Unoccupied and in vitro and in vivo occupied 1,25-dihydroxyvitamin D3 intestinal receptors. Multiple biochemical forms and evidence for transformation

The data presented herein indicate that the chick intestinal 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) receptor which is localized in the chromatin fraction of a low salt homogenate (Walters, M. R., Hunziker, W., and Norman, A. W. (1980) J. Biol. Chem. 255, 6799-6805) can exist in three distinct biochemical forms. The three 1,25(OH)2D3 receptor forms depended on the absence or presence of ligand and additionally whether the ligand was acquired in vitro (4 degrees C incubation for 3-4 h) or in vivo (13 nmol of 1,25(OH)2D3 administered intramuscularly 2 h prior to sacrifice). The receptor forms were distinguished by their relative KCl extractabilities from the target tissue chromatin preparation and from a reconstituted nontarget tissue (liver) chromatin preparation, as well as their relative elution from DNA-cellulose columns when applied as a mixture. In all cases the rank order "affinity" of the receptor for chromatin or DNA was: unoccupied 1,25(OH)2D3 receptors less than in vivo occupied receptors less than in vitro occupied receptors. These changes in DNA-binding "affinity" occurred without a major change in overall surface charge of the receptor molecules as evaluated by co-elution of all three receptor forms from DEAE-Sepharose columns. Similarly, these changes in DNA-binding characteristics were not accompanied by changes in the apparent molecular weights of these receptor species (91,900 +/- 3300; 99,700 +/- 9400; 93,100 +/- 5600, respectively) as assessed by Sephacryl S-200 gel filtration chromatography in the presence of the protease inhibitor phenylmethylsulfonyl fluoride, included throughout these experiments to protect from proteolytic damage. These results represent the first demonstration of biochemical heterogeneity in the 1,25(OH)2D3 receptor system and suggest the existence of a two-step transformation process for the 1,25(OH)2D3 receptor.     

Unoccupied binding sites for oestrogen in nuclei of a breast tumour cell line (MCF-7).

1. A method to measure both occupied and unoccupied oestrogen receptors directly in the crude nuclear fraction of the MCF-7 cells was developed. The receptors had high affinity for oestradiol (Kd approx. 0.7 nM) and binding specificity characteristics of oestrogen receptors. 2. A substantial amount of the unoccupied receptors were found in the crude nuclear fraction. 3. Several experiments excluded the possibility that the unoccupied nuclear receptor might be a cytoplasmic contaminant. (a) Multiple extractions with Tris buffer released about 75% of the total receptor content, leaving the rest unextractable in the crude nuclear fraction. (b) Nuclei purified by centrifugation through 1.8M-sucrose and treatment with 0.7% Triton X-100, or by centrifugation through 50% glycerol with 0.1% Triton X-100 contained similar amounts of unoccupied receptors to that found in the crude nuclear fraction. (c) In cells cultured during 5 days after preconfluency a 3-fold increase in the amount of unoccupied cytoplasmic receptors occurred, whereas the amount of unoccupied nuclear receptors did not change significantly and conversely in cells exposed to increasing concentrations of oestradiol the unoccupied cytoplasmic receptor was continuously depleted but no considerable change in the unoccupied nuclear receptor was found.     

Heterogeneity of the rat hepatic Ah receptor and evidence for transformation in vitro and in vivo

The characteristics of the Ah receptor from rat liver were investigated following the incubation of cytosol with [3H]2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) under various conditions, and using DEAE- and DNA-Sepharose chromatography and sucrose density gradient centrifugation. These studies indicated that the Ah receptor can exist in three distinct forms in vitro that are dependent on the presence or absence of TCDD and the duration and temperature of incubation. The unoccupied receptor was distinguished by its elution from DEAE-Sepharose columns at 0.20-0.23 M NaCl and lack of affinity for DNA-Sepharose. Following the incubation of the unoccupied receptor with [3H]TCDD, two occupied forms were distinguished based on their overall surface charges and affinities for DNA. One of these forms was predominant following short incubations (2 h) with [3H]TCDD at a low temperature (0 degree C) and was characterized by having the same elution profile on DEAE-Sepharose as the unoccupied form, but demonstrated some affinity for DNA. Another occupied form was predominant following an incubation for a longer time (20 h, 0 degree C) or at an elevated temperature (2 h, 20 degrees C). This form had an overall surface charge that was less negative and a greater affinity for DNA. These changes in receptor characteristics were dependent on the presence of TCDD and were not accompanied by apparent changes in the sedimentation coefficients of the two occupied forms. Anion exchange chromatography of the [3H]TCDD-receptor complex extracted from hepatic nuclei of [3H]TCDD-treated rats indicated that the ligand-induced change of the unoccupied receptor to a less negatively charged form had occurred in vivo. These results indicated a biochemical heterogeneity of the Ah receptor and suggested the occurrence of a ligand- and temperature-dependent transformation process in vivo and in vitro.     

