A model of protein targeting mediated by immunophilins and other proteins that bind to hsp90 via tetratricopeptide repeat domains

We have shown recently that the immunophilins CyP-40 and FKBP52/hsp56 bind to a common site on hsp90 and that they exist in separate heterocomplexes with the glucocorticoid receptor (GR). FKBP52/hsp56 binds to hsp90 via its tetratricopeptide repeat (TPR) domains, it is not required for GR.hsp90 heterocomplex assembly, and it is thought to play a role in targeted movement of the GR. In this work we examine the hsp90 binding of four proteins (FKBP52/hsp56, CyP-40, p50, Mas70p) thought to be involved in targeted protein trafficking. FKBP52/hsp56 and CyP-40 (each with three TPRs), localize to the nucleus and nucleoli, respectively, and form relatively weak complexes with hsp90 that are competed by a CyP-40 fragment containing its three TPRs. The p50 component of the Src.hsp90 and Raf.hsp90 heterocomplexes localizes to cytoskeletal fibers extending from the perinuclear region to the plasma membrane and forming a rim under the plasma membrane of endothelial cells. p50, Mas70p (seven TPRs), which is a receptor for mitochondrial import, and the p60 (six to eight TPRs) component of the steroid receptor.hsp90 heterocomplex assembly system bind very tightly to hsp90 in a manner that is not competed by the CyP-40 fragment. However, bacterially expressed p60 blocks the binding of p50, Mas70p, FKBP52/hsp56, and CyP-40 to purified hsp90. The data are consistent with binding of all of these proteins to a site on hsp90 that is a general TPR domain acceptor. Our localization and binding data are used to develop a model in which proteins that are chaperoned by hsp90 move as dynamic complexes to their cellular sites of action, with the TPR-containing protein participating in targeting the movement of the complexes.

Interleukin-4 upregulates the heat shock protein Hsp90alpha and enhances transcription of a reporter gene coupled to a single heat shock element

Transcription of the heat shock protein Hsp90alpha was strongly upregulated in human T-cells by interleukin-4 (IL-4) and to a lesser extent by IL-2, reaching peak levels after 2-3 days of stimulation. Heat shock proteins are induced within minutes under stress conditions, via heat shock factors (HSF), which activate heat shock elements (HSE). IL-4, IL-2 and IL-13 upregulated transcription of a reporter gene coupled to a single HSE site and a minimal promoter. HSE may therefore be involved in cytokine induced heat shock gene transcription in the absence of cellular stress.

Evaluation of stress-inducible hsp90 gene expression as a potential molecular biomarker in Xenopus laevis

In this study we have evaluated stress-inducible hsp90 mRNA accumulation as a potential molecular biomarker in Xenopus laevis. In order to obtain a probe for Northern blot analysis we employed a PCR-based approach using degenerate primers for the amplification and cloning of an hsp90 gene sequence from Xenopus laevis. The deduced amino acid sequence is 102 amino acids in length and exhibited the highest degree of identity with zebrafish and human hsp90 beta genes. Furthermore, the putative intron and exon boundaries of this fragment are the same as hsp90 beta in chicken, mouse and human, indicating that the fragment represents a Xenopus hsp90 beta-like gene. Northern blot analyses revealed that this gene was constitutively expressed in cultured A6 cells. While heat shock and sodium arsenite exposure resulted in the increased accumulation of hsp90 mRNA in A6 cells, treatment with cadmium chloride and zinc chloride did not. Also, exposure of A6 cells to concurrent heat shock and sodium arsenite produced a mild synergistic response with respect to hsp90 mRNA levels in contrast to hsp70 mRNA levels which displayed a strong synergistic effect. Finally, hsp90 mRNA was detected constitutively throughout early embryogenesis but was heat-inducible only in late blastula and later stages of development. Given the normal abundance and limited stress-induced accumulation of hsp90 mRNA, it may not have a great deal of potential as a molecular biomarker compared to hsp70 and hsp30 mRNA. However, it may be useful in conjunction with other stress protein mRNAs to establish a set of biomarker profiles to characterize the cellular response to a stressful or toxic agent.

