The Interaction of Mip-90 with Microtubules and Actin Filaments in Human Fibroblasts

The novel microtubule-interacting protein Mip-90 was originally isolated from HeLa cells by using affinity columns of agarose derivatized with peptides from the C-terminal regulatory domain on β-tubulin. Biochemical and immunocytochemical data have suggested that the association of Mip-90 with the microtubule system contributes to its cellular organization. Here we report the interaction patterns of Mip-90 with microtubules and actin filaments in interphase human fibroblasts. A polyclonal monospecific antibody against Mip-90 was used for immunofluorescence microscopy analysis to compare the distribution patterns of this protein with tubulin and actin. A detailed observation of fibroblasts revealed the colocalization of Mip-90 with microtubules and actin filaments. These studies were complemented with experiments using cytoskeleton-disrupting drugs which showed that colocalization patterns of Mip-90 with microtubules and actin filaments requires the integrity of these cytoskeletal components. Interestingly, a colocalization of Mip-90 with actin at the leading edge of fibroblasts grown under subconfluency was observed, suggesting that Mip-90 could play a role in actin organization, particularly at this cellular domain. Mip-90 interaction with actin polymers was further supportedin vitroby cosedimentation and immunoprecipitation experiments. The cosedimentation analysis indicated that Mip-90 bound to actin filaments with an association constantK_a= 1 × 10⁶M⁻¹, while an stoichiometry Mip-90/actin of 1:12 mol/mol was calculated. Western blots of the immunoprecipitates revealed that Mip-90 associated to both actin and tubulin in fibroblasts extracts. These studies indicate that Mip-90, described as a microtubule-interacting protein, also bears the capacity to interact with the microfilament network, suggesting that it may play a role in modulating the interactions between these cytoskeletal filaments in nonneuronal cells.     

Modulation of cell migration by integrin-mediated cytoskeletal linkages and ligand-binding affinity

Integrin cell surface adhesion receptors play a central role in mediating cell migration. We have developed a model system consisting of CHO cells ectopically expressing the alpha IIb beta 3 integrin to study integrin affinity and cytoskeletal interactions during cell migration. The alpha IIb beta 3 integrins are suited for study of integrin receptors during cell migration because they are well characterized with respect to ligand binding, cytoskeletal interactions, and signal transduction, and mutants with altered receptor function are available. The alpha IIb beta 3 receptor specifically mediates migration of alpha IIb beta 3-transfected CHO cells. The migration of transfected CHO cells was studied on a fibrinogen substrate both by time lapse videomicroscopy and by random and haptotactic transwell assays. Haptotactic and random transwell assays measured distinct aspects of migration, with the random transwell assay correlating most closely with time lapse videomicroscopy. Mutations in the cytoplasmic domains that increase ligand affinity or activation of the alpha IIb beta 3 receptor into a high affinity state by the LIBS6 antibody decreased the migration rate. Likewise, mutations that increase cytoskeletal organization without affecting affinity also decreased the migration rate. In contrast, truncation of the beta chain, which alters cytoskeletal associations as assayed by absence of focal adhesions, decreased haptotactic migration while increasing random migration. These effects on the migration rate were partially compensated for by altering substrate concentration, demonstrating optimum substrate concentrations that supported maximal migration. For example, cells expressing integrins locked in the high affinity state showed maximal migration at lower substrate concentrations than cells expressing low affinity receptor. Together, these results implicate the strength of adhesion between cell and substrate, as modulated by receptor affinity, organization of adhesive complexes, and substrate concentration, as important regulators of cell migration rate. Further, we demonstrate a dominant effect of high affinity integrin in inhibiting migration regardless of the organization of adhesive complexes. These observations have potential implications for tumor metastasis and its therapy.     

