Characterization of the rat liver glucocorticoid receptor purified by DNA-cellulose and ligand affinity chromatography

Two rapid and high yield purification methods for the rat liver glucocorticoid receptor based on differential DNA affinity (method A) and ligand affinity (method B) chromatography are described. In method A, the amount of receptor in rat liver cytosol that can be activated and subsequently eluted from a DNA-cellulose column has been increased to 80% by introducing a second heat activation step. Using this method, 1.5 nmol of 25% pure glucocorticoid receptor can be routinely obtained per day from 15-20 rat livers. Method B yields about 2.2 nmol of 60% pure receptor with an overall yield of congruent to 60%. The quality of these purifications has been controlled by affinity labeling. In each case, more than 95% of purified binding activity represented the intact 92,000 +/- 400-Da glucocorticoid receptor polypeptide as shown by sodium dodecyl sulfate-gel electrophoresis and fluorography. No difference in the labeling pattern was observed using either [3H]triamcinolone acetonide (photoaffinity labeling) or [3H]dexamethasone 21-mesylate (electrophilic labeling). The electrophilic labeling step was performed in the cytosol prior to purification by method A to compare the labeled components thus purified with those obtained when the photoaffinity labeling was performed after the purification. Using this approach, distinct breakdown products of the glucocorticoid receptor were revealed, co-purifying during DNA affinity chromatography. Cross-linked receptor obtained by method A has been further purified to homogeneity by preparative sodium dodecyl sulfate-gel electrophoresis and successfully used as immunogen to raise glucocorticoid receptor antibodies in rabbits. These antibodies raised against glucocorticoid receptor, as well as those previously obtained using affinity chromatography-purified receptor, react with the receptor molecules irrespective of their method of purification. Glucocorticoid receptors purified by methods A and B have been analyzed for specific DNA-binding properties by the nitrocellulose filter binding assay.     

Immunologic analysis of human breast cancer progesterone receptors. 2. Structure, phosphorylation, and processing

We have used a monoclonal antibody (MAb) directed against chick oviduct progesterone receptors (PR), that cross-reacts with human PR, to analyze PR structure and phosphorylation. This MAb, designated PR-6, interacts only with B receptors (Mr 120,000) of T47D human breast cancer cells; it has no affinity for A receptors (Mr 94,000) or for proteolytic fragments from either protein. The antibody immunoprecipitates native B receptors and was used to study the structure of native untransformed 8S and transformed 4S receptors, using sucrose density gradient analysis, photoaffinity labeling, and gel electrophoresis. On molybdate-containing low-salt gradients, PR-6 complexes with 8S B receptors, causing their shift to the bottom of the gradient while A receptors remain at 8 S. Therefore, A and B receptors form separate 8S complexes, and we conclude that A and B do not dimerize in the holoreceptor. Similar gradient studies using salt-containing, molybdate-free buffers show that there are two forms of salt-transformed 4S receptors, comprising either A proteins or B proteins, suggesting that A and B are also not linked to one another in transformed PR. The independence of A- and B-receptor complexes was confirmed by the finding that purified, transformed B receptors bind well to DNA-cellulose. Since PR-6 cross-reacts with nuclear PR, it was used to analyze nuclear PR processing--a down-regulation step associated with receptor loss as measured by hormone binding. Insoluble nuclear receptors and soluble cytosol receptors were measured by immunoblotting following treatment of T47D cells for 5 min to 48 h with either R5020 or progesterone. From 8 to 48 h after R5020 treatment, immunoassayable receptors decreased in nuclei and were not recovered in cytosols. Nuclear receptors also decreased after progesterone treatment but replenished in cytosols between 8 and 24 h after the start of treatment. Thus, processing involves a true loss of nuclear receptor protein, and not just loss of hormone binding activity, and occurs after progesterone or R5020 treatment. This loss is chronic, however, only in R5020-treated cells. Additional studies focused on the covalent modifications of receptors. We previously described shifts in apparent molecular weight of nuclear PR following R5020 treatment using in situ photoaffinity labeling. To show whether these shifts can be explained by receptor phosphorylation, untreated cells and hormone-treated cells were metabolically labeled with [32P]orthophosphate, and the B receptors were isolated by immunoprecipitation with PR-6 and analyzed by sodium dodecyl sulfate (SDS) gel electrophoresis.(ABSTRACT TRUNCATED AT 400 WORDS)     

Immunologic analysis of human breast cancer progesterone receptors. 1. Immunoaffinity purification of transformed receptors and production of monoclonal antibodies