Monoclonal antibodies to chick intestinal receptors for 1,25-dihydroxyvitamin D3. Interaction and effects of binding on receptor function

Monoclonal antibodies, developed against the chick intestinal receptor for 1,25-dihydroxyvitamin D3 (1,25(OH)2D3), were characterized with respect to their interaction with this protein and for their effects on the polypeptide's hormone-binding and nuclear-binding functions. Antibodies, internally labeled with [35S]methionine, react directly with hormone-labeled receptor, as identified by comigration of both isotopes during sedimentation on hypertonic 10-30% sucrose gradients. Antibodies bound both the unoccupied and occupied forms of the receptor, the latter with equilibrium dissociation constants of 10(-10)-10(-11) M at 4 degrees C. Excess antibody, added to unoccupied receptors prior to incubation with 1,25(OH)2D3, did not affect the receptor's apparent affinity for the hormone (Kd approximately equal to 6 X 10(-11) M). In contrast, all three antibodies, complexed with occupied receptors, significantly reduced the extent of the receptor's association with isolated nuclei (48-64% inhibition). This inhibition most likely represents a general reduction in the affinity of the protein for nuclei under the conditions tested, since the affinity of the occupied 1,25(OH)2D3 receptor for DNA, as well as the ionic strength necessary to elute receptor from both cation and anion exchange resins was significantly reduced by prior incubation with excess antibody. These findings suggest that the epitopes for each of the three monoclonal antibodies may be located in or near the DNA or nuclear binding domain of the 1,25(OH)2D3 receptor. Taken cumulatively, these results indicate that the monoclonal immunoreagents utilized here should prove useful in delineating important biochemical features of this unique sterol hormone receptor.     

Chromatographic separation of nontransformed and transformed glucocorticoid-receptor complexes from rat liver cytosol. Use of tungstate in the purification, inactivation, and resolution of receptor forms

Aliquots of rat liver cytosol glucocorticoid-receptor complexes (GRc) were transformed by an incubation with 8-10 mM ATP at 0 degrees C and were compared with those transformed by an exposure to 23 degrees C. The extent of receptor transformation was measured by chromatography of the samples over columns of DEAE-Sephacel. The ATP-transformed complexes, like those which were heat-transformed, exhibited lower affinity for the positively charged ion-exchange resin and were eluted with 0.12 M KCl (peak-I): the nontransformed complexes appeared to possess higher affinity and required 0.21 M KCl (peak II) for their elution. As expected, the receptor in the peak-I exhibited the DNA-cellulose binding capacity and sedimented as 4S in sucrose gradients. Peak II contained an 8-9S glucocorticoid receptor (GR) form that showed reduced affinity for DNA-cellulose. Presence of sodium tungstate (5 mM) prevented both heat and ATP transformation of the GRc resulting in the elution of the complexes in the region of nontransformed receptors. When parallel experiments were performed, binding of the cytosol GRc to rat liver nuclei or DNA-cellulose was seen to increase 10-15 fold upon transformation by heat or ATP: tungstate treatment blocked this process completely. The transformed and nontransformed GRc were also differentially fractionated by (NH4)2SO4: tungstate-treated (nontransformed) receptor required higher salt concentration and was precipitated at 55% saturation. In addition, the GRc could be extracted from DNA-cellulose by an incubation of the affinity resin with sodium tungstate resulting in approximately 500-fold purification of the receptor with a 30% yield. These studies show that the nontransformed, and the heat-, salt-, and ATP-transformed GRc from the rat liver cytosol can be separated chromatographically, and that the use of tungstate facilitates the resolution of these different receptor forms. In addition, extraction of the receptor from DNA-cellulose by tungstate provides another new and efficient method of partial receptor purification.     

