Altered expression of a heat shock protein in the mammalian nervous system in the presence of agents which affect microtubule stability

In vitro incubation of the isolated rabbit retina at elevated temperature results in the synthesis of a heat shock protein of M.W. 74,000 (hsp74). Recently we have demonstrated that this protein is associated with preparations of purified retinal microtubules and intermediate filaments. In order to examine the possibility that hsp74 synthesis is related to cytoskeletal stability, the effects of agents known to specifically affect microtubules were examined using an in vitro retinal system. Taxol, an antimitotic agent which stabilizes microtubules, was found to reduce the level of hsp74 synthesized in response to elevated temperature. Colchicine, a potent microtubule de-stabilizing agent, did not induce hsp74 synthesis in the absence of elevated temperature, however, under heat shock conditions, hsp74 synthesis was elevated in the presence of colchicine. Kinetics of microtubule assembly were similar in preparations isolated from cerebral hemispheres of control and hyperthermic animals however, microtubules from the latter were altered in appearance and exhibited a higher degree of crosslinking.     

hsp70 is not required for high affinity binding of purified calf uterine estrogen receptor to estrogen response element DNA in Vitro

Bovine estrogen receptor (ER) was purified to near homogeneity by estrogen response element (ERE) affinity chromatography, and its ERE binding ability was measured in vitro. Highly purified ER bound EREs with reduced affinity compared to partially purified ER. Partially purified ER contained hsp70, but highly purified ER did not. We examined whether addition of purified recombinant human hsp70 or purified bovine hsp70 would restore the higher ERE binding affinity, stoichiometry, and ligand retention detected with partially purified receptor and how hsp70 affected the rate of ER-ERE association and dissociation. ER-ERE binding was not affected by antibodies to either constitutive or induced forms of hsp70, regardless of ER purity. Addition of purified hsp70, with or without ATP and Mg²⁺, did not affect the association or dissociation rates of highly purified liganded ER binding to ERE. hsp70 Did not alter the total amount of ER-ERE complex formed. Similarly, hsp70 did not affect the rate of [³H]estradiol (E₂) or [³H]4-hydroxytamoxifen (4-OHT) ligand dissociation from ER in the presence or absence of EREs. These data contrast with a report showing that maximal ERE binding by highly purified recombinant human ER required hsp70. We conclude that ER, purified from a physiological source, i.e., calf uterus, does not require hsp70 for maximal ER-ERE binding in vitro. Additionally, once ER is activated and bound by ligand, the receptor assumes its proper tertiary structure, and hsp70 does not impact ER ligand binding domain conformation.     

A heat shock protein complex isolated from rabbit reticulocyte lysate can reconstitute a functional glucocorticoid receptor-Hsp90 complex.

When unliganded glucocorticoid receptor that has been stripped free of associated proteins is incubated with rabbit reticulocyte lysate, the receptor becomes associated with the 70- and 90-kDa heat shock proteins (hsp70 and hsp90), and the untransformed state of the receptor is functionally reconstituted [Scherrer, L. C., Dalman, F. C., Massa, E., Meshinchi, S., & Pratt, W. B. (1990) J. Biol. Chem. 265, 21397-21400]. Recently, an hsp70-containing protein complex (200-250 kDa) purified from rabbit reticulocyte lysate was shown to maintain a fusion protein bearing the mitochondrial matrix-targeting signal in a state that is competent for mitochondrial import [Sheffield, W. P., Shore, G. C., & Randall, S. K. (1990) J. Biol. Chem. 265, 11069-11076]. In this work, we show that this partially purified mitochondrial import-competent fraction contains both hsp90 and hsp70. When the purified fraction is immunoadsorbed with a monoclonal antibody specific for hsp90, a significant portion of the hsp70 is co-immunoadsorbed, suggesting that hsp90 and hsp70 are present together as a complex. The partially purified fraction maintains a hybrid precursor protein containing the mitochondrial matrix-targeting signal of rat pre-ornithine carbamyl transferase in an import-competent state. Incubation of immunopurified glucocorticoid receptor with this fraction of reticulocyte lysate results in ATP-dependent association of the receptor with both hsp70 and hsp90, and the resulting complexes are functional as assessed by return of the receptor to the high-affinity steroid binding conformation. The glucocorticoid receptor hetero-complex reconstituting activity of the lysate fraction is low relative to its mitochondrial import activity. Importantly, however, this is the first demonstration of the functional and structural reconstitution of the untransformed state of any steroid receptor utilizing a partially purified system.     