A monoclonal antibody (MAb), designated PR-6, produced against chick oviduct progesterone receptors [Sullivan, W. P., Beito, T. G., Proper, J., Krco, C. J., & Toft, D. O. (1986) Endocrinology (Baltimore) 119, 1549-1557] cross-reacts with the Mr 120,000 human B receptors. An immunomatrix prepared with PR-6 was used to purify progesterone receptors (PR) from T47D human breast cancer cells. Single-step immunoaffinity chromatography results in enrichment of B receptors (identified by immunoblot with PR-6 and by photoaffinity labeling with [3H]promegestone) to a specific activity of 1915 pmol/mg of protein (or 23% purity) and with 27% yield. Purity and yields as judged by gel electrophoresis and densitometric scanning of the B protein were approximately 1.7-fold higher due to partial loss in hormone binding activity at the elution step. A second purification step by diethylaminoethyl chromatography gives further enrichment to 3720 pmol/mg of protein (or 44% purity) to yield essentially two proteins, 120-kilodalton (kDa) B receptors and a 76-kDa non-steroid binding protein, each in approximately equivalent amounts. B receptors purified under these conditions are transformed and biologically active. They were maintained as undegraded 120-kDa doublets and retained both hormone and DNA binding activities. Isolated B receptors were free of the 90-kDa non-steroid binding protein observed to be associated with 8S untransformed receptors in other systems and were free also of the non-hormone binding 105-108-kDa B antigen described previously to copurify with chick PR. These purified B receptors were used as immunogen for production of four monoclonal antibodies against human PR. Three of the MAbs, designated as B-30 (IgG1), B-64 (IgG1), and B-11 (IgM), are specific for B receptors. The fourth MAb, A/B-52 (IgG1), reacts with both A and B receptors. The IgG MAbs are monospecific for human PR since they recognize and absorb native receptor-hormone complexes, displace the sedimentation of 4S receptors on salt containing sucrose gradients, and, by immunoblot assay of crude T47D cytosol, react only with receptor polypeptides. Although mice were injected with B receptors only, production of A/B-52 which recognized both A and B receptors provides evidence that these two proteins share regions of structural homology. These new MAbs are valuable reagents for further studies of human receptor structure and function and for clinical immunodetection of PR in breast tumors.     

An automatic multidimensional chromatography system for purification of human uterine progesterone receptor and induction of polyclonal antibodies

This paper reports on the synthesis of Org2058-bonded microparticulate silicas and their use in affinity chromatography as the first step for the purification of human progesterone receptor. The development of microprocessor-controlled instruments allows all the various steps to be performed automatically. The various steps used for the purification of human progesterone receptor were carried out with the FPLC system: affinity chromatography, desalting of eluate on Sephadex G-25, anion-exchange chromatography using a Mono Q column. With this procedure the receptor was purified approx. 10,000-fold within 24 h. The yield of receptor was generally 85-95%. Investigations with induced anti-progesterone receptor antibodies obtained after the fourth immunization show their immunoreactive behaviour towards progesterone receptor in crude cytosol, which was proved by sucrose density gradient centrifugation and by gel filtration on the FPLC system using a Sepharose 12 column. This implies that progesterone receptor was efficiently purified by our purification procedure.     

Purification of A-subtype pancreatic cholecystokinin receptor by immunoaffinity chromatography.

So far, no efficient affinity chromatography for CCK receptor purification has been reported that prevented obtention of sequenceable amounts of purified receptor. In this work, 10% of plasma membrane receptor sites were specifically cross-linked with the photoreactive cleavable agonist 125I-ASD-[Thr28, Ahx31]-CCK-25-33, solubilized by NP-40, chromatographied on immobilized wheat germ agglutinin and further immunopurified using anti-CCK antibodies to an overall rate of 3000-3600-fold. Analysis of eluted material demonstrated a protein migrating at Mr 85,000-100,000 and the absence of 35S-labeled impurity. This single and efficient affinity chromatography should provide enough homogeneous receptor protein for microsequence determination and leads to consider immunoaffinity chromatography on immobilized anti-ligand antibodies as a potential tool for purification of membrane receptors.     