Nuclear origin of progesterone receptor of the chick oviduct cytosol. An immunoelectron microscopic study

Progesterone receptor (PR) was studied immunoelectron microscopically from fixed vibratome sections of the chick oviduct and biochemically from the fractionated oviduct homogenate. Immunoelectron microscopically both unoccupied and occupied PR were localized inside the nuclei. Only a few cells showed PR immunoreactivity in the endoplasmic reticulum which probably represents newly synthetized PR. Biochemically unoccupied PR was in the cytosol fraction. The cytosol and nuclear PR as well as the non-transformed 8S-form and the transformed 4S-forms of cytosol PR were recognized by the anti-PR antibody (IgG-RB). The lack of PR immunostaining in the cytoplasm is therefore not due to lack of recognition by IgG-RB. We propose that in the chick oviduct progesterone receptor is a nuclear protein but synthetized in the endoplasmic reticulum.     

Nuclear origin of progesterone receptor of the chick oviduct cytosol

Summary Progesterone receptor (PR) was studied immunoelectron microscopically from fixed vibratome sections of the chick oviduct and biochemically from the fractionated oviduct homogenate. Immunoelectron microscopically both unoccupied and occupied PR were localized inside the nuclei. Only a few cells showed PR immunoreactivity in the endoplasmic reticulum which probably represents newly synthetized PR. Biochemically unoccupied PR was in the cytosol fraction. The cytosol and nuclear PR as well as the non-transformed 8S-form and the transformed 4S-forms of cytosol PR were recognized by the anti-PR antibody (IgG-RB). The lack of PR immunostaining in the cytoplasm is therefore not due to lack of recognition by IgG-RB. We propose that in the chick oviduct progesterone receptor is a nuclear protein but synthetized in the endoplasmic reticulum.     

Glucocorticoid receptor phosphorylation, transformation, and DNA binding

Glucocorticoid receptors were isolated by immunoadsorption from cytosol of L cells that were cultured for 18 h in the presence of [32P]orthophosphate, and the phosphorylation state of the receptor was examined before and after transformation to the DNA-binding state. Temperature-mediated transformation of the glucocorticoid receptor under cell-free conditions results in no change in receptor size or degree of phosphorylation. When cytosol containing transformed receptors is incubated with DNA-cellulose, 30-50% of the receptors are able to bind to DNA and the remainder do not bind to DNA. Both the heated receptors that bind to DNA and the receptors that do not bind to DNA are phosphorylated to the same degree. When intact cells containing 32P-labeled receptors are incubated for 2 h at 0 degree C with triamcinolone acetonide and then for 20 min at 37 degrees C in the presence of the hormone, 80% of the receptor becomes tightly associated with the nucleus in a manner that is both temperature-dependent and ligand-dependent. Approximately 80% of the nuclear-bound receptor is extracted with 0.4 M NaCl. Both the cytosolic receptor from cells incubated at 0 degree C and the salt-extracted nuclear receptor from cells incubated at 37 degrees C have been resolved by immunoadsorption to protein A-Sepharose with the BuGR1 monoclonal antibody and sodium dodecyl sulfate-polyacrylamide gel electrophoresis, followed by immunoblotting and autoradiography of the immunoblots. In addition, direct measurements of the amounts of 32P contained per unit of receptor protein were performed for receptors transformed both in the intact cell and in cell-free lysates. The results demonstrate that the untransformed receptor and the nuclear-bound transformed receptor are labeled with 32P to the same extent.     

The unoccupied nuclear oestradiol receptor in the rat uterus and hypothalamus during the oestrous cycle.

The nuclear oestrogen receptor population in the rat uterus contained an unoccupied receptor component that bound oestradiol with the high affinity (Kd congruent to 0.5 nM) characteristic of oestrogen receptors. This unoccupied receptor was present at all phases of the oestrous cycle. Its content changed in parallel with that of the total nuclear receptor during the cycle. Oestradiol administration to the immature rat resulted in increases in the uterine content of long-term nuclear receptors (i.e., those still present 8 h after administration); these increases were due to occupied oestrogen receptors, since the content of unoccupied receptor was unchanged. Our previous experiments [White & Lim (1980) Biochem. J. 190, 833-837] have shown in contrast, that oestradiol administration results in an increase in the content of unoccupied nuclear receptor in the hypothalamus. However, as in the uterus, similar cyclic changes in the content of unoccupied nuclear receptor occurred in parallel with those of the total nuclear receptor population in the hypothalamus. Differences and similarities between the unoccupied nuclear receptor of the uterus and hypothalamus are briefly discussed.     

