the oviduct and uterus are similar in affinity, number of binding sites, ligand specificity, and the increase in response to estrogen treatment.     

Immunological similarities between microsomal, cytosolic and nuclear progesterone receptors in the chick oviduct

Progesterone receptor of microsomal, cytosolic and nuclear fractions of the chick oviduct was studied by using biochemical, immunochemical and immunohistochemical analyses. In the oviducts of estrogen-treated immature chicks cytosolic, microsomal and nuclear PR were 90, 9.6 and 0.4% of the total binding, respectively, whereas the corresponding values 1 h after progesterone administration were 33, 6 and 61%, respectively. Progesterone decreased the cytosolic and microsomal PR 90 and 88%, respectively. All the receptor forms were similarly recognized by anti-PR-IgG raised against B-subunit of the PR. By using a sensitive immunoelectron microscopy in most cells of the oviduct only nuclear PR antigen was detected both in estrogen-treated and estrogen-progesterone-treated chick oviductal cells. In most cells no PR was found in the cytoplasm nor in the microsomes. Occasionally in very few cells small amounts of PR were found, associated with rough endoplasmic reticulum close to the nucleus containing a high concentration of the PR. This is probably due to a nascent synthesis of the PR. It is concluded that the major part of the cytosolic as well as microsomal PR is due to a homogenization artefact caused by a redistribution of the unoccupied PR located in the nuclei in situ.     

Oestrogen receptors and survival in early breast cancer.

Oestrogen receptor status was related to survival in 414 patients with primary breast cancer. Women with oestrogen receptors in their tumours survived significantly longer than those without receptors; this was true for both premenopausal and postmenopausal women and also when the patients were subdivided into those with and without axillary metastases. Patients with axillary metastases and no oestrogen receptors in their tumours had the worst prognosis, while women with axillary metastases and oestrogen receptors had a death rate similar to that of women with no axillary metastases and no receptors. Patients without oestrogen receptors and with no axillary metastases were identified as a high-risk group, and it would seem appropriate to include such patients in future trials for adjuvant therapy in early breast cancer.     

Testosterone binding in the chick oviduct

A novel androgen receptor was observed in estrogen-stimulated chick oviducts but not in unstimulated oviducts. This binding component showed a preference for androgens and could therefore be distinguished from oviduct receptors for estadiol and progesterone. Testosterone was tightly bound having a dissociation constant (Kd) of 2.7 × 10^?10 M. Sucrose gradient centrifugation, under low ionic strength conditions, showed testosterone to be bound as an 85 complex. These binding properties, plus the estrogen dependency of this component, suggest its role as a biological receptor for androgens.     

Pyrimidine biosynthesis and its regulation in the estrogen-stimulated chick oviduct.

Studies on the incorporation of radio-labeled precursors into orotic acid and the pyrimidine nucleotides of RNA have established the occurrence of the orotate pathway for the de novo biosynthesis of pyrimidines in the chick oviduct. Measurements of the rate of incorporation of precursors into orotic acid in minces of oviduct revealed the activity of the orotate pathway to be accelerated in response to estrogen-stimulated nucleic acid synthesis and tissue growth. These data indicate that extrahepatic tissues of avian species meet their requirements for pyrimidine nucleotides through de novo synthesis rather than depend upon the liver or other exogenous sources for a supply of preformed pyrimidines. An examination of the influence of pyrimidine and purine nucleosides on the incorporation of radio-labeled precursors into orotic acid yielded evidence that pyrimidine biosynthesis in the chick is quite sensitive to inhibition by both purines and pyrimidines; the data indicate the reaction catalyzed by carbamoylphosphate synthetase to be the site of inhibition in both cases.     