Expression of heat shock proteins in the developing rat retina

Expression of three heat shock proteins (HSPs), HSP70, HSP90, and immunoglobulin heavy chain binding protein (Bip) was examined in the developing rat retina using Northern blot analysis. The expression of the inducible form of HSP70 remained uniformly low throughout the perinatal period until P5 and increased rapidly at P7. On the other hand, the constitutive form of HSP70, HSP90, and Bip were expressed constitutively in the rat retina throughout the developmental stage except P3-P5, at which a transient decrease of the expression was observed. The increase of inducible HSP70 mRNA at P7 may correspond to the functional maturation of photoreception in the visual nervous system and may be one of the stress responses to photostimulation. The potential roles of each HSP during development of the rat visual system are discussed.

Suppression of ftsH mutant phenotypes by overproduction of molecular chaperones

Decreased intracellular levels of FtsH, a membrane-bound ATPase, led to retardation of growth and protein export, as well as to an abnormal translocation of alkaline phosphatase that had been attached to a cytoplasmic domain of a multispanning membrane protein, SecY. The last phenotype is designated Std (stop transfer defective). In this study, we examined the effects of overproduction of some molecular chaperones on the phenotypes of ftsH mutants. The growth retardation was partially suppressed by overproduction of GroEL/GroES (Hsp60/Hsp10) or HtpG (Hsp90), although these chaperones could not totally substitute for FtsH. Overproduction of HtpG specifically alleviated the Std phenotype, while that of GroEL/GroES alleviated the protein export defect of ftsH mutants. These results suggest that FtsH functions can be somehow compensated for when the cellular concentrations of some molecular chaperones increase.

Characterization of a plastid-specific HSP90 homologue: identification of a cDNA sequence, phylogenetic descendence and analysis of its mRNA and protein expression

The isolation of cDNAs is described which encode the complete sequence of a precursor protein for a HSP90 homologue consisting of an N-terminal transit peptide of 5850 Da and a mature protein (cpHSP82) of 82 260 Da, located in the plastids of rye leaves (Secale cereale). Hybridization analysis indicated the presence of a single gene in the DNA of rye and a transcript size of 2.8 kb. A phylogenetic tree constructed on the basis of sequence comparisons for HSP90 homologues from different species and compartments indicated that the plastidic HSP82 from rye was more closely related to an eubacterial protein than to HSP90 homologues of the cytosol or ER from both plants and animals. The results suggest that during chloroplast evolution the gene for cpHSP82 was transferred to the nucleus from a prokaryotic endosymbiont. Immunoblots with specific antibodies and Percoll gradient-purified organelles confirmed the location of cpHSP82 in chloroplasts or non-green plastids. In green rye leaves cpHSP82 was constitutively expressed and equally distributed among tissues of different age. The expression of cpHSP82 was enhanced within 2 h by exposure to 42 degrees C. The cpHSP82 transcript and protein were much more strongly expressed in non-green tissues, such as etiolated, 70S ribosome-deficient 32 degrees C-grown, or herbicide-bleached, than in normal green leaves. Also chromoplasts from the pericarp of tomato fruits contained high levels of a HSP90 polypeptide while a photosynthetic protein, the large subunit of ribulose-1,5-bisphosphate carboxylase was largely degraded during ripening.

Specific localization of zebrafish hsp90 alpha mRNA to myoD-expressing cells suggests a role for hsp90 alpha during normal muscle development

Members of the eukaryotic hsp90 family function as important molecular chaperones in the assembly, folding and activation of a select group of cellular signalling molecules and transcription factors. Several of the molecules with which hsp90 interacts, such as the bHLH transcription factor myoD, are known to be important regulators of developmental events in vertebrates. However, little information is available in support of any specific role for hsp90 in developing embryos in vivo. In this study, we provide the first in vivo evidence that the hsp90 alpha gene may play a role in the process of myogenesis. We show that constitutive hsp90 alpha mRNA in zebrafish embryos is restricted primarily to a subset of cells within the somites and pectoral fin buds which also express myoD. Furthermore, expression of the hsp90 alpha gene is down-regulated along with myoD in differentiated muscles of the trunk at a time when levels of mRNA encoding the muscle structural protein alpha-tropomyosin remain high. No hsp90 alpha mRNA is detectable within the CNS at control temperatures. In contrast, heat shock-induced expression of the hsp90 alpha gene occurs throughout the embryo at all stages of development examined. The expression patterns strongly suggest that the hsp90 alpha gene plays a specific role in the normal process of myogenesis in addition to providing protection to all cells of the embryo during periods of environmental stress.