Stoichiometry, abundance, and functional significance of the hsp90/hsp70-based multiprotein chaperone machinery in reticulocyte lysate

Rabbit reticulocyte lysate contains a multiprotein chaperone system that assembles the glucocorticoid receptor (GR) into a complex with hsp90 and converts the hormone binding domain of the receptor to its high affinity steroid binding state. This system has been resolved into five proteins, with hsp90 and hsp70 being essential and Hop, hsp40, and p23 acting as co-chaperones that optimize assembly. Hop binds independently to hsp70 and hsp90 to form an hsp90.Hop.hsp70 complex that acts as a machinery to open up the GR steroid binding site. Because purified hsp90 and hsp70 are sufficient for some activation of GR steroid binding activity, some investigators have rejected any role for Hop in GR.hsp90 heterocomplex assembly. Here, we counter that impression by showing that all of the Hop in reticulocyte lysate is present in an hsp90.Hop.hsp70 complex with a stoichiometry of 2:1:1. The complex accounts for approximately 30% of the hsp90 and approximately 9% of the hsp70 in lysate, and upon Sephacryl S-300 chromatography the GR.hsp90 assembly activity resides in the peak containing Hop-bound hsp90. Consistent with the notion that the two essential chaperones cooperate with each other to open up the steroid binding site, we also show that purified hsp90 and hsp70 interact directly with each other to form weak hsp90.hsp70 complexes with a stoichiometry of 2:1.     

20S proteasome, hsp90, p97 fusion protein, PA28 activator copurifying oligomers and ATPase activities

Whether hsp90 acts in an ATP-dependent or independent way is of crucial importance for understanding the molecular mechanism of this chaperone and, to day, the involvement of ATP hydrolysis in hsp90 function is still a controversial subject. ATPase activities may be detected in partially purified hsp90's preparations from rabbit muscle. We demonstrate that the major contaminant associated with hsp90 is the p97 fusion protein and that these oligomeric structures are copurifying together with the 20S proteasome and its PA28 activator. Improving the purification procedure permits to separate hsp90 and p97 to homogeneity. Then, our attempts failed to detect any significant ATPase activity in the hsp90 fraction. Thus, p97 would be principally responsible for the ATPase activity detected in partially purified hsp90 preparations from rabbit muscle.     

Reconstitution of progesterone receptor with heat shock proteins

Nonactivated chick progesterone receptor from hypotonic tissue extracts exists in a large complex containing the heat shock proteins hsp90 and hsp70 plus additional smaller proteins; activation of receptor to a DNA-binding form involves the dissociation of proteins from the complex. Whereas numerous attempts to reversibly bind components to the activated receptor have been unsuccessful, we now report conditions that promote the reassociation of hsp90 and hsp70 to progesterone receptor. Cytosolic receptor was dissociated from hsp90 and hsp70 by treatment with 0.5 M KCl and 10 mM ATP in the absence of progesterone. It was then purified by binding to immunoaffinity resins. After wash steps, the receptor-resin complex was incubated in rabbit reticulocyte lysate at 30 C, rewashed, and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Saturable binding of rabbit hsp90 and hsp70 to chick receptor was found after incubation with reticulocyte lysate; hsp binding was temperature dependent, but not dependent on exogenous ATP. Incubation of dissolved receptor with oviduct cytosol, from which receptor was obtained, or with purified hsp did not result in hsp binding. Furthermore, mixing oviduct cytosol with lysate inhibited hsp reconstitution, suggesting negative factors for hsp binding in oviduct cytosol. The steroid-binding domain of the receptor was required, since no hsp binding was observed in the reconstitution system using a receptor mutant lacking this domain. When the receptor was isolated in the presence of progesterone, reconstitution with hsp90 and hsp70 did not occur. This is consistent with the in vivo effects of progesterone in promoting hsp dissociation.     