Studies on sex-organ development. Isolation and characterization of an oestrogen receptor from chick Müllerian duct.

An oestradiol-binding macromolecule was observed in the left Müllerian duct of the 15-day female chick embryo. The embryonic receptor binds oestradiol with a high affinity and low capacity, having a Kd of 3.2 X 10(-9)M and a maximal number of sites of 5.45 fmol/10(6) cells in the left Müllerian duct. The receptor is protein in nature, as suggested by its susceptibility to proteolysis; in addition, it is organ- and steroid-specific. Judging by glycerol-gradient analysis, the hormone receptors in the cytosol are present in 8S and 4.5S forms, and the 8S form could be dissociated into a 4.5S form in the presence of 0.5M-KCl. A 4.5-6S receptor could be extracted from the nuclei. Under physiological salt conditions, the embryonic receptors bind to DNA-cellulose and can be eluted when the salt concentration is increased to 0.5M-KCl. Determination by isoelectric focusing indicates that the isoelectric point is 5.8 for the 8S and 6.9 for the 4.5S receptor.     

Association of 1,25-dihydroxyvitamin D3 with cultured 3T6 mouse fibroblasts. Cellular uptake and receptor-mediated migration to the nucleus

The uptake of 1,25-dihydroxyvitamin D3 (1,25-(OH)2D3) by intact cells was investigated using the cultured embryonic 3T6 mouse fibroblast as a model. Suspended cells, incubated for 60-90 min in serum-containing culture medium supplemented with 1,25-(OH)2D3 (2 nM), maximally accumulate hormone which becomes bound to a typical vitamin D 3.3 S receptor protein. Incubation of cells with varying concentrations of 1,25-(OH)2D3 reveals the presence of 21,000 receptor molecules/3T6 cell, with an apparent uptake constant of 6-8 X 10(-10) M at 37 degrees C. This value contrasts with the equilibrium dissociation constant (Kd) for 1,25-(OH)2D3 binding of 6 X 10(-11) M as determined at 2 degrees C in disrupted cell cytosol. The distribution of unoccupied (R0) receptors is predominantly (greater than 85%) cytosolic in the hormone-deprived state (1,25-(OH)2D3 less than 0.05 nM), whereas exposure to 1,25-(OH)2D3 (2 nM) leads to almost complete nuclear localization of the occupied receptor at both 2 and 37 degrees C. This phenomenon was similarly supported through reconstitution of receptor and purified 3T6 nuclei in vitro in which binding also occurs at 2 degrees C. The majority (65%) of intact cell-formed receptor-nuclear complexes can be solubilized by micrococcal nuclease treatment, suggesting the participation of DNA in the acceptor binding site for the 1,25-(OH)2D3 receptor. Consistent with these data, DNA-binding of receptor also occurred in vitro at 2 degrees C and was a characteristic of both occupied (Rs) and unoccupied receptors. However, elution of the latter occurred at reduced ionic strength, implying that the hormone does physically alter the receptor protein. This binding was also sensitive to prior ethidium bromide saturation of DNA-cellulose, but not phosphocellulose. Although the biologic effects of the 1,25-(OH)2D3 hormone in 3T6 fibroblasts are as yet unknown, the present findings support previous work with 1,25-(OH)2D3 receptors and suggest that this cell represents a good model for the study of nuclear events associated with the molecular action of 1,25-(OH)2D3.     

Appearance of the rat testicular receptor for calcitriol (1,25-dihydroxyvitamin D3) during development

In the present study we have examined the developmental changes in the concentration of receptors for calcitriol in high-salt cytosol from the rat testis. Receptors for calcitriol were undetectable (less than 0.4 fmol/mg protein) until day 24, after which there was a rapid increase to reach adult levels (6-8 fmol/mg protein) between day 50-60. The lack of receptors in high-salt cytosol from the immature rat testis is not due to degrading enzymes, since cytosols prepared from the combination of equal volumes of testis homogenates from immature and adult rats had binding levels exactly half of that found in "adult controls". Furthermore, the increase in specific binding of [3H]calcitriol during development is due to an increase in the number of receptor sites, and is not due to a change in the apparent affinity of the receptors (Kd approximately equal to 1 X 10(-11) M at 0 degrees C). These results may explain why we previously were unable to demonstrate calcitriol receptors in cultured Sertoli cells and peritubular cells isolated from 19-day old rats. Furthermore, they indicate that calcitriol may be of minor importance for testicular function in the immature rat. The role of calcitriol in the pubertal and adult testis remains to be established.     

Analysis of the steady state binding, internalization, and degradation of human interferon-alpha2

Scatchard analyses of the equilibrium binding of radiolabeled human interferon-alpha2 (huIFN-alpha2) to Madin-Darby bovine kidney cells previously exposed to subsaturating concentrations of IFN-alpha showed approximately a 50% decrease in the number of cell surface receptors and no change in the apparent dissociation constant, Kd, compared with cells not exposed to interferon. The steady state equations describing the interaction of polypeptide ligands with cell surface receptors under physiological conditions (Wiley, H.S., and Cunningham, D.D. (1981) Cell 25, 433-440) have allowed us to determine, under steady state conditions, the rate of insertion of receptors into the cell membrane, the endocytic rate constant of occupied receptors, the rate constant of turnover of unoccupied receptors, and the rate of hydrolysis of internalized ligand. Our results indicate that occupied and unoccupied interferon receptors are cleared from the cell surface at approximately the same rate. This suggests that the down-regulation of the huIFN-alpha2 receptor on Madin-Darby bovine kidney cells by huIFN-alpha2 differs from that of several other surface receptors for polypeptide hormones and growth factors analyzed on cultured cells in that the binding of huIFN-alpha2 to its receptor does not increase the rate of receptor endocytosis.     

The dioxin receptor: characterization of its DNA-binding properties

The binding of the rat hepatic dioxin and glucocorticoid receptors to the polyanionic matrices heparin-Sepharose and DNA-cellulose in vitro and to cell nuclei in vivo was studied under various conditions. In a non-liganded and non-activated state both receptors eluted from heparin-Sepharose at a low ionic strength and were not retained on DNA-cellulose. Following ligandation and activation in vitro both receptors showed an increased affinity for heparin-Sepharose and were retained on DNA-cellulose. In analogy to these in vitro data, it was found that a high salt concentration (0.4 M KCl) was required to extract in vivo liganded dioxin receptor from purified nuclear preparations in contrast to that previously reported for non-liganded nuclear receptors. Limited proteolysis of both dioxin and glucocorticoid receptors resulted in molecular species of similar binding properties with regard to DNA-cellulose and heparin-Sepharose. We conclude that, in addition to the dioxin and glucocorticoid receptors showing considerable similarities in their physicochemical properties, they may also share a similar structural organization with regard to functional domains.     

Endocytosis and exocytosis of phytohemagglutinin (PHA) cell surface receptors of human lymphocytes during blast transformation

The ultrastructural distribution of T lymphocyte surface membrane receptors for phytohemag-glutinin (PHA) during blast transformation is examined using PHA covalently coupled to ferritin (PHA-Fe). Human peripheral blood lymphocytes from normal donors were enriched for T cells by nylon wool elution and cultured in vitro with PHA-Fe at a concentration known to cause maximal stimulation of DNA synthesis as measured by [³H]thymidine incorporation. Over the course of a 72 h incubation period, cell samples were harvested at regular intervals and examined by transmission electron microscopy. Within several minutes of culture at 37 °C the majority of the ferritin (Fe)-labeled PHA surface receptors on almost all cells undergo rapid endocytosis; some Fe label remains at the cell surface. After several hours, endocytotic vesicles containing Fe-labeled receptors coalesce and undergo condensation. Within 36–48 h, most endocytotic vesicles transform into multivesicular bodies (MVBs). After 48–72 h, 70–80% of the cells had the ultrastructural appearance of blast transformation as characterized by increased size, euchromatic nuclei, nucleolonema and polyribosomes. In 40 % of the blast cells the Fe-labeled MVBs are exocytosed to the cell surface; cytoplasmic MVBs in the remaining portion of the blasts and non-blast lymphocytes do not appear to undergo exocytosis. Although endocytosis and exocytosis of lymphocyte surface receptors during mitogen-induced blast transformation are observed, the role and significance of receptor redistribution to cell activation remains unclear.     

Kinetic analyses of the binding of leukemia inhibitory factor to receptor on cells and membranes and in detergent solution.

The equilibrium and kinetic properties of leukemia inhibitory factor (LIF) binding to a range of cell types have been compared. When binding was examined at 4 degrees C, the majority of cells were found to express a single class of high affinity LIF receptor (KD = 20-100 pM; ka = 2-8 x 10(8) min-1 M-1; kd = 0.0004-0.0011 min-1). In contrast, certain activated macrophage populations expressed apparently independent classes of high and low affinity LIF receptor. The low affinity receptors differed from the high affinity receptors in terms of the dissociation rate of the receptor-ligand complex (KD = 1-2 nM; ka = 3-7 x 10(8) min-1 M-1; kd = 0.30-0.67 min-1). At 37 degrees C, the interaction of LIF with its high affinity receptor was more complicated, since occupied LIF receptors were internalized more rapidly than unoccupied receptors, internalized LIF was hydrolyzed and released from the cell, and new receptors were synthesized and expressed on the cell surface. Interestingly, when membranes were prepared from cells that expressed only high affinity receptors, both high and low affinity receptors were detected, while after detergent solubilization of membranes only low affinity receptors were apparent. These results are discussed in terms of a structural model for the LIF receptor in which interaction of a low affinity binding subunit and a second nonbinding subunit is required for the generation of the high affinity receptor.     

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)     

Salt-induced activation of 1,25-dihydroxyvitamin D3 receptors to a DNA binding form

In this report we examine the DNA-cellulose binding and sedimentation properties of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) receptors from rat intestine and cultured human mammary cancer cells (MCF-7) extracted in nonactivating (low salt) buffers. Receptors prepared in hypotonic buffer had low DNA binding (13%) compared to receptors extracted with 0.3 M KCl (50%). Treatment of low salt receptor preparations with KCl significantly increased (approximately 3-fold) DNA-binding (activation), demonstrating that receptors can be "activated" in vitro. Activated receptors eluted from DNA-cellulose at 0.18 M KCl. Sedimentation analysis followed by DNA-cellulose binding indicated that activated receptors are approximately 3.2 S and unactivated receptors 5.5 S in size. These results suggest that dissociation of an aggregated moiety may lead to receptor activation. Treatment of unactivated receptor with RNase did not alter DNA binding or sedimentation properties of the aggregated receptor. Treatment of unactivated receptor complexes with heat did not increase DNA binding, and molybdate did not block subsequent salt activation. In summary these results suggest that 1,25(OH)2D3 receptors undergo a salt-induced activation step similar to that described for other steroid receptor systems. However, 1,25(OH)2D3 receptors differ from other steroid receptors in not exhibiting heat activation nor having salt activation blocked by molybdate.     

An analysis of the relationship between the cellular distribution and the rate of turnover for the separate classes of unoccupied, noncovalently occupied, and covalently occupied insulin receptor

To further investigate insulin's role in regulating the turnover of insulin receptor during down-regulation in 3T3-L1 adipocytes, the relationship between the cellular distribution and turnover of unoccupied, noncovalently occupied, and covalently occupied receptor was examined. At steady-state 12% of the unoccupied receptors and 46% of covalently occupied receptors are intracellular. The apparent first-order rate constant (Kapp) for turnover of the total pool of covalently occupied receptors (0.16 h-1) is 3.8-fold higher than that for unoccupied receptors (0.042 h-1). When unlabeled insulin is added, identical values for both Kapp (0.10 h-1) and distribution (26% internal) are measured for noncovalently and covalently occupied receptors. The rate constant (Kdeg), describing the relative sensitivity of internalized receptor to degradation, is identical (0.36-0.41 h-1) for unoccupied, noncovalently occupied, and permanently occupied pools of internal receptor. Mechanisms for down-regulation postulating: (a) an occupancy-dependent alteration in the conformation of internal receptor increasing receptor sensitivity to internal proteases, (b) a preferential sorting of internal occupied receptor to degradative pathways, or (c) induction of intracellular proteases by insulin, would all reflect a substantial change in Kdeg for occupied receptor and thus are unlikely mechanisms by which insulin increases the rate of receptor turnover. The turnover of insulin receptor in 3T3-L1 adipocytes is regulated primarily by its intracellular concentration and not by the state of occupancy of internalized receptor.