Characterization and partial purification of an estrogen type II binding site in chick oviduct cytosol

An estrogen binding site of moderate affinity (Kd approximately 10 nM) and high capacity (approximately 25-70 pmol/g of tissue) was measured in DES-stimulated chick oviduct cytosol. Saturation analysis by [3H]estradiol exchange demonstrated that this binding site displayed sigmoidal binding characteristics suggesting a cooperative binding mechanism. Competition analysis with a number of compounds demonstrated that the bioflavonoid luteolin was a better competitor for binding to type II sites in chick than either estradiol or DES. Steroid specificity was demonstrated by the inability of 17 alpha-estradiol, progesterone, testosterone, corticosterone, and the triphenylethylene antiestrogen nafoxidine (U-1100A) to compete for [3H]-17 beta-estradiol binding to chick oviduct cytosol preparations. In addition, the binding site appeared to be sensitive to sulfhydryl reducing reagents as evidenced by a 75% reduction in binding activity in the presence of dithiothreitol. Both prelabeling and postlabeling procedures used in conjunction with Sephacryl S-300 chromatography resulted in a single major peak of type II binding activity representing a molecular weight in the 40,000 range. Type II binding activity was recoverable after precipitation with ammonium sulfate, and this material was subjected to a variety of column chromatography procedures in order to achieve further purification of the type II site. Significant purification of the site was achieved with a bioflavonoid-Sepharose (quercetin-Sepharose) affinity matrix. The purified type II sites eluted from quercetin-Sepharose displayed the same sigmoidal binding curves characteristic of native cytosol.     

The chick oviduct in tissue culture. I. Initial characterization of growing primary oviduct tissue cultures

A simple three-enzyme treatment of collagenase, dispase and hyaluronidase on finely minced chick oviduct yields clumps of 50-150 cells. These cells attach to collagen-treated dishes and survive in culture for at least 2 weeks without subculturing. Oviduct cell cultures can also be induced to grow. Estradiol or epidermal growth factor (EGF) induce a 40% increase in cells in 4 days when cultures are grown in serum levels that do not support growth. Serum from estrogen-stimulated chicks promotes rapid cellular proliferation (doubling times of 1-2 days). Sera from estrogen withdrawn chicks, laying hen or horse do not support as rapid proliferation. The oviduct growth-promoting factors in serum from estrogen-stimulated chicks are not steroids or fibroblast growth factors (FGF). Removal of steroids from these sera by charcoal treatment or delipidization does not decrease the rate of growth. The addition of 1-100 nM estradiol does not increase a serum's ability to promote growth. Purified FGF or platelet-derived growth factor (PDGF) do not induce oviduct proliferation. These results were reproduced in oviduct cell cultures started from estrogen-stimulated and withdrawn chicks as well as laying hens. Thus the factors in serum from estrogen-stimulated chicks that promote rapid oviduct growth are induced by estrogen treatments in vivo, but do not seem to be only steroids.     

Lysozyme (muramidase) in isolated chick oviduct nuclei.

We have recently observed lysozyme (muramidase) in histone fractions prepared from isolated chick oviduct chromatin. This communication contains a quantitation of the specific activity of nuclear lysozyme. The time course of appearance of nuclear and cytoplasmic lysozyme during hormonally induced tissue differentiation is shown. These and other results suggest that nuclear lysozyme is cytoplasmic in origin and has translocated to the nucleus of the tissue. Conditions are described for the satisfactory extraction of lysozyme from chromatin prepared from nuclei.     

Fractionation of chick oviduct chromatin. Nuclease-resistant deoxyribonucleic acid.

Chromatin isolated from several chick tissues was treated with micrococcal nuclease. A limited degree of tissue specificity of chromatin DNA resistance to nuclease digestion was observed. No difference in the extent of nuclease resistance of chromatin DNA was detected during oestrogen-induced oviduct differentiation. This suggested that the amount of non-histone chromosomal protein does not play an important role in the sensitivity of chromatin DNA to nuclease digestion. Studies of nuclease resistance of chromatin DNA after dissociation and reconstitution of chromatin proteins and ethanol extraction of chromatin indicate that the histones protect the DNA from nuclease attack. Slow thermal denaturation of nuclease-resistant DNA suggests that the protected DNA sequences may be (A+T)-rich, and the (G+C)-rich satellites present in total chick DNA are sensitive to nuclease.