Nuclear matrix localization and specific matrix DNA binding by receptor binding factor 1 of the avian oviduct progesterone receptor

A chromatin acceptor protein for the avian oviduct progesterone receptor (PR), termed receptor binding factor 1 (RBF-1), has recently been shown to (1) be a component of the nuclear binding sites (acceptor sites) for PR and (2) generate high-affinity binding sites (termed the RBF-1 class of sites) on avian genomic DNA [Schuchard et al. (1991) Biochemistry 30, 4535-4542]. A second class of sites and its associated protein (termed RBF-2) were also identified. This paper demonstrates that RBF-1 and also the PR nuclear binding sites are localized in the oviduct nuclear matrix. RBF-1 is found in abundance in the nuclear matrix of liver but only in traces in the nuclear matrix of spleen. Extraction of the nuclear matrix with 4.0 M Gdn-HCl results in the complete removal of RBF-1 as occurs with whole chromatin. Interestingly, a second class of specific PR binding, termed RBF-2, remains on the nuclear matrix after the removal of all RBF-1. Southern blot analysis indicates that the nuclear matrix DNA contains sequences homologous with the 5'-flanking domains of the rapidly steroid regulated c-myc and c-jun protooncogenes and the beta-actin gene, but not genomic sequences of the late sex steroid regulated gene, ovalbumin, or the alpha-actin gene. A specific, small region in the 5'-flanking domain of the c-myc gene appears to be associated with the nuclear matrix. Southwestern blot analysis using partially purified RBF-1 shows a marked affinity and specificity of the RBF-1 for the nuclear matrix DNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Partial purification and preparation of polyclonal antibodies against candidate chromatin acceptor proteins for the avian oviduct progesterone receptor

Steroid hormones bind to specific receptors in target cells that in turn bind to chromatin acceptor sites to alter gene expression. These chromatin acceptor sites, for a variety of steroid receptors, appear to be composed of acceptor proteins tightly bound to the DNA. This paper describes the preparation of new polyclonal antibodies against the chromatin acceptor proteins of the avian oviduct progesterone receptor (PR) and their use in monitoring the purification of the acceptor proteins. This laboratory recently reported the preparation of monoclonal antibodies that do recognize the intact chromatin acceptor sites containing DNA-bound acceptor proteins but not the unbound acceptor protein for PR [Goldberger, A., Horton, M., Katzmann, J., & Spelsberg, T. C. (1987) Biochemistry 26, 5811-5816]. In order to obtain antibodies that recognize the unbound acceptor protein, polyclonal antibodies were prepared against a highly purified preparation of the acceptor protein(s). Analyses by ELISA indicate that the polyclonal antibodies recognize both the intact acceptor sites and the unbound (free) acceptor protein(s). Using these antibodies in Western immunoblots, two antigenic species of 10 and 6 kDa were detected in crude fractions of acceptor protein. These two protein species could be separated and further enriched while still retaining acceptor activity, i.e., the capacity to generate specific binding of the PR. Thus, the antigenic activity is closely associated with, if not identical with, the acceptor activity. Whether one or both species are used in vivo or whether the 6-kDa species is a proteolytic product of the 10-kDa species is unknown.(ABSTRACT TRUNCATED AT 250 WORDS)     

Neuropsychopharmacological properties of neuroactive steroids.

In addition to the well-known genomic effects of steroid molecules via intracellular steroid receptors, certain steroids rapidly alter neuronal excitability through interaction with neurotransmitter-gated ion channels. Several of these steroids accumulate in the brain after local synthesis or after metabolism of adrenal steroids. The 3alpha-hydroxy ring A-reduced pregnane steroids allopregnanolone and tetrahydrodeoxycorticosterone have been thought not to interact with intracellular receptors, but enhance gamma-aminobutyric acid (GABA)-mediated chloride currents, whereas pregnenolone sulfate and dehydroepiandrosterone (DHEA) sulfate display functional antagonistic properties at GABA(A) receptors. We demonstrated that these neuroactive steroids can regulate also gene expression via the progesterone receptor after intracellular oxidation. Thus, in physiological concentrations these neuroactive steroids regulate neuronal function through their concurrent influence on transmitter-gated ion channels and gene expression. When administered in animal studies, memory-enhancing effects have been shown for pregnenolone sulfate and DHEA. The 3alpha-hydroxy ring A-reduced neuroactive steroids predominantly display anxiolytic, anticonvulsant, and hypnotic activities. Sleep studies evaluating the effects of progesterone as a precursor molecule for these neuroactive steroids revealed a sleep electroencephalogram pattern similar to that obtained by the administration of benzodiazepines. These findings extend the concept of a "cross-talk" between membrane and nuclear hormone effects and provide a new role for the therapeutic application of these steroids in neurology and psychiatry.     

Enrichment of a second class of native acceptor sites for the avian oviduct progesterone receptor as intact chromatin fragments

Several classes of specific progesterone receptor (PR) nuclear binding sites (acceptor sites) have previously been identified in avian oviduct chromatin on the basis of different binding affinities. Recently, two classes of acceptor proteins (AP) that are associated with these binding sites in the avian oviduct have been identified. These APs were termed receptor binding factors (RBF-1 and -2), and one (RBF-1) has been purified [Schuchard et al. (1991) Biochemistry 30, 4535-4542]. The RBF-1 is associated with the highest affinity class of sites in the intact chromatin, and the RBF-2 is associated with the second highest affinity class of sites. The PR binding sites and their associated RBF-2 protein remain with the residual chromatin fraction following extraction by 4 M Gdn-HCl. This Gdn-HCl-treated chromatin has been termed nucleoacidic protein (NAP). This paper describes the 200-fold enrichment of the native RBF-2 class of PR acceptor sites beginning with the DNase I digestion of NAP to obtain DNase-resistant fragment (NAPf) containing approximately 150 bp of DNA. The PR binding sites are further enriched by high-performance or fast protein liquid chromatography and chromatofocusing. Anti-RBF-1/RBF-2 protein antibodies identify antigens that coelute with the PR binding activity. Hybridization analysis of the DNAf from the enriched NAPf demonstrates sequence homologies with the nuclear matrix DNA as well as with genomic sequences of the rapid steroid responding nuclear protooncogenes c-myc and c-jun. However, comparative analyses of the whole genomic DNA with the nuclear matrix DNA indicate that the RBF-2 (NAPf) is largely nonnuclear matrix.(ABSTRACT TRUNCATED AT 250 WORDS)     

A nuclear binding assay for measurement of biologically active androgen receptors in animal tissues and human prostate cancer

A nuclear binding (NB) assay has been developed for the measurement in intact viable cells of biologically active (functional) estrogen and progesterone receptors, i.e. those capable of binding to nuclear acceptor sites [Spelsberg et al., Endocrinology 121: 631 (1987)]. This paper describes the application of this assay to analyses of androgen receptors in the guinea pig seminal vesicle and in human prostatic carcinoma. Cells from fresh animal seminal vesicles or human prostate carcinoma are isolated using collagenase and are incubated with [3H]R1881 for 1 h at 22 degrees C, after which nuclei are isolated at 4 degrees C and assayed for DNA and radioactivity. This NB assay demonstrates a saturable, temperature dependent, steroid and tissue specific nuclear binding of [3H]R1881 for the guinea pig-seminal vesicle system. The nuclear binding is of high affinity and low capacity. The NB assay reveals several important aspects of the androgen and estrogen receptors in target tissues: (1) the nuclear acceptor sites for androgen receptor (AR) are steroid receptor specific; (2) there are different concentrations of the androgen and estrogen receptors between the epithelium and the fibromuscular components of the guinea pig seminal vesicle; and finally (3) some biopsies of human prostate cancer appear to contain biologically inactive AR. This assay may be useful in the analyses of functional receptors in biopsies of human cancer cells.     

Reconstitution of nativelike nuclear acceptor sites of the avian oviduct progesterone receptor: evidence for involvement of specific chromatin proteins and specific DNA sequences

A specific fraction of avian oviduct chromosomal proteins can be reannealed to pure avian DNA to reconstitute nativelike specific nuclear binding sites (acceptor sites) for the oviduct progesterone receptor (PR). These specific nuclear binding sites represent the difference between the binding to the reconstituted NAP and that to pure DNA. The specific fraction of chromatin protein which contains the acceptor activity, fraction CP-3, is very tightly bound to hen DNA in a complex termed nucleoacidic protein (NAP). Removal of the CP-3 fraction from NAP results in a loss of specific PR binding sites. Resins containing chromatin adsorbed to hydroxylapatite are used as a rapid method to isolate the CP-3 fraction. Reconstitution of the CP-3 fraction to DNA by the described method involving a regressing gradient of 6-0 M guanidine hydrochloride (Gdn-HCl) results in a reconstituted NAP which displays specific PR binding sites identical with those in native (undissociated) NAP and whole chromatin. Optimal conditions and potential problems for reconstituting these nucleoproteins are described. Only partially purified receptor preparations were used in these cell-free binding analyses since they have been shown to bind with similar properties and patterns as the nuclear binding in vivo. Therefore, the binding of PR to the reconstituted NAPs was demonstrated to be receptor dependent, saturable, and of high affinity. Further, the pattern of binding to the reconstituted sites mimics those which are observed in vivo. Thus, nonfunctional receptors that cannot translocate and bind to the nuclear acceptor sites in vivo also failed to bind to the acceptor sites on the reconstituted NAPs generated by the acceptor proteins. In contrast, the binding to pure DNA does not reflect these receptor differences in receptor bindings. Specific binding of PR to reconstituted NAP can be reversed by again removing the protein fraction. Moreover, the specific binding can be destroyed by proteases and protected by protease inhibitors, indicating that acceptor activity is proteinaceous in nature. The reconstitution of the activity is both a concentration-dependent and time-dependent process. During the reconstitution, acceptor activity appears to reconstitute on the DNA when the Gdn-HCl concentration reaches 2.0 M. By use of the reconstitution method as an assay for acceptor activity, the activity in the CP-3 fraction was shown by molecular sieve chromatography to elute in a relatively broad molecular weight range between 13 000 and 25 000. The activity also focuses in isoelectric focusing resins with apparent pI's of 5.2 and 6.4.(ABSTRACT TRUNCATED AT 400 WORDS)     

Microsomal receptor for steroid hormones: functional implications for nuclear activity

Target tissues for steroid hormones are responsive by virtue of and to the extent of their content of functional intracellular receptors. Recent years have seen a shift in considerations of the cellular dynamics and distribution of these receptors, with current views favoring predominant intranuclear localization in the intact cell. This paper summarizes our analyses of the microsomal estrogen and androgen binding capability of rat uterine and ventral prostate tissue, respectively; these studies have revealed a set of high affinity sites that may act as a conduit for estrogen traversing the cell en route to the nucleus. These sites have many properties in common with cytosolic receptors, with the salient difference of a failure to activate to a more avid DNA-binding form under conditions which permit such activation of cytosolic receptors. The microsomal estrogen-binding proteins also have appreciable affinity for progesterone, another distinction from other known cellular estrogen receptor species. Various experimental approaches were employed to demonstrate that the microsomal receptors were not simply cytosol contaminants; the most convincing evidence is the recent successful separation of the cytosolic and microsomal forms by differential ammonium sulfate precipitation. Discrete subfractionation of subcellular components on successive sucrose gradients, with simultaneous assessments of binding capability and marker enzyme concentrations, indicates that the major portion of the binding is localized within the vesicles of the endoplasmic reticulum free of significant plasma membrane contamination. The microsomal receptors are readily solubilized by extraction with high- or low-salt-containing buffers or with steroid. The residual microsomes following such extraction have the characteristics of saturable acceptor sites for cytosolic estrogen-receptor complexes. The extent to which these sites will accept the cytosolic complexes is equal to the concentration of microsomal binding sites extracted. These observations suggest three possible roles for the microsomal receptor-like proteins: (a) modulation of estrogen access to nuclear binding sites; (b) formation of functional complexes which diffuse to other extranuclear sites to alter non-genomic cellular processes; (c) regulation of nuclear concentration of estrogen-receptor complexes by virtue of producing microsomal acceptor sites for uptake of free or loosely associated nuclear complexes, previously thought to exist in the cytoplasm.     

Proteins of multiple classes may participate in nongenomic steroid actions

Responses to steroids initiated from non-nuclear receptors impinge on a wide variety of cellular responses and utilize nearly all known signal transduction webs. While the mechanisms by which steroid receptors localize in the membrane are still unclear, it is apparent that this alternative localization allows steroid receptors to participate in a wide range of complex functions influencing cell proliferation, death, and differentiation. The central debate still remains the identity of the protein class or classes that mediate membrane-initiated (nongenomic) responses. The data thus far have supported several possibilities, including: nuclear steroid receptor-like forms in non-nuclear locations; other known (nonsteroid) membrane receptors or channels with additional steroid-binding sites; enzymes; transporters; receptors for serum steroid-binding proteins; unique and previously undescribed proteins; or chimeras of typical steroid receptor domains with other unique or known protein domains. Categorizing membrane steroid receptor proteins based exclusively on the actions of antagonists and agonists, without considering cell context and protein partnering issues, may mislead us into predicting more receptor subtypes than really exist. However, the plethora of signaling and functional outcomes may indicate the participation of more than one kind of steroid-binding protein. Resolving such unanswered questions will require future investigative focus on this alternative arm of steroid action, which is likely to yield as many therapeutic opportunities as have nuclear steroid mechanisms.     

孕酮受体介导哺乳动物雌性生殖活动的分子机理

孕酮作为一种甾体激素,在哺乳动物雌性生殖活动的调控中起着关键作用。孕酮的生理功能依赖于核孕酮受体介导的基因组效应和膜孕酮受体介导的非基因组效应,这两种效应共同介导了孕酮在各种雌性生殖活动中的不同作用,包括排卵、胚胎植入、妊娠维持、分娩启动和乳腺发育等。近年来,通过基因芯片技术筛选出大量的孕酮下游靶基因,但至今未能在这些基因的启动子区域上找到传统意义上的孕酮响应元件,故推测核孕酮受体调节下游靶基因转录活动的方式可能不同于传统的类固醇核受体。基于目前最新的研究成果,文章综述了在哺乳动物雌性生殖活动中,孕酮受体介导各种生理效应的分子机理。     

Glucocorticoid receptors in mouse mammary tumors: Specific binding to nuclear components.

The specific interaction of glucocorticoids with nuclei of mouse mammary tumor was studied in vitro by incubation of the tissue with [3H]dexamethasone at 25 degrees. It was demonstrated that the mammary tumors contain a limited number of specific nuclear binding sites which were saturated with low hormone concentrations (10-8 M)9 The concentrations of specific binding sites in the nuclei were related to the concentration of cytoplasmic binding sites of unincubated tissues and varied between individual tumors. The binding component in the nuclei appeared to be a protein and was easily solubilized with 0.4 M KCl containing buffers. The ability of various corticoids to block the nuclear localization of the steroid correlated well with their glucocorticoid potency. Estradiol and progesterone at concentrations of 10-6 M were also effective in competing for the glucocorticoid receptor binding sites. However, while the glucocorticoids such as hydrocortisone and corticosterone translocated to nuclear sites also specific for dexamethasone, estradiol and progesterone competed for the cytoplasmic binding sites and did not translocate to the nucleus. The possible significance of the interaction of various steroids with the glucocorticoid receptors in mammary tumors is discussed.     

Steroid-induced nuclear binding of glucocorticoid receptors in intact hepatoma cells

Some of the early steps of steroid hormone action have been studied in cultured hepatoma cells, in which glucocorticoids induce tyrosine aminotransferase. The hypothesis that inducer steroids promote the binding of specific cytoplasmic receptors to the cell nucleus has been examined in intact cells.Binding of steroids such as dexamethasone and cortisol results in a loss of most of the receptor sites from the cytoplasm. This coincides with the binding of an equivalent number of steroid molecules in the nucleus. Both processes occur concomitantly, even when their kinetics are altered by reducing the temperature. When the inducer is removed from the culture, steroid dissociates from the nucleus while the level of cytoplasmic receptor returns to normal, even if protein or RNA synthesis is inhibited. These results suggest that nuclear binding of glucocorticoids is due to the association with the nucleus of the cytoplasmic receptor-steroid complex itself and make it unlikely that the receptor acts as a mere carrier for the intracellular transfer of the steroid.Steroids that differ in their effects on tyrosine aminotransferase induction were also studied. In contrast to those bound with inducer steroids, receptors complexed with the anti-inducer progesterone did not leave the cytosol. Further, a suboptimal inducer (deoxycorticosterone) produced an intermediate level of depletion. Thus, the biological effect of different classes of steroids can be related to their capacity to promote nuclear binding of the receptor. These data support a model proposed earlier, according to which the receptor is an allosteric regulatory protein directly involved in the hormone action, under the control of specific steroid ligands. They further suggest that the conformational state influenced by the inducer is such that a nuclear binding site on the receptor is exposed.Evidence is also presented that a distinct reaction takes place between the binding of the steroid to the receptor and the association of the complex with the nucleus. At 0 °C, this change is rate-limiting. It could correspond to the “activation” of receptor-steroid complexes known to be required for binding of the complexes by isolated nuclei, and thus represent an additional step in hormone action.     

Isolation and characterization of the Bos taurus beta-casein gene

The expression of casein genes in the mammary cells is regulated by peptide and steroid hormones. To investigate the controlling mechanisms we have isolated and characterized the bovine beta-casein gene. The gene has the size of 8.6 kb, which is 7.8 times longer than the corresponding mRNA composed of nine exons. The genomic clones include additional 8.5-kb and 4.5-kb sequences of the 5'- and 3'-flanking regions. We have determined the sequences of the 5' and 3' ends of the gene and compared them with the respective sequences of the rat beta-casein gene. Conserved sequences are identical or homologous to the potential binding sites for nuclear factors and for glucocorticoid and progesterone receptors. The regulatory region contains two different TATA signals and a repeat sequence between them.