Hsp90 mutants disrupt glucocorticoid receptor ligand binding and destabilize aporeceptor complexes

In order to attain competence to respond to hormone, certain steroid hormone receptors must be assembled into hetero-oligomeric aporeceptor complexes, containing Hsp90 and other proteins. Members of the Hsp90 gene family are highly conserved, strongly expressed, and required for viability in eukaryotic organisms. To elucidate the role of Hsp90 in the activity of steroid hormone receptors in vivo, four Hsp90 mutatns, which cause defects in glucocorticoid receptor (GR) signaling, but support the viability of Saccharomyces cerevisiae, were previously isolated (Bohen, S. P., and Yamamoto, K. R. (1993) Proc. Natl. Acad. Sci. U.S.A. 90, 11424-11428). In this study, I characterize the effects of the Hsp90 mutants on GR ligand response, ligand binding activity, and aporeceptor complex stability. The mutants fall into two classes. Three of the Hsp90 mutants cause defects in GR ligand binding in vivo and form aporeceptor complexes that are unstable in vitro, relative to those containing wild-type Hsp90. The other mutant affects GR signaling, but aporeceptor complexes with this mutant are not defective for ligand binding or stability. These findings indicate that the binding of Hsp90 to GR in the aporeceptor complex is insufficient to induce a high ligand affinity conformation, rather the high ligand affinity to GR requires a specific interaction with Hsp90, which is altered by certain Hsp90 mutants.

A novel heat shock response in prolactin-dependent Nb2 node lymphoma cells

Virtually all cells respond to heat stress by increased expression or induction of one or more of the highly conserved cellular stress response proteins, heat shock proteins (HSPs). Here, we report the unusual property of rat Nb2-11 cells, a prolactin-dependent pre-T-cell line, to display reduced HSP expression following exposure to elevated temperature. After heat stress (41 degrees C, 1 h), there was no evidence of inducible members of the 70 kDa HSP family, a response common to other cell culture and tissue systems. Moreover, expression of constitutive members of the HSP70 and HSP90 families decreased during the heat stress, apparently reflecting a decrease in mRNA stability. Gel shift assays revealed that heat shock factor (HSF) was activated in spite of the lack of expression of inducible HSP70 transcripts, although its DNA binding rapidly deteriorated. Immunoblotting, using an antibody specific to HSF1, indicated that proteolysis of HSF1 may be responsible for this rapid termination of heat shock element binding. CCAAT binding, a component of constitutive HSP70 expression, was also reduced by heat stress in Nb2-11 cells and may account for the decline in constitutive HSP70 expression. Prolactin pretreatment prevented the fragmentation of HSF1, protected heat shock element and CCAAT binding, prevented the decline in constitutive HSP70 and HSP90 expression, and restored a modest expression of inducible HSP70 following heat treatment. Results of this study describe a unique regulatory defect in HSP expression in Nb2-11 cells, possibly a common characteristic of other hormone-dependent tumors.

Phylogenetic analysis of the 90 kD heat shock family of protein sequences and an examination of the relationship among animals, plants, and fungi species