Brassica napus hsp90 can autophosphorylate and phosphorylate other protein substrates

A Brassica napus cDNA encoding the 90 kDa heat shock protein, hsp90, was modified to add 6 histidines at the C-terminus and expressed in insect cells to prepare a recombinant histidine-tagged hsp90. The recombinant protein was purified over Ni²⁺-NTA agarose columns and its identity was confirmed by Western blotting, using a plant hsp90-specific antiserum. Incubation of purified hsp90 with [-³²P] ATP in the presence of Mn²⁺ resulted in its autophosphorylation on serine residues. The purified hsp90 could also phosphorylate other protein substrates such as histones and casein in the presence of Mn²⁺. Analysis of phosphorylated casein revealed that serine residues are phosphorylated by hsp90. This is the first demonstration that a cytosolic hsp90 homolog can phosphorylate other protein substrates.     

Characterization of heat shock protein 110 and glucose-regulated protein 170 as cancer vaccines and the effect of fever-range hyperthermia on vaccine activity

Several studies have confirmed that certain stress proteins can function as potent vaccines against a specific cancer when purified from the same tumor. Recent studies of two long-recognized but unstudied stress proteins, heat shock protein (hsp) 110 and glucose-regulated protein (grp) 170, have shown them to be efficient peptide chain-binding proteins. The present investigation examines the vaccine potential of hsp110 and grp170. First, it is shown that prior vaccination with hsp110 or grp170 purified from methylcholanthrene-induced fibrosarcoma caused complete regression of the tumor. In a second tumor model, hsp110 or grp170 purified from Colon 26 tumors led to a significant growth inhibition of this tumor. In addition, hsp110 or grp170 immunization significantly extended the life span of Colon 26 tumor-bearing mice when applied after tumor transplantation. A tumor-specific cytotoxic T lymphocyte response developed in the mice immunized with tumor-derived hsp110 or grp170. Furthermore, treatments of the mice with bone marrow-derived dendritic cells pulsed with these two proteins from tumor also elicited a strong antitumor response. Last, we showed that mild, fever-like hyperthermic conditions enhance the vaccine efficiency of hsp110 as well as heat shock cognate 70, but not grp170. These studies indicate that hsp110 and grp170 can be used in hsp-based cancer immunotherapy, that Ag-presenting dendritic cells can be used to mediate this therapeutic approach, and that fever-level hyperthermia can significantly enhance the vaccine efficiency of hsps.     

Ecdysteroid-regulated heat-shock gene expression during Drosophila melanogaster development

Peaks in hsp 26, 28, and 83 RNA levels are correlated with peaks in ecdysteroid titers during mid-embryogenesis, pupariation, and mid-pupation, and with a peak in the level of RNA from the 74EF ecdysone puff at pupariation. Inhibition of the ecdysteroid peak at pupariation by temperature shift of the conditionally ecdysteroid-deficient strain ecd-1 was followed by a disappearance of hsp 26 RNA and a decline in hsp 83 RNA level; subsequent addition of exogeneous 20-OH-ecdysone to the temperature-shifted strain resulted in a severalfold increase in hsp 83 RNA level, and a dramatic increase in that of hsp 26. These results are consistent with the induction of the hsp 83, 28, and 26 genes by ecdysteroid at several developmental stages.     