Involvement of cell surface HSP90 in cell migration reveals a novel role in the developing nervous system

Heat shock protein HSP90 plays important roles in cellular regulation, primarily as a chaperone for a number of key intracellular proteins. We report here that the two HSP90 isoforms, alpha and beta, also localize on the surface of cells in the nervous system and are involved in their migration. A 94-kDa surface antigen, the 4C5 antigen, which was previously shown to be involved in migration processes during development of the nervous system, is shown to be identical to HSP90alpha using mass spectrometry analysis. This identity is further confirmed by immunoprecipitation experiments and by induction of 4C5 antigen expression in heat shock-treated embryonic rat brain cultures. Moreover, immunocytochemistry on live cerebellar rat cells reveals cell surface localization of both HSP90alpha and -beta. Cell migration from cerebellar and sciatic nerve explants is inhibited by anti-HSP90alpha and anti-HSP90beta antibodies, similarly to the inhibition observed with monoclonal antibody 4C5. Moreover, immunostaining with rhodamine-phalloidin of migrating Schwann cells cultured in the presence of antibodies against both alpha and beta isoforms of HSP90 reveals that HSP90 activity is associated with actin cytoskeletal organization, necessary for lamellipodia formation.     

Developmental regulation of murine mammary-gland 90 kDa heat-shock proteins.

We have examined the regulation of murine mammary-gland 90 kDa heat-shock protein (hsp-90) as a function of normal development and differentiation. We find that both hsp-90 and amounts of its mRNA are modulated during development and differentiation, with the highest concentrations of mRNA and protein being present in tissues from pregnant and lactating animals respectively. Metabolic labelling experiments with [35S]methionine reveal that the rate of synthesis of hsp-90 also varies among tissues from various developmental states and correlates with the relative hsp-90 mRNA content. These data also suggest that the highest concentration of hsp-90 found in lactating mammary tissues may be due to a greater stability of this protein in this developmental state. The possible significance of the developmental modulation of mammary hsp-90 to mammary steroid-receptor properties is discussed.     

SM22beta encodes a lineage-restricted cytoskeletal protein with a unique developmentally regulated pattern of expression

Cytoskeletal proteins play important roles in regulating cellular morphology, cytokinesis and intracellular signaling. In this report, we describe a developmentally regulated gene encoding a novel cell lineage-restricted cytoskeletal protein, designated SM22beta. SM22beta shares high-grade sequence identity with the smooth muscle cell (SMC)-specific protein, SM22alpha, the neuron-specific protein, NP25, and the Drosophila melanogaster flight muscle-specific protein, mp20. The mouse SM22beta cDNA encodes a 199-amino acid polypeptide that contains a single conserved calponin-like repeat domain. During mouse embryonic development, the SM22beta gene is expressed in a temporally and spatially regulated pattern in the tunica media of arteries and veins, endocardium and compact layer of the myocardium, bronchial epithelium and mesenchyme of the lung, gastrointestinal epithelium and cartilaginous primordia. During postnatal development, SM22beta is co-expressed with SM22alpha in arterial and venous SMCs. In addition, SM22beta is expressed at high levels in the bronchial epithelium and lung mesenchyme, gastrointestinal epithelial cells and in the cartilagenous and periosteal layer of bones. Three-dimensional deconvolution microscopic analyses of A7r5 SMCs revealed that SM22beta co-localizes with SM22alpha to cytoskeletal actin filaments. Taken together, these data demonstrate that SM22beta is a novel actin-associated protein with a unique cell lineage-restricted pattern of expression.     

Insight into the assembly properties and functional organisation of the magnetotactic bacterial actin-like homolog, MamK

Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a magnetic particle. A series of magnetosomes arrange themselves in chains to form a magnetic dipole that enables the cell to orient itself along the Earth's magnetic field. MamK, an actin-like homolog of MreB has been identified as a central component in this organisation. Gene deletion, fluorescence microscopy and in vitro studies have yielded mechanistic differences in the filament assembly of MamK with other bacterial cytoskeletal proteins within the cell. With little or no information on the structural and behavioural characteristics of MamK outside the cell, the mamK gene from Magnetospirillium gryphiswaldense was cloned and expressed to better understand the differences in the cytoskeletal properties with its bacterial homologues MreB and acitin. Despite the low sequence identity shared between MamK and MreB (22%) and actin (18%), the behaviour of MamK monitored by light scattering broadly mirrored that of its bacterial cousin MreB primarily in terms of its pH, salt, divalent metal-ion and temperature dependency. The broad size variability of MamK filaments revealed by light scattering studies was supported by transmission electron microscopy (TEM) imaging. Filament morphology however, indicated that MamK conformed to linearly orientated filaments that appeared to be distinctly dissimilar compared to MreB suggesting functional differences between these homologues. The presence of a nucleotide binding domain common to actin-like proteins was demonstrated by its ability to function both as an ATPase and GTPase. Circular dichroism and structural homology modelling showed that MamK adopts a protein fold that is consistent with the 'classical' actin family architecture but with notable structural differences within the smaller domains, the active site region and the overall surface electrostatic potential.     

Identification of human hsp-70 expression in stably transfected rodent cells by isoelectrofocus immunoblots.

The major heat-shock protein, hsp-70, is synthesized by cells from a wide variety of organisms in response to heat shock or other stresses. It is assumed that hsp-70 may have an important thermal protective function. To test this hypothesis directly, we have transfected rat fibroblast cells with appropriate expression plasmids containing a cloned human hsp-70 gene. Stable transfectants expressing the human hsp-70 gene product were identified by Western blot analysis. During the course of selecting successful transfectants, we found that when standard methods of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunostaining were employed with the monoclonal antibody raised against the human hsp-70 antigen, we were unable to differentiate the human hsp-70 from the heat-inducible rat hsp-70. This was because the monoclonal antibody cross-reacts with the human and rat proteins, which have the same mobility in SDS-PAGE, and it is difficult to determine which protein is expressed. To improve the resolution of the Western blot technique, we performed additional immunoblot analysis of cellular proteins separated by slab gel isoelectrofocusing. Our study shows that the isoelectrofocusing technique, when combined with antibodies against hsp-70, gave a better resolution for the separation of exogenous human hsp-70 and the endogenous rat hsp-70 than the commonly used SDS-PAGE Western blot analysis. It provides a rapid and specific method to identify positive colonies that express the human hsp-70 gene in transfected rodent cells.     

Phosphorylation of calf uterine progesterone receptor by cAMP-dependent protein kinase

We have examined the potential for using calf uterine progesterone receptor (PR) as a substrate for phosphorylation by cAMP-dependent protein kinase (cAMP-PK), PR was found to interact with anti-PR monoclonal antibody alpha PR6 (Sullivan et al., 1986), which was to immunopurify the receptor. Protein staining of the purified preparation revealed the presence of two major bands corresponding to 114 kDa and 90 kDa peptides; only 114 kDa peptide could be photoaffinity-labeled with R5020. The 90 kDa peptide co-migrated with 90 kDa heat shock protein (hsp-90) precipitated by anti-hsp-90 monoclonal antibody AC88 (Riehl et al., 1985). Incubation of the immunopurified protein-A-Sepharose-adsorbed PR with the catalytic subunit of cAMP-PK in the presence of gamma-[32P]ATP and divalent cations resulted in a Mg++-dependent incorporation of 32P-radioactivity into both the 114 kDa and the hsp-90 peptides. Small 32P-incorporation was also seen in the 114 kDa peptide in the presence of Mn++. A 60 degrees C preincubation of immunopurified PR increased the extent of phosphorylation of the hsp-90 peptide. A pretreatment with alkaline phosphatase reduced the ability of PR to act as a substrate while the steroid occupancy of PR appeared to enhance the phosphorylation of the 114 kDa peptide. The differential cation requirement for the phosphorylation of 114 kDa and hsp-90 peptides and a selective hormone-dependent increase in the phosphorylation of the 114 kDa peptide suggest a possible role of phosphorylation in mediating progesterone action in the calf uterus.     

A T cell receptor V beta segment that imparts reactivity to a class II major histocompatibility complex product

We have identified in mice an allele of a new T cell receptor V beta gene, V beta 17a, whose product is bound by the monoclonal antibody KJ23a. Over 90% of T cell hybridomas prepared from V beta 17a+ T cells of SWR mice respond to allogeneic forms of the IE class II MHC protein, indicating that V beta 17a has an appreciable affinity for IE regardless of the other components of the T cell receptor. These results suggest a bias in the germ-line T cell receptor repertoire toward recognition of MHC proteins and indicate that the V beta portion of the receptor may form the most important contact points with MHC ligands.     

The talin-tail interaction places integrin activation on FERM ground

Integrins are essential receptors for the development and functioning of multicellular animals because they mediate cell migration and cell adhesion, and regulate cell proliferation and apoptosis. Cellular regulation of the affinity of integrins for ligands - so-called 'integrin activation' - is a central property of these receptors. Integrin activation controls cell adhesion, migration and extracellular matrix assembly, thereby contributing to processes such as angiogenesis, tumor cell metastasis, inflammation, the immune response and hemostasis. Recent studies indicate that a crucial, final step in integrin activation is the binding of talin, a cytoskeletal protein, to the cytoplasmic domain of the integrin beta subunit. These results provide a focus for unraveling the many biochemical pathways implicated in integrin activation and suggest a general structural model for the connections between integrins and diverse cellular signal transduction pathways.     

Affinity isolation of heat-shock and other calmodulin-binding proteins following hyperthermia

The interaction of calmodulin (CaM) with heat-shock and other binding proteins was studied in rat adenocarcinoma cells. Cells were equilibrium-labeled for 48 h prior to heating for 1 h at 43 degrees C, or pulse-labeled for 2 h at 37 degrees C after heating, to monitor the effect of heat on the affinity of CaM-binding proteins synthesized under these conditions. A CaM antagonist shown to sensitize to heat killing, W-7 [N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide], was used in competition assays to help monitor any changes in affinity. We found that heating tended to reduce the CaM-binding of proteins synthesized before heating relative to their 37 degrees C controls and proteins synthesized after heating tended to have increased binding relative to their respective controls. Members of the heat-shock protein (hsp) 90-, 70-, and 26-kDa families were among the proteins that bound to CaM and were eluted by W-7. The peak elution fractions for the hsp's and other cellular proteins varied, but hsp-70 eluted in the early fractions. The hsp-70 family was also found to be among a number of W-7-binding proteins. We conclude that the assumption that CaM antagonists potentiate killing of heated cells solely by competing nonspecifically for CaM-binding protein sites on CaM does not explain the process completely. These antagonists could also act by competing for CaM-binding sites with specific proteins whose interaction with CaM is important for survival following heating, or by directly binding to other proteins whose function is important for survival and inhibiting their activity. We do not have sufficient data to discern the predominant mechanism among these possibilities, but we believe all are likely to occur in heated cells and speculate that inhibition of the functions of the hsp-70 family is important in several of these antagonist actions.     

The 90-kDa heat shock protein (hsp-90) possesses an ATP binding site and autophosphorylating activity

The 90-kDa heat shock protein (hsp-90) is an abundant cytosolic protein believed to play a role in maintenance of protein trafficking and closely associated with several steroid hormone receptors. Incubation of highly purified hsp-90 with [gamma-32P]ATP results in its autophosphorylation on serine residues. There are several lines of evidence which suggest that this activity is due to a kinase intrinsic to hsp-90 rather than some closely associated protein kinases: 1) the phosphorylation persists after the removal of casein kinase II by heparin chromatography and after immunoprecipitation of hsp-90 with anti-hsp-90 antibodies. 2) The approximate kM for ATP of the reaction is 0.16 mM, higher than that of many other protein kinases. 3) Phosphorylation is not affected by a number of activators and inhibitors of other known kinases which might associate with hsp-90. 4) The phosphorylation displays a unique cation dependence being most active in the presence of Ca2+ and practically inactive with Mg2+, although the autophosphorylation in the presence of Mg2+ is activated by histones and polyamines. 5) The activity is remarkably heat-stable; incubation of hsp-90 for 20 min at 95 degrees C results in only a 60% decrease in autophosphorylation. 6) Finally, and most importantly, purified hsp-90 can be labeled with azido-ATP and it is able to bind to ATP-agarose. The binding shows similar cation dependence to the autophosphorylation. These data are in agreement with the presence of a consensus sequence for ATP binding sites in the primary structure of the protein similar to that observed in the 70-kDa heat-shock proteins. Our data suggest the 90-kDa heat shock protein possesses an enzymatic activity analogous in many respects to the similar activity of the 70-kDa heat shock proteins. This may represent an important, previously unrecognized function of hsp-90.     

The Association of Tau-Like Proteins with Vimentin Filaments in Cultured Cells

There is increasing evidence that the different polymers that constitute the cytoskeleton are interconnected to form a three-dimensional network. The macromolecular interaction patterns that stabilize this network and its intrinsic dynamics are the basis for numerous cellular processes. Within this context,in vitrostudies have pointed to the existence of specific associations between microtubules, microfilaments, and intermediate filaments. It has also been postulated that microtubule-associated proteins (MAPs) are directly involved in mediating these interactions. The interactions of tau with vimentin filaments, and its relationships with other filaments of the cytoskeletal network, were analyzed in SW-13 adenocarcinoma cells, through an integrated approach that included biochemical and immunological studies. This cell line has the advantage of presenting a wild-type clone (vim+) and a mutant clone (vim−) which is deficient in vimentin expression. We analyzed the cellular roles of tau, focusing on its interactions with vimentin filaments, within the context of its functional aspects in the organization of the cytoskeletal network. Cosedimentation experiments of microtubular protein with vimentin in cell extracts enriched in intermediate filaments, combined with studies on the direct interaction of tau with nitrocellulose-bound vimentin and analysis of tau binding to vimentin immobilized in single-strand DNA affinity columns, indicate that tau interacts with the vimentin network. These studies were confirmed by a quantitative analysis of the immunofluorescence patterns of cytoskeleton-associated tubulin, tau, and vimentin using flow cytometry. In this regard, a decrease in the levels of tau associated to the cytoskeletal network in the vim− cell mutant compared with the wild-type clones was observed. However, immunofluorescence data on SW-13 cells suggest that the absence of a structured network of vimentin in the mutant vim− cells does not affect the cytoplasmic organization formed by microtubules and actin filaments, when compared with the wild-type vim+ cells. These studies suggest that tau associates with vimentin filaments and that these interactions may play a structural role in cells containing these filaments.     

A single polypeptide acts both as the beta subunit of prolyl 4-hydroxylase and as a protein disulfide-isomerase

A single polypeptide is shown to act both as the beta subunit of the proline hydroxylase (EC 1.14.11.2) and as a protein disulfide-isomerase (EC 5.3.4.1). When isolated from chick embryos or rat liver, the beta subunit of prolyl 4-hydroxylase and the enzyme protein disulfide-isomerase have identical molecular weights and peptide maps as produced by digestion with Staphylococcus aureus V8 protease. The apparent molecular weights of both proteins isolated from human placental tissue are slightly higher, and the human beta subunit and one of its peptides have molecular weights about Mr 500 higher than the protein disulfide-isomerase and its corresponding peptide. Experiments with polyclonal and monoclonal antibodies also suggest a structural identity between the two proteins. The beta subunit isolated from the prolyl 4-hydroxylase tetramer has protein disulfide-isomerase activity similar to protein disulfide-isomerase itself, and even the beta subunit when present in the prolyl 4-hydroxylase tetramer has one-half of this activity.     

A hyaluronan-binding protein shows a partial and temporally regulated codistribution with actin on locomoting chick heart fibroblasts

The ultrastructural distribution of a hyaluronan-binding protein (HABP) and its relationship to actin-containing microfilaments were studied with immunocytochemistry. Ultrastructural analysis localized HABP to the cell coat and demonstrated that it occurred largely in cell processes where the apical surfaces were immunopositive. The codistribution of HABP with actin-containing microfilaments in cell processes was demonstrated with double immunolabeling using monoclonal antibodies to actin and monospecific, polyclonal antibodies to HABP. Both the topological localization of HABP and its cytoskeletal coassociations were modulated by cells during different cellular phases. Thus, in cells exhibiting large lamellae and few actin fibrils, typical of rapidly locomoting cells, HABP codistributed primarily with the actin meshwork occurring in cell processes, although some codistribution between the two proteins occurred over the cell body. In cells containing prominent stress fibers and less obvious lamellae, HABP was absent in cell processes but, rather, was aligned primarily along actin fibrils occurring in the cell body. A functional association between HABP and the actin-containing cytoskeleton was suggested by the ability of cytochalasin D to coordinately alter the distribution of HABP and disrupt its coassociation with actin. As well, the addition of hyaluronan to monolayers increased the association of HABP with a Triton-insoluble cytoskeleton. The possible roles of HABP in cell motility and cytoskeletal organization are discussed.     

Red cell ICAM-4 is a novel ligand for platelet-activated alpha IIbbeta 3 integrin

ICAM-4 (LW blood group glycoprotein) is an erythroid-specific membrane component that belongs to the family of intercellular adhesion molecules and interacts in vitro with different members of the integrin family, suggesting a potential role in adhesion or cell interaction events, including hemostasis and thrombosis. To evaluate the capacity of ICAM-4 to interact with platelets, we have immobilized red blood cells (RBCs), platelets, and ICAM-Fc fusion proteins to a plastic surface and analyzed their interaction in cell adhesion assays with RBCs and platelets from normal individuals and patients, as well as with cell transfectants expressing the alpha(IIb)beta(3) integrin. The platelet fibrinogen receptor alpha(IIb)beta(3) (platelet GPIIb-IIIa) in a high affinity state following GRGDSP peptide activation was identified for the first time as the receptor for RBC ICAM-4. The specificity of the interaction was demonstrated by showing that: (i) activated platelets adhered less efficiently to immobilized ICAM-4-negative than to ICAM-4-positive RBCs, (ii) monoclonal antibodies specific for the beta(3)-chain alone and for a complex-specific epitope of the alpha(IIb)beta(3) integrin, and specific for ICAM-4 to a lesser extent, inhibited platelet adhesion, whereas monoclonal antibodies to GPIb, CD36, and CD47 did not, (iii) activated platelets from two unrelated type-I glanzmann's thrombasthenia patients did not bind to coated ICAM-4. Further support to RBC-platelet interaction was provided by showing that dithiothreitol-activated alpha(IIb)beta(3)-Chinese hamster ovary transfectants strongly adhere to coated ICAM-4-Fc protein but not to ICAM-1-Fc and was inhibitable by specific antibodies. Deletion of individual Ig domains of ICAM-4 and inhibition by synthetic peptides showed that the alpha(IIb)beta(3) integrin binding site encompassed the first and second Ig domains and that the G65-V74 sequence of domain D1 might play a role in this interaction. Although normal RBCs are considered passively entrapped in fibrin polymers during thrombus, these studies identify ICAM-4 as the first RBC protein ligand of platelets that may have relevant physiological significance.     

Characterization of IQGAP1-containing complexes in NK-like cells: evidence for Rac 2 and RACK1 association during homotypic adhesion

IQGAP1 is a scaffolding protein that binds to a diverse array of signaling and structural molecules that are often associated with cell polarization and adhesion. Through interaction with its target proteins, IQGAP1 participates in multiple cellular functions, including Ca2+-calmodulin signaling, definition of cytoskeletal architecture, regulation of Cdc42 and Rac1 dependent cytoskeletal changes, and control of E-cadherin mediated intercellular adhesion. These analysis have been largely restricted to cells of epithelial and fibroblast origin. The present studies were initiated to examine the role of IQGAP1 in cellular interactions involving the lymphoid cells. A mass spectrometric based analysis of IQGAP1 containing complexes isolated from the human NK-like cell line, YTS, identified several known and new potential IQGAP1 interaction partners including receptor of activated C kinase 1 (RACK1) and the small GTPase, Rac2. Immunofluorescence analysis of YTS cells indicated that a minor component of IQGAP1 was localized at the cell membrane with the remainder diffusely distributed through out the cytoplasm. However, at sites of cellular contact, there was a marked accumulation of IQGAP1. Staining for RACK1 and Rac2 revealed that both of these proteins accumulated these contact sites. Antibody-based studies suggested that a subset of RACK1 was associated in an IQGAP1-containing complex, which prevented recognition of RACK1 by monoclonal antibody. These results suggest that RACK1, Rac2, and IQGAP1 are components of complexes involved in NK cell homotypic adhesion.     

The molybdate-stabilized L-cell glucocorticoid receptor isolated by affinity chromatography or with a monoclonal antibody is associated with a 90-92-kDa nonsteroid-binding phosphoprotein

We have previously reported that molybdate-stabilized cytosol prepared from 32P-labeled L-cells contains two phosphoproteins (a 90-92- and a 98-100-kDa protein) that elute from an affinity resin of deoxycorticosterone-derivatized agarose in a manner consistent with the predicted behavior of the glucocorticoid receptor (Housley, P. R., and Pratt, W. B. (1983) J. Biol. Chem. 258, 4630-4635). In the present work we report that both the 90-92- and 98-100-kDa 32P-labeled proteins are also extracted from molybdate-stabilized cytosol by incubation with a monoclonal antibody and protein A-Sepharose. Only the 98-100-kDa protein is specifically labeled when either L-cell cytosol or L-cell cytosol proteins bound to the affinity resin are labeled with the glucocorticoid binding site-specific affinity ligand [3H]dexamethasone 21-mesylate. The 98-100-kDa protein labeled with [3H]dexamethasone mesylate is adsorbed to protein A-Sepharose in an immune-specific manner after reaction with the monoclonal antibody. Sodium dodecyl sulfate-polyacrylamide gel analysis of the protein A-Sepharose-bound material resulting from incubating the monoclonal antibody with a mixture of 32P-labeled cytosol and [3H]dexamethasone mesylate-labeled cytosol demonstrates identity of the 98-100-kDa [3H]dexamethasone mesylate-labeled band with the 98-100-kDa 32P-labeled band and clear separation from the nonsteroid-binding 90-92-kDa phosphoprotein. The results of immunoblot experiments demonstrate that the 90-92-kDa protein is structurally distinct from the 98-100-kDa steroid-binding protein. As the 90-92-kDa nonsteroid-binding phosphoprotein co-purified with the 98-100-kDa uncleaved form of the glucocorticoid receptor by two independent methods, one of which is based on recognizing a steroid-binding site and the other of which is based on recognizing an antibody binding site, we propose that the 90-92-kDa phosphoprotein is a component of the molybdate-stabilized, untransformed glucocorticoid-receptor complex in L-cell cytosol.     

High affinity binding of reovirus type 3 to cells that lack beta adrenergic receptor activity

A previous report demonstrated both immunological crossreactivity and structural similarity between the mammalian beta adrenergic receptor and the cell surface receptor for the reovirus type 3 (14). We now demonstrate that reovirus type 3 can bind selectively and with high affinity to cells that lack beta adrenergic receptor activity (L-cells). The present study was also designed to determine what effect reovirus binding has on beta adrenergic receptor function in cells (DDT1) that possess an intact ligand binding site. Based on computer analysis of reovirus competitive inhibition curves, the apparent dissociation binding constants (Kd) for reovirus binding to DDT1 and L-cells are 0.1 nM and 0.25 nM, respectively. High affinity [125I]-iodocyanopindolol (CYP) binding to beta adrenergic receptors can also be demonstrated in DDT1 cells but not in L-cells. In agreement with these ligand binding studies, adenylate cyclase activity is stimulated by the beta receptor agonist isoproterenol in DDT1 cell membranes but not in L-cell membranes. In addition, isoproterenol increases cAMP levels in DDT1 cells but not in L-cells. Neither reovirus serotype stimulates cAMP levels in either cell line, nor do they influence beta-adrenergic agonist stimulation of cAMP in DDT1 cells. These results argue against identity of the receptors for reovirus type 3 and beta adrenergic ligands.