The heat shock protein (Hsp) sequences, because of their ubiquity and high degree of conservation, provide useful models for phylogenetic analysis. In this paper I have carried out a global alignment of all available sequences (a total of 31) for the 90-kD heat shock protein (Hsp90) family. The minimum amino acid identity that is seen between presently known Hsp90 homologs is about 40% over the entire length, indicating that it is a highly conserved protein. Based on the alignment, a number of signature sequences that either are distinctive of the Hsp90 family or that distinguish between the cytosolic and the endoplasmic reticular forms of Hsp90 have been identified. Detailed phylogenetic analyses based on Hsp90 sequences reported here strongly indicate that the cytosolic and the endoplasmic reticulum (ER) resident forms of Hsp90 constitute paralogous gene families which arose by a gene duplication event that took place very early in the evolution of eukaryotic cells. A minimum of two additional gene duplication events, which took place at a later time, are required to explain the presence of two different forms of Hsp90 that are found in fungi and vertebrate species. In a consensus neighbor-joining bootstrap tree based on Hsp90 sequences, plants and animals species grouped together 989 times of 1,000 (a highly significant score), indicating a closer relationship between them as compared to fungi. A closer affiliation of plant and animal species was also observed in the maximum-parsimony tree, although the relationship was not significantly supported by this method. A survey of the recent literature on this subject indicates that depending on the protein sequence and the methods of phylogenetic analysis, the animal species are indicated as closer relatives to either plants or fungi with significant statistical support for both topologies. Thus the relationship among the animal, plant, and fungi kingdoms remains an unresolved issue at the present time.

Distinct functions of the 90 kDa heat-shock protein (hsp90) in oestrogen and mineralocorticosteroid receptor activity: effects of hsp90 deletion mutants

Recent studies have confirmed that the 90 kDa heat-shock protein (hsp90) interacts both in vitro and in vivo with steroid receptors, encouraging further detailed physicochemical and functional analysis of its chaperone role. Thus, to explore the relationship between hsp90 and receptors, the baculovirus system was used to overexpress the chick hsp90 alpha (chsp90) along with the chick oestradiol receptor (cER) or the human mineralocorticosteroid receptor (hMR). These receptors were able to form 9 S complexes with chsp90, demonstrating the association of the co-expressed recombinant proteins. Three mutants of chsp90 (delta A, delta B and delta Z) have been created by deletion of the A (residues 221-290) and B (530-581) regions, rich in charged amino acids, and the Z (392-419) region, a putative leucine zipper. After co-expression, anti-receptor antibodies immunoprecipitated the cER or hMR complexed with the wild-type chsp90, the delta B or the delta Z mutant, but not with the delta A chsp90, indicating that deletion of the A region of chsp90 leads to a lack of interaction with these receptors. The hormone binding capacity of the cER was unaffected after its co-expression with each of the three mutants. In contrast, the hMR co-expressed with the delta B mutant failed to bind aldosterone, a finding confirmed in vivo by the absence of hormone-induced hMR nuclear translocation. Thus the B region is required for high-affinity ligand binding by the hMR. Our results suggest that the A region (but not the B or Z regions) is involved in binding of chsp90 to the cER and hMR, while the B region is essential for hormone binding by the hMR, consistent with a chaperone function for hsp90.

Structure and regulation of the HSP90 gene from the pathogenic fungus Candida albicans

Candida albicans HSP90 sequences were isolated by screening cDNA and genomic libraries with a probe derived from the Saccharomyces cerevisiae homolog, HSP82, which encodes a member of the heat shock protein 90 family of molecular chaperones. Identical sequences were obtained for the 2,197-bp overlap of the cDNA and gene sequences, which were derived from C. albicans 3153A and ATCC 10261, respectively. The C. albicans HSP90 gene contained no introns, and it showed strong homology (61 to 79% identity) to HSP90 sequences from other fungi, vertebrates, and plants. The C-terminal portion of the predicted Hsp90 amino acid sequence was identical to the 47-kDa protein which is thought to be immunoprotective during C. albicans infections (R. C. Matthews, J. Med. Microbiol. 36:367-370, 1992), confirming that this protein represents the C-terminal portion of the 81-kDa Hsp90 protein. Quantitative Northern (RNA) analyses revealed that C. albicans HSP90 mRNA was heat shock inducible and that its levels changed during batch growth, with its maximum levels being reached during the mid-exponential growth phase. HSP90 mRNA levels increased transiently during the yeast-to-hyphal transition but did not correlate directly with germ tube production per se. These data do not exclude a role for Hsp90 in the dimorphic transition. Southern blotting revealed only one HSP90 locus in the diploid C. albicans genome. Repeated attempts to disrupt both alleles and generate a homozygous C. albicans delta hsp90/delta hsp90 null mutant were unsuccessful. These observations suggest the existence of a single HSP90 locus which is essential for viability in C. albicans.

Evidence for oestrogenic regulation of heat shock protein expression in human endometrium and steroid-responsive cell lines

Gene amplification with target-specific primers (reverse-transcription polymerase chain reaction (RT-PCR)) was used to monitor the relative expression of oestrogen and progesterone receptor mRNAs alongside the mRNAs for heat shock proteins HSP 90 alpha, HSP 90 beta and HSP 70a in normal samples of human endometrial tissue over the whole menstrual cycle and in short-term cultures of steroid-responsive (T47-D) and unresponsive (HRT-18) cell lines exposed to oestradiol and progesterone over a 24-h incubation period. In endometrium, oestrogen and progesterone receptors followed the expected patterns of expression at the protein level during the menstrual cycle and also showed a positive correlation of expression with each other throughout (r = 0.514). Of the HSPs only HSP 90 alpha expression correlated positively with oestrogen receptor (r = 0.687), while HSP 70a expression, which peaked in the late secretory stage, displayed a significantly inverse correlation with HSP 90 beta expression (r = -0.526). All p values < 0.05. In T47-D cell cultures, oestrogen receptor expression was stimulated transiently by oestradiol (10(-7) mol/l) and more persistently by progesterone (10(-7) mol/l). Progesterone receptor expression was depressed by progesterone and weakly stimulated by oestradiol. HSP 70a and HSP 90 alpha expression were stimulated by oestradiol. Progesterone generally depressed HSP 90 alpha expression and simultaneous addition of both oestradiol and progesterone to the culture medium was antagonistic to HSP 90 alpha expression. No clear effect of agonist addition on HSP mRNA expression was apparent in the HRT-18 cultures. A possible mechanism for observed oestrogenic effects on HSP expression is put forward.

Mechanism of dimer formation of the 90-kDa heat-shock protein

This study describes the mechanism of homodimer formation of the 90-kDa heat-shock protein (HSP90). In eukaryotic cells, there are two HSP90 isoforms, alpha and beta, encoded by two separate genes. HSP90 alpha exists predominantly as a homodimer, HSP90 beta mainly as a monomer. Analysis by native PAGE revealed that bacterially expressed HSP90 alpha fused to glutathione S-transferase (GST) existed as a high-molecular-mass oligomer, and was converted to a homodimer following removal of the fusion enzyme by thrombin cleavage. A deletion mutant, HSP90 alpha D44-603, formed a monomer and an N-terminal truncated mutant, HSP90 alpha 533-732, existed as a dimer, indicating that the dimer-forming ability resides somewhere in the C-terminal 200 amino acids. Limited proteolysis of the C-terminal 200 amino acids of HSP90 alpha with chymotrypsin produced the C-terminal 16-kDa fragment (Met628/Ala629-Asp732) and its adjacent more N-terminal 13-kDa fragment (Val542-Tyr627/Met628). Size-exclusion HPLC and two-dimensional PAGE analyses demonstrated that these two chymotryptic fragments bound each other. The C-terminal 198 amino acids as well as the full-length form of HSP90 beta revealed a lower dimer-forming activity than HSP90 alpha. Expression of the chimeric proteins at the C-terminal 198 amino acids of the alpha and beta isoforms further indicated that the 16 amino acid substitutions locating between amino acids 561 and 685 account for the impeded dimerization of HSP90 beta. A leucine zipper motif (Met402-Leu423) was unlikely to be involved in the dimer formation. Taken together, these results indicate that the dimeric structure of HSP90 alpha is mediated by the C-terminal 191 amino acids and consists of duplicate interactions of the C-terminal region (Met628/Ala629-Asp732) of one subunit and the adjacent more N-terminal region (Val542-Try627/Met628) of the other subunit.

[Studies on the transcription regulation by upstream sequence of human heat shock protein 90 beta gene]

Using a pair of synthetic oligonucleotide as primers, human peripheral lymphocyte lambda GEM-11 genomic DNA library as template, a fragment spanning -1102/+68bp of human heat shock protein 90 beta gene was amplified by polymerase chain reaction (PCR) and cloned into pGEM-4Z vector. The cloned fragment was truncated and ligated to an eukaryotic expression vector containing luciferase as a reporter gene. These subclones were transfected into Jurkat cells and the cellular luciferase activity and mRNA level were measured under either heat shock or PHA activation. Our results suggest that: (1) 5' flanking sequences of hsp90 beta mediates a relatively higher basal level expression via promotor region; (2) under heat shock, presence of the fragment surprisingly reduced luciferase activity, a heat shock induced negative regulatory element was restricted to -554/-171bp; and (3) PHA activation requires distal 5' sequence.

Mutational analysis of Hsp90 function: interactions with a steroid receptor and a protein kinase

Hsp90 is a protein chaperone whose functions are focused on a specific set of target proteins. The nature of Hsp90's interactions with these proteins is poorly understood. To provide tools for examining these interactions, we have isolated eight broadly distributed temperature-sensitive (ts) point mutations in the Hsp90 gene (HSP82) of Saccharomyces cerevisiae. The mutants fall into two distinct classes. One has a classic ts phenotype, with nearly wild-type activity at 25 degrees C and a precipitous loss of function at 34 degrees C. The remaining seven mutants, in contrast, cause a general reduction in Hsp90 function and are ts because they do not provide the high level of function required for growth at high temperatures. The effects of these mutants on two target proteins, a transcription factor (glucocorticoid receptor) and a tyrosine kinase (pp60v-src), provided several insights on Hsp90 function. First, Hsp90 is not only required to help the glucocorticoid receptor achieve a hormone-activable state, it is continuously required to maintain that state. Second, Hsp90's function in the maturation of pp60v-src involves separable roles in protein accumulation and kinase activation. Thus, Hsp90 is an integral component of both the steroid receptor and kinase signaling pathways. Finally, all eight point mutants affect the activation of both the glucocorticoid receptor and pp60v-src, indicating that Hsp90 promotes the activity of these very different target proteins through common mechanisms.

Differential expression and regulation of hsp70 and hsp90 by phorbol esters and heat shock

Human peripheral blood monocytes (PBM) produce superoxide anions (O2-.) by a process involving electron transfer from NADPH to O2, catalyzed by the respiratory burst enzyme NADPH oxidase. We have previously shown that phagocytosis, while activating NADPH oxidase, induced in PBM the synthesis of heat shock (HS) proteins (HSP). The present study was undertaken to establish whether this increase in HSP expression was related to O2-. and/or to classical second messengers such as protein kinase C (PKC). Thus, the effects of the PKC activator phorbol 12-myristate 13-acetate (PMA) were compared with those of heat shock on the expression, in PBM, of the major HSP, hsp70 and hsp90, using biometabolic labeling, Western and Northern blotting, and gel mobility shift assays. PMA induced the accumulation of mRNA and an increased expression of hsp90 and, to a lesser extent, hsp/hsc70 (hsc is the cognate, constitutive form). This induction was also observed in PBM from patients with chronic granulomatous disease, a genetic defect in NADPH oxidase, and was abolished by the PKC inhibitors staurosporine and H-7. PMA did not cause activation of the HS factor, and the PMA-induced overexpression expression of HSP was not blocked by the transcriptional inhibitor actinomycin D. HSP-specific mRNA stability was increased after PMA exposure as compared with heat shock. These results suggest that O2-. is not involved in the PMA-mediated induction of hsp70 and hsp90 and that, in contrast to HS, PMA increases the expression of HSP as a result of PKC-induced mRNA stabilization rather than of transcriptional activation of HS genes.

Role of the protein chaperone YDJ1 in establishing Hsp90-mediated signal transduction pathways

The substrate-specific protein chaperone Hsp90 (heat shock protein 90) from Saccharomyces cerevisiae functions in diverse signal transduction pathways. A mutation in YDJ1, a member of the DnaJ chaperone family, was recovered in a synthetic-lethal screen with Hsp90 mutants. In an otherwise wild-type background, the ydj1 mutation exerted strong and specific effects on three Hsp90 substrates, derepressing two (the estrogen and glucocorticoid receptors) and reducing the function of the third (the tyrosine kinase p60v-src). Analysis of one of these substrates, the glucocorticoid receptor, indicated that Ydj1 exerts its effects through physical interaction with Hsp90 substrates.