Regulation of the dynamics of hsp90 action on the glucocorticoid receptor by acetylation/deacetylation of the chaperone

It is known that inhibition of histone deacetylases (HDACs) leads to acetylation of the abundant protein chaperone hsp90. In a recent study, we have shown that knockdown of HDAC6 by a specific small interfering RNA leads to hyperacetylation of hsp90 and that the glucocorticoid receptor (GR), an established hsp90 "client" protein, is defective in ligand binding, nuclear translocation, and gene activation in HDAC6-deficient cells (Kovacs, J. J., Murphy, P. J. M., Gaillard, S., Zhao, X., Wu, J-T., Nicchitta, C. V., Yoshida, M., Toft, D. O., Pratt, W. B., and Yao, T-P. (2005) Mol. Cell 18, 601-607). Using human embryonic kidney wild-type and HDAC6 (small interfering RNA) knockdown cells transiently expressing the mouse GR, we show here that the intrinsic properties of the receptor protein itself are not affected by HDAC6 knockdown, but the knockdown cytosol has a markedly decreased ability to assemble stable GR.hsp90 heterocomplexes and generate stable steroid binding activity under cell-free conditions. HDAC6 knockdown cytosol has the same ability to carry out dynamic GR.hsp90 heterocomplex assembly as wild-type cytosol. Addition of purified hsp90 to HDAC6 knockdown cytosol restores stable GR.hsp90 heterocomplex assembly to the level of wild-type cytosol. hsp90 from HDAC6 knockdown cytosol has decreased ATP-binding affinity, and it does not assemble stable GR.hsp90 heterocomplexes when it is a component of a purified five-protein assembly system. Incubation of knockdown cell hsp90 with purified HDAC6 converts the hsp90 to wild-type behavior. Thus, acetylation of hsp90 results in dynamic GR.hsp90 heterocomplex assembly/disassembly, and this is manifest in the cell as a approximately 100-fold shift to the right in the steroid dose response for gene activation.     

Cell-free synthesis of rat glucocorticoid receptor in rabbit reticulocyte lysate. In vitro synthesis of receptor in Mr 90,000 heat shock protein-depleted lysate

The glucocorticoid receptor is present in the cytosol of cell extracts as a large nonactivated (i.e. non-DNA-binding) approximately 9 S (Mr 300,000) complex. Experimental evidence indicates that the purified nonactivated glucocorticoid receptor contains a single steroid-binding protein and two approximately 90-kDa nonsteroid-binding subunits identified as heat shock protein (hsp) 90. Translation of the glucocorticoid receptor mRNA in vitro in reticulocyte lysates produces a large nonactivated glucocorticoid receptor complex similar to that found in cytosols. The cell-free synthesized glucocorticoid receptor is able to bind steroid and can be activated further to the DNA-binding form. To test the hypothesis of an active role played by hsp90 in the stabilization of a competent steroid-binding conformation of the glucocorticoid receptor, we have synthesized the receptor in a reticulocyte lysate that has been depleted of hsp90 by immunoadsorption with AC88 anti-hsp90. Although the translation capacity of the reticulocyte system was reduced considerably upon hsp90 removal, the glucocorticoid receptor was synthesized, and a significant number of molecules were found to bind [3H]triamcinolone acetonide. Chromatography on DEAE-cellulose showed that most of the receptor molecules synthesized in hsp90-depleted lysate had lost the capacity to form an oligomeric receptor complex. Addition of purified rat liver hsp90 to the hsp90-depleted lysate before translation did not increase steroid binding nor did it restore formation of the heteromeric receptor complex. Analysis of [35S] methionine-labeled glucocorticoid receptor molecules synthesized in the hsp90-depleted lysate showed the production of polypeptides differing from the expected chromatographic pattern on DEAE-cellulose. Upon addition of purified hsp90 to the hsp90-depleted lysate, before translation, the 35S-labeled synthesized receptor fractionated on DEAE-cellulose as an intermediate peak between activated and nonactivated receptor forms. The data suggest that hsp90 alone may not be sufficient for the formation of the nonactivated steroid receptor complex.     

Immunization with heat shock protein 70 from methylcholanthrene-induced sarcomas induces tumor protection correlating with in vitro T cell responses

The cytosolic members of the heat shock protein 70 (hsp70) family have in recent years been shown to elicit protective immunity mediated via binding to antigenic peptides in tumor and viral animal models. In this study we have used the methylcholanthrene (MC)-induced sarcomas MC57S and MC57X, previously shown to express individually distinct MHC-I associated peptides recognized by tumor necrosis factor-alpha (TNF-alpha) producing CD8(+) T cells. With hsp70 purified from tumor or liver tissue, we were able to confirm that tumor-derived hsp70 elicited in vivo protection against a challenge with the same tumor as that used for hsp70 isolation. We also observed that immunizing with hsp70 isolated from tumor tissue resulted in a significantly better protection than immunizing with hsp70 isolated from the liver tissue of healthy mice. In two out of three experiments however, immunization with liver-derived hsp70 as well as tumor-derived hsp70 resulted in a significantly delayed tumor outgrowth as compared to saline-injected controls. In vitro, T cell lines from mice immunized with tumor-derived hsp70 could recognize tumor cells from the same MC57 tumor as that used for the hsp70 purification, resulting in TNF-alpha production. In sera from hsp70-immunized mice we observed undetectable or only very low levels of anti-hsp70 antibodies, suggesting that it is possible to repeatedly immunize the mice with no significant interference from neutralizing antibodies. We therefore conclude that hsp70 immunization can lead to protection against the tumor it was purified from, with a low risk of eliciting neutralizing antibodies that could affect further immunizations.     

The phosphorylation state of the reticulocyte 90-kDa heat shock protein affects its ability to increase phosphorylation of peptide initiation factor 2 alpha subunit by the heme-sensitive kinase

The rabbit reticulocyte Mr 90,000 protein associated with the heme-sensitive eIF-2 alpha kinase has been identified previously as the mammalian heat shock protein of this size class (hsp 90). Purified reticulocyte hsp 90 when added exogenously to the kinase increases its activity. This stimulatory effect is abolished after incubation of hsp 90 with a highly purified type 1 phosphoprotein phosphatase isolated from reticulocytes. Phosphorylation of dephosphorylated hsp 90 by casein kinase II but not by cAMP-dependent protein kinase restores the biological activity of hsp 90 to stimulate eIF-2 alpha phosphorylation.     

Characterization of native interaction of hsp110 with hsp25 and hsc70

The 110 kDa heat shock protein (HSP) (hsp110) has been shown to be a diverged subgroup of the hsp70 family and is one of the major HSPs in mammalian cells [1,2]. In examining the native interactions of hsp110, we observed that it is found to reside in a large molecular complex. Immunoblot analysis and co-immunoprecipitation studies identified two other HSPs as components of this complex, hsc70 and hsp25. When examined in vitro, purified hsp25, hsp70 and hsp110 were observed to spontaneously form a large complex and to directly interact with one another. When luciferase was added to this in vitro system, it was observed to migrate into this chaperone complex following heat shock. Examination of two deletion mutants of hsp110 demonstrated that its peptide-binding domain is required for interaction with hsp25, but not with hsc70. The potential function of the hsp110-hsc70-hsp25 complex is discussed.     

The involvement of p23, hsp90, and immunophilins in the assembly of progesterone receptor complexes

To better understand the assembly mechanism for the progesterone receptor (PR), we have developed cell-free systems for studying interactions of PR, hsp90, and other associated proteins. When PR is incubated in rabbit reticulocyte lysate, its association with hsp90, hsp70, the three immunophilins FKBP54, FKBP52 and CyP-40, and with p23 is observed. These interactions require ATP/Mg²⁺ and when ATP is limiting the PR complex is altered to one containing the proteins p60 and p48, but lacking immunophilins and p23. We have studied two pre-formed hsp90 complexes that may participate in the assembly of PR complexes. One contains hsp90 bound to hsp70 and p60 and this complex forms spontaneously in the absence of ATP. A second complex contains hsp90 bound to p23 plus the three immunophilins and some hsp70. The formation of this complex requires ATP. In further studies we have shown that purified hsp90 can bind to purified p23 and this interaction requires both ATP and molybdate. This explains, in part, the known effects of ATP and molybdate on assembly of PR complexes.     

Characterization of purified avian 90,000-Da heat shock protein

The so-called 90,000-Da heat shock protein (hsp90) from chicken liver has been purified and physically characterized in the presence of high levels of the serine phosphatase inhibitor fluoride. The protein is an elongated dimer with a molecular weight of 160,000 and a frictional ratio of 1.6. On two-dimensional electrophoresis it exhibits several isoelectric forms lying between pH 5.1 and 5.8. It contains an average of 5.8 mol of covalently bound phosphate per dimer and is thus extensively phosphorylated. Analysis of the ultraviolet spectrum showed the purified protein to be free of nucleotide-containing components. Molybdate has been shown to stabilize complexes between the 90,000-Da heat shock protein and steroid receptors. However, molybdate has no effect on the sedimentation of the purified heat shock protein. Proteins structurally related to hsp90 have been reported to penetrate the endoplasmic reticulum. However, when purified hsp90 was tested using the partition method of Bordier, which distinguishes hydrophilic and lipophilic proteins, it partitioned totally into the aqueous phase.     

Direct stoichiometric evidence that the untransformed Mr 300,000, 9S, glucocorticoid receptor is a core unit derived from a larger heteromeric complex

We have used three methods to measure the stoichiometry of the glucocorticoid receptor and the 90-kDa heat shock protein (hsp90) in L-cell glucocorticoid receptor complexes that were purified by immunoadsorption to protein A-Sepharose with an anti-receptor monoclonal antibody, followed by a minimal washing procedure that permits retention of receptor-associated protein. In two of the methods, receptor was quantitated by radioligand binding, and receptor-specific hsp90 was quantitated against a standard curve of purified hsp90, either on Coomassie blue stained SDS gels by laser densitometry or on Western blots by quantitative immunoblotting with 125I-labeled counterantibody. The stoichiometry values obtained by densitometry and immunoblotting are 7 and 6 mol of hsp90/mol of receptor, respectively. In a third method, which detects total receptor protein rather than just steroid-bound receptor, the ratio of hsp90 to receptor was determined by immunopurifying receptor complexes from [35S]methionine-labeled L cells, and the amount of 35S incorporated into receptor and hsp90 was corrected for the established methionine content of the respective proteins. In complexes from L cells which are labeled to steady state (48 h), the ratio of hsp90 to GR is 4:1. When immunoadsorbed receptor complexes are washed extensively with 0.5 M NaCl and 0.4% Triton X-100 in the presence of molybdate, the ratio of hsp90 to GR is 2:1. In addition to hsp90, preparations of [35S]methionine-labeled untransformed receptor complex also contain a 55-kDa protein that the conclusion that the untransformed L-cell glucocorticoid receptor exists in cytosol in a much larger heteromeric complex than considered to date.(ABSTRACT TRUNCATED AT 250 WORDS)     

An N-terminal 33-amino-acid-deletion variant of hsp25 retains oligomerization and functional properties

The mechanism(s) by which heat shock protein 25 (hsp25) protects cells from stress may involve one or more of the biochemical properties attributed to hsp25 and other small M(r) hsp. In this report, structural and functional properties of an N-terminal 33 amino acid deletion variant of hsp25 (termed hsp25.c) were considered by comparison with hsp25. 6-His tagged recombinant hsp25 and hsp25.c (termed (H6)hsp25.a and (H6)hsp25.c) were expressed and purified. Oligomeric proteins formed and possessed properties previously attributed to hsp25. The 33 amino acid deletion represented by hsp27.c did not affect the ability of the recombinant protein to act as an inhibitor of elastase, as a molecular chaperone in the refolding of denatured citrate synthase, or as an actin-binding protein. The overexpression of either hsp25 or hsp25.c, enhanced the stress resistance of stable transformed eukaryotic cells. This N-terminal variant protein may be used in further cellular and biochemical assessment of hsp25 oligomerization and function.