8-Bromo-cyclic AMP induces phosphorylation of two sites in SRC-1 that facilitate ligand-independent activation of the chicken progesterone receptor and are critical for functional cooperation between SRC-1 and CREB binding protein

Elevation of intracellular 8-bromo-cyclic AMP (cAMP) can activate certain steroid receptors and enhance the ligand-dependent activation of most receptors. During ligand-independent activation of the chicken progesterone receptor (cPR(A)) with the protein kinase A (PKA) activator, 8-bromo-cAMP, we found no alteration in cPR(A) phosphorylation (W. Bai, B. G. Rowan, V. E. Allgood, B. W. O'Malley, and N. L. Weigel, J. Biol. Chem. 272:10457-10463, 1997). To determine if other receptor-associated cofactors were targets of cAMP-dependent signaling pathways, we examined the phosphorylation of steroid receptor coactivator 1 (SRC-1). We detected a 1.8-fold increase in SRC-1 phosphorylation in transfected COS-1 cells incubated with 8-bromo-cAMP. Phosphorylation was increased on two mitogen-activated protein kinase (MAPK) sites, threonine 1179 and serine 1185. PKA did not phosphorylate these sites in vitro. However, blockage of PKA activity in COS-1 cells with the PKA inhibitor (PKI) prevented the 8-bromo-cAMP-mediated phosphorylation of these sites. Incubation of COS-1 cells with 8-bromo-cAMP resulted in activation of the MAPK pathway, as determined by Western blotting with antibodies to the phosphorylated (active) form of Erk-1/2, suggesting an indirect pathway to SRC-1 phosphorylation. Mutation of threonine 1179 and serine 1185 to alanine in COS-1 cells coexpressing cPR(A) and the GRE(2)E1bCAT reporter resulted in up to a 50% decrease in coactivation during both ligand-independent activation and ligand-dependent activation. This was due, in part, to loss of functional cooperation between SRC-1 and CREB binding protein for coactivation of cPR(A). This is the first demonstration of cross talk between a signaling pathway and specific phosphorylation sites in a nuclear receptor coactivator that can regulate steroid receptor activation.     

Molecular cloning, sequence analyses, and expression of complementary DNA encoding murine progesterone receptor

Progesterone receptors exist in two molecular forms commonly designated as "A" and "B" forms, the relative proportion of which can vary among species. In murine tissues, progesterone receptor exists predominantly as the "A" form which, in mammary glands, is also under developmental regulation [Shyamala et al. (1990) Endocrinology 126, 2882-2889]. Therefore, toward resolving the molecular mechanisms responsible for the predominance of the "A" form of progesterone receptor in murine tissues and its developmental regulation, we have isolated, sequenced, and expressed the complementary DNA corresponding to the mouse progesterone receptor. Nucleotide sequence analysis revealed two in-frame ATG codons, such that the largest open reading frame beginning with the first codon could encode a polypeptide with an estimated molecular weight of 99,089, while the shorter open reading frame beginning with the second codon could produce a polypeptide with a calculated molecular weight of 81,829. The murine progesterone receptor had complete identity for the DNA binding domain of human and rabbit progesterone receptors and 99% homology with the chicken progesterone receptor; for the steroid binding domain, it had 96% homology with human and rabbit progesterone receptors and 86% homology with chicken progesterone receptors. Expression of the complete complementary DNA in Chinese hamster ovary cells yielded a protein which bound the synthetic progestin promegestone with an equilibrium dissociation constant of approximately 1 nM, and in Western blot analyses revealed both "A" and "B" forms of immunoreactive receptor.     

Hormone-dependent processing of the avian progesterone receptor

Avian progesterone receptor exists as two forms, A and B, with molecular weights of 79,000 and 110,000 daltons, respectively. The origin and significance of these two forms is an area of active investigation and debate. Monoclonal antibodies produced against these two forms were used to examine receptor stability in cytosol and changes in the receptor forms induced by hormone binding. The lability of hormone binding at elevated temperatures is well documented. Analysis by Western blotting showed the receptor was stable in freshly prepared oviduct cytosol for 2 hr at 37°C, while hormone binding was lost within 30 min. However, loss of receptor through degradation was seen when cytosol was prepared from frozen tissue or when homogenization was excessive. Progesterone was injected into diethylstilbestrol-stimulated chicks to examine, in vivo, effects of hormone treatment on receptor forms in the cytosol and nuclear fractions. Progesterone treatment caused a time- and dose-dependent conversion of the A receptor to a form (A′) with a slower electrophoretic mobility. The cytosolic progesterone receptor was divided equally between the B and A forms, while the nuclear receptor was predominantly A′. The amount of nuclear receptor was consistently less than cytosolic receptor. Receptor phosphorylation was analyzed by incubating tissue minces with [³²P]orthophosphate with or without progesterone followed by immune isolation of receptor forms. Progesterone treatment caused a time-dependent increase in cytosol receptor phosphorylation which was evident after 5 min of treatment. This phosphorylation was observed with both the A and B receptor forms. The results indicate that receptor phosphorylation is a very early event during progesterone action.     

Molecular interactions of steroid hormone receptor with its enhancer element: evidence for receptor dimer formation

A steroid hormone responsive element (GRE/PRE), sufficient to confer glucocorticoid and progesterone inducibility when linked to a reporter gene, was used in band-shift assays to examine its molecular interactions with steroid hormone receptors. Both progesterone and glucocorticoid receptors bound directly and specifically to the GRE/PRE. The purine contact sites for both form A and form B chicken progesterone receptor, as well as those for rat glucocorticoid receptor, are identical. A peptide fragment produced in bacteria that primarily contain the DNA binding domain of the glucocorticoid receptor binds first to the TGTTCT half-site of the GRE/PRE, and a second molecule binds subsequently to the TGTACA (half-site) of the GRE/PRE in a cooperative manner. Utilizing the peptide fragment and the protein A-linked fragment, we demonstrated that the receptor interacts with its cognate enhancer as a dimer.     

Biological actions of monoclonal luteinizing hormone/human chorionic gonadotropin receptor antibodies.

Several recent studies have elucidated the structure of the mammalian LH/hCG receptor; as reported in the present work, we have developed a series of monoclonal antibodies (mAbs) against the rat ovarian LH/hCG receptor using highly purified receptor as immunogen and by screening hybridomas with purified LH/hCG receptors. The mAbs were able to specifically immunoprecipitate LH/hCG receptors from solubilized preparations of rat ovarian membranes as well as from partially purified preparations. Western blotting with mAb P1B4 detected a probable receptor dimer and a receptor fragment in rat and porcine ovarian tissue but not in other tissues. This mAb also partially inhibited hCG binding to rat and porcine ovarian tissues. The receptor mAbs were able to inhibit hCG-induced progesterone synthesis in cultured human and porcine granulosa cells without affecting cAMP- and FSH-induced progesterone synthesis. The mAb P1B4 was used to demonstrate that the majority of ovarian receptors are internalized after hCG treatment and that in pseudopregnant rats receptors are present in the rough endoplasmic reticulum and in microvesicles. Bovine corpus luteal cells also contained P1B4 binding sites, as detected by immunohistochemical technique. Taken together, these results suggest that the mAbs are specific for the LH/hCG receptor, mAb P1B4 recognizes an epitope that is highly conserved among mammals, and this epitope is probably in the extracellular domain.     

Changes in cytosol and nuclear progesterone receptor concentrations in the rabbit uterus and their relation to induction of progesterone-regulated uteroglobin.

To study the relation between steroid receptor concentrations and biological response, we measured cytosol and nuclear progesterone receptors from rabbit uterus under different experimental conditions, and compared receptor values with induction of uteroglobin, a progesterone-regulated protein. A 5-day progesterone treatment (1 mg/kg per day) reduced the nuclear receptor content by 40%, slightly elevated cytosol receptor levels and increased uteroglobin content 3000-fold. Estradiol and tamoxifen altered progesterone-induced changes in the receptor and uteroglobin values: cytosol and nuclear receptors rose significantly, but uteroglobin induction declined markedly, when progesterone treatment was supplemented with estradiol or tamoxifen. A 50% inhibition of progesterone action on uteroglobin synthesis was achieved with 1 μg/kg of estradiol per day. Thus under certain conditions, there is a clear disparity between steroid receptor levels and biological response.     

Hydrophobic interaction chromatography of the rabbit uterine progesterone receptor

The chromatographic behavior of the rabbit uterine progesterone receptor interaction on several different hydrophobic matrices was characterized. Receptor, prepared in 0.6 M NaCl, exhibited a progressive retardation of elution, followed by retention, on a series of alkyl agarose columns as the length of the alkyl chain [(CH2)nH-] increased (n = 0-10), reflecting the presence of hydrophobic regions on the protein. Adsorption did not occur directly at the steroid binding site of the molecule and did not require activation to the DNA-binding form. Elution could be achieved by a decrease in the ionic strength of the buffer or the addition of glycerol, resulting in partial purification of receptor. Receptor bound tightly to phenyl agarose, although elution of the receptor under mild conditions (decreasing salt gradient, increasing glycerol gradient) resulted in poor yield and only modest purification. Passage of the non-activated progesterone receptor over Reactive Blue Sepharose effectively removed albumin, presumably by a hydrophobic interaction, although receptor was not retained. In the activated form, approximately 25% of receptor was bound to Reactive Blue Sepharose, reflecting an interaction of the Cibacron Blue dye with the polynucleotide binding site of the receptor. Hydrophobic chromatography may be an important adjunct to methods for purification of the progesterone receptor.     

μ-opioid and 5-HT1A receptors heterodimerize and show signalling crosstalk via G protein and MAP-kinase pathways

μ-opioid receptors have been shown to form heterodimers with several G protein coupled receptors involved in pain regulation such as α(2A)-adrenergic and neurokinin 1 receptors. Because the 5-HT(1A) receptor is also involved in pain control, we investigated whether it can interact with the μ-opioid receptor in cell lines. Using epitope-tagged μ-opioid and 5-HT(1A) receptors, we show that both receptors can co-immunoprecipate when expressed in the same cells. This physical interaction was corroborated by a Bioluminescence Resonance Energy Transfer signal between the μ-opioid receptor fused to Renilla luciferase and the 5-HT(1A) receptor fused to the Green Fluorescent Protein. Consistent with the presence of functional heterodimers, the μ-opioid receptor activated a Gα(o) protein covalently fused to the 5-HT(1A) receptor in membrane preparations as well as a Gα(15) protein fused to the 5-HT(1A) receptor in living cells. We demonstrate that both receptors can coexerce control of the ERK1/2 pathway: for example, μ-opioid receptor-induced ERK1/2 phosphorylation was selectively desensitized by 5-HT(1A) receptor activation. Although 5-HT(1A) and μ-opioid receptors were capable to internalize in response to their own activation, they were ineffective to induce the co-internalization of their partners. Thus, we show a functional heterodimerization of μ-opioid and 5-HT(1A) receptors in cell lines, a complex that might play a role in the control of pain in vivo. These results also support the potential therapeutic action of 5-HT(1A) agonists against nociceptive processes.     

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.     

Monoclonal antibodies against the human epidermal growth factor receptor from A431 cells. Isolation, characterization, and use in the purification of active epidermal growth factor receptor

A431 cells have been used as an immunogen for generating monoclonal antibodies against the epidermal growth factor (EGF) receptor. Two immunoglobulin M and eight immunoglobulin G3 anti-EGF receptor antibodies were cloned. All ten antibodies immunoprecipitated biosynthetically labeled mature A431 cell EGF receptor and were able to recognize the receptor in Western blotting. However, none of the antibodies immunoprecipitated precursor polypeptides of the A431 cell EGF receptor, neither did they recognize EGF receptors from human foreskin fibroblasts, human placenta, nor a human-mouse hybrid cell expressing EGF receptor. The antibodies were found to bind to glycolipids from A431 cells and it was shown that the determinant involved was the blood group A antigen. It appears that this determinant is present on both the EGF receptor and glycolipids of A431 cells but is not expressed on EGF receptors from other human cells tested. One of the monoclonal antibodies raised was used for immunoaffinity purification of the EGF receptor. The procedure took advantage of the carbohydrate nature of the antigenic determinant by employing sugar-specific elution. The mild conditions permitted the purification of A431 cell EGF receptor (70-80% pure) that possessed an intrinsic EGF-stimulated tyrosine kinase activity with a specific activity of about 20 nmol/min/mg.     

Investigation of the extracellular accessibility of the connecting loop between membrane domains I and II of the bradykinin B2 receptor.

In analogy to the structure of rhodopsin, the seven hydrophobic segments of G-protein-coupled receptors are supposed to form seven membrane-spanning alpha-helices. To analyze the topology of the bradykinin B2 receptor, we raised site-directed antibodies to peptides corresponding to the loop regions and the amino and carboxyl terminus of this receptor. We found that a segment with predicted intracellular orientation according to the rhodopsin model, the connecting loop between membrane domains I and II of the bradykinin B2 receptor, was accessible to site-directed antibodies on intact fibroblasts, A431 cells, or COS cells expressing human B2 receptors. Extracellular orientation of this loop was further confirmed by the substituted cysteine accessibility method which showed that exchange of cysteine 94 for serine on this loop by point mutagenesis suppressed the effect of thiol modification by a membrane impermeant maleimide. In addition, this segment seemed to be involved in B2 receptor activation, since (i) thiol modification of cysteine 94 partially suppressed B2 receptor activation, and (ii) site-directed antibodies to the connecting loop between membrane domains I and II were agonists. The agonistic activity of the antibodies was suppressed by the B2 antagonist HOE140 confirming the B2 specificity of the antibody-generated signal. The extracellular orientation of the connecting loop between membrane domains I and II suggests a topology of the B2 receptor different from rhodopsin, consisting of five (instead of seven) transmembrane domains and two hydrophobic segments with both ends facing the extracellular side.     

Rapid purification and characterization of protein kinase C from bovine retinal rod outer segments

A rapid FPLC procedure for the purification of protein kinase C from bovine rod outer segments is described. The enzyme is essentially homogeneous after purification and exhibits a molecular mass of approximately 85 kDa, as determined by SDS/PAGE. From its chromatographic behaviour on hydroxyapatite, and from Western-blotting experiments using isoenzyme-specific antibodies, we were able to identify the bovine rod outer segment protein kinase C as being of the alpha or type-III form. The purified protein kinase C has a specific activity of 1066 nmol 32P.min-1.mg protein-1, and shows a 30-fold activation upon the addition of the effectors Ca2+, PtdSer and 1,2-diacylglycerol. Arachidonic acid and linoleic acid were also found to enhance significantly the activity of the purified enzyme.     

Sensitivity of progesterone receptors to aurintricarboxylic acid: Inhibition of nuclear uptake,ATP and DNA binding

When hen oviduct cytosol samples containing progesterone receptor complexed to [³H]progesterone were included with isolated nuclei in presence of 0.2 mM aurintricarboxylic acid, more than 50% inhibition occurred in the uptake of progesterone receptor by the nuclei. The activated form of progesterone receptor appeared to be more sensitive to the presence of aurintricarboxylic acid since pretreatment of non-activated progesterone receptor with the inhibitor and the subsequent removal of the latter prior to activation did not result in the inhibition of receptor uptake by the nuclei. Also, the binding of progesterone receptor to columns of DNA-cellulose or ATP-Sepharose was abolished under simmilar conditions. When nuclei, ATP-Sepharose or DNA-cellulose were preincubated with the inhibitor prior to the addition of receptor preparations, no such inhibition resulted indicating that the inhibitor may be interacting with the receptor protein and not complexing to ATP, DNA or sites in the nuclei. The steroid binding properties of progesterone receptor, however, remained intact under these conditions. Both A and B forms of progesterone receptor are equally sensitive to aurintricarboxylic acid presence when tested for their nuclear uptake. Aurintricarboxylic acid was also found to be very effective at low concentrations (0.25 mM) in eluting the receptor complexes off ATP-Sepharose columns without disrupting the steroid binding properties of progesterone receptor. Our results suggest that auintricarboxylic acid is an effective inhibitor of progesterone receptor and that it may be acting by interfering with a site(s) on progesterone receptor which may be exposed upon activation and are involved in such processes as ATP binding, nuclear uptake and DNA binding. These observations suggest the use of aurintricarboxylic acid as a chemical probe for the analysis of progesterone receptor.     

Role of endogenous brain-derived neurotrophic factor and sortilin in B cell survival

Brain-derived neurotrophic factor (BDNF), a major neuronal growth factor, is also known to exert an antiapoptotic effect in myeloma cells. Whereas BDNF secretion was described in B lymphocytes, the ability of B cells to produce sortilin, its transport protein, was not previously reported. We studied BDNF production and the expression of its receptors, tyrosine protein kinase receptor B and p75 neurotrophin receptor in the human pre-B, mature, and plasmacytic malignant B cell lines under normal and stress culture conditions (serum deprivation, Fas activation, or their combination). BDNF secretion was enhanced by serum deprivation and exerted an antiapoptotic effect, as demonstrated by neutralization experiments with antagonistic Ab. The precursor form, pro-BDNF, also secreted by B cells, decreases under stress conditions in contrast to BDNF production. Stress conditions induced the membranous expression of p75 neurotrophin receptor and tyrosine protein kinase receptor B, maximal in mature B cells, contrasting with the sequestration of both receptors in normal culture. By blocking Ab and small interfering RNA, we evidenced that BDNF production and its survival function are depending on sortilin, a protein regulating neurotrophin transport in neurons, which was not previously described in B cells. Therefore, in mature B cell lines, an autocrine BDNF production is up-regulated by stress culture conditions and exerts a modulation of apoptosis through the sortilin pathway. This could be of importance to elucidate certain drug resistances of malignant B cells. In addition, primary B lymphocytes contained sortilin and produced BDNF after mitogenic activation, which suggests that sortilin and BDNF might be implicated in the survival and activation of normal B cells also.