Evidence for a 90 kDa heat-shock protein gene expression in the amphibian oocyte

In order to study expression of a 90-kDa heat-shock protein during amphibian oogenesis at physiological temperature, we isolated a Pleurodeles waltl hsc90 cDNA by screening an ovarian cDNA library with a chicken hsp90 cDNA probe. The cDNA thus obtained--named Pw90--shows a high homology level with the hsp90 gene in other species. RNase protection analysis led us to conclude that this sequence is part of the cognate gene hsc90 and is constitutively expressed in oocytes. Furthermore, results of quantitative Northern blot analysis, as well as in situ hybridizations on oocyte sections or lampbrush chromosome spreads, provide evidence for expression of hsc90 transcripts at every stage of oogenesis. Moreover, they point to the fact that an accumulation of transcripts occurs very early in oogenesis. Simultaneously, the expression of HSC90-related protein was analyzed on Western blots using a monoclonal antibody (AC88) and a polyclonal antibody (AP90Ct) raised against the Pleurodeles C-terminal part of HSC90. We provide evidence for a net accumulation of HSC90-related protein in oocytes. Immunolocalization shows that a nuclear transfer occurs in the course of oogenesis and leads to a concentration equilibrium between cytoplasm and nucleus in stage VI oocytes.

Expression of hsp90 beta messenger ribonucleic acid in patients with familial glucocorticoid resistance--correlation to receptor status

We have previously shown an increased specific DNA-binding of liganded unactivated glucocorticoid receptor (GR) to the LTR-region of MMTV DNA in a patient with primary cortisol resistance and receptor thermolability indicating a defective interaction of GR with hsp90. In some patients, however, no apparent receptor abnormality was found in spite of a characteristic phenotype. mRNA expression levels of hsp90 beta were analysed in cultured fibroblasts from patients with known receptor defects, such as thermolability, decreased ligand binding affinity and low receptor expression levels, and from patients with a cortisol resistant phenotype but no detected receptor alteration. Fibroblasts from patients with GR defects expressed higher hsp90 beta mRNA levels as compared to patients with no receptor defects or to healthy controls. These data indicate that GR defects are associated with increased hsp90 beta mRNA levels.

Identification of a protein with homology to hsp90 that binds the type 1 tumor necrosis factor receptor

The yeast-based two hybrid has been used to identify a novel protein that binds to the intracellular domain of the type 1 receptor for tumor necrosis factor (TNFR-1IC). The TNF receptor-associated protein, TRAP-1, shows strong homology to members of the 90-kDa family of heat shock proteins. After in vitro transcription/translation and 35S labeling, TRAP-1 was precipitated using a fusion protein consisting of glutathione S-transferase and TNFR-1IC, showing that the two proteins directly interact. The ability of deletion mutants of TNFR-1 to interact with TRAP-1 was tested using the two hybrid system. This showed that the amino acid sequences that mediate binding are diffusely distributed outside of the domain in the C terminus of TNFR-1IC that signals cytotoxicity. The 2.4-kilobase TRAP-1 mRNA was variably expressed in skeletal muscle, liver, heart, brain, kidney, pancreas, lung, and placenta. TRAP-1 mRNA was also detected in each of eight different transformed cell lines. Identification of TRAP-1 may be an important step toward defining how TNFR-1, which does not contain protein tyrosine kinase activity, transmits its message to signal transduction pathways.

Stress-response (heat-shock) protein 90 expression in tumors of the central nervous system: an immunohistochemical study

This retrospective study deals with the expression of stress-response (heat-shock) protein 90 (srp 90) in a series of 148 human brain tumors. Immunohistochemical procedures were employed; cells of the human breast cancer line MCF7 exposed to hyperosmolar stress served as positive controls. Deposits of reaction products were found in the cytoplasm and they displayed a granular pattern. srp 90 was detected in 14/31 meningiomas and 5/10 breast cancer metastases to the brain. The protein was also present in 6/13 glioblastomas and 7/18 astrocytomas. In addition, a positive reaction was found in 2/10 medulloblastomas, 2/14 primitive neuroectodermal tumors, 1/11 pituitary tumor, 2/21 schwannomas and 2/11 lung tumor metastases; however, oligodendrogliomas and primary malignant lymphomas were not stained. The srp 90 was detected in Western blots of meningioma tissue homogenates. No significant immunohistochemical reaction was seen with sections of normal human cerebra, brain stem, cerebella, pituitary glands and spinal cords. These results document the expression of srp 90 by a variety of primary and metastatic intracranial tumors.

Isolation of chicken hsp90 beta gene promoter

In order to define the mechanisms responsible for the differential expression of chicken hsp90 alpha and beta genes, a portion of the chicken hsp90 beta genomic sequence, including 3081 bp upstream from the transcription initiation site and 2718 bp of structural gene sequence which covers 7 exons and 6 introns was investigated. The transcriptional initiation site was determined by primer extension, RNAase and S1 nuclease mapping, Northern blot and cloning of 5' end of cDNA. The first intron, as in other hsp90 genes, is located just before the ATG initiation codon. Three Sp1 sites are located near the TATA box. The apparent major divergence with the hsp90 alpha promoter is that, in the hsp90 beta promoter, the only CAAT box and HSE element are located at about 3 and 2 kb upstream the TATA box, respectively. These features may explain why chicken hsp90 beta mRNA is generally less abundant than alpha and is not inducible by heat shock or serum/growth factor stimulation.

Sequence, transcript characterization and polymorphisms of a Plasmodium falciparum gene belonging to the heat-shock protein (HSP) 90 family

A gene (pfhsp86) encoding a member of the heat-shock protein 90 (HSP90) family has been isolated from Plasmodium falciparum (Pf). The pfhsp86 coding region comprises two exons separated by an 0.8-kb intron with consensus splice junction sequences. The transcript itself is 3.4-kb long and includes a 0.65-kb 5'-untranslated region (UTR) and a 0.54-kb 3'-UTR. Upstream of the transcription start point (tsp) are putative promoter modules: an inverted CCAAT box, a G + C-rich sequence and several TATA sequences. Transcription is enhanced in in erythrocyte-stage parasites cultivated at elevated temperatures (2-3-fold at 39 degrees C and 3-4-fold at 41 degrees C). The pfhsp86 gene maps within a chromosome 7 segment that is linked to chloroquine (Cq) response in a Pf cross. The parents of this cross (Dd2, HB3) differ in the first exon by two trinucleotide repeats, while more divergence is apparent between the introns. These trinucleotide repeat differences are linked to Cq response in the HB3 x Dd2 cross, but they did not predict Cq response in nine Pf lines from different locations.

A role for Hsp90 in cell cycle control: Wee1 tyrosine kinase activity requires interaction with Hsp90

Wee1 protein kinase regulates the length of G2 phase by carrying out the inhibitory tyrosyl phosphorylation of Cdc2-cyclin B kinase. Mutations were isolated that suppressed the G2 cell cycle arrest caused by overproduction of Wee1. One class of swo (suppressor of wee1 overproduction) mutation, exemplified by swo1-26, also caused a temperature sensitive lethal phenotype in a wee1+ background. The swo1+ gene encodes a member of the Hsp90 family of stress proteins. Swo1 is essential for viability at all temperatures. Swo1 coimmunoprecipitates with Wee1, showing that the two proteins interact. The swo1-26 mutant undergoes premature mitosis when grown at a semi-permissive temperature. These data strongly indicate that formation of active Wee1 tyrosine kinase requires interaction with Swo1, perhaps in a manner analogous to the previously demonstrated interaction between Hsp90 and v-src tyrosine kinase. These observations demonstrate a unexpected role for Hsp90 in cell cycle control.

Constitutive expression of heat shock protein 90 (HSP90) in neurons of the rat brain

Immunoblot analysis, immunocytochemistry and immuno-electron microscopy were employed to study the expression of HSP90 protein in the adult rat brain, using a specific polyclonal antiserum. Immunoblot analysis demonstrated equal levels of HSP90 in microdissected extracts from hippocampus, cortex, striatum and cerebellum. Immunocytochemistry and immuno-electron microscopy provided evidence that HSP90 is markedly expressed throughout all neuronal subpopulations of the CNS but not in non-neuronal cells except ependyma and choroid plexus. At the ultrastructural level, HSP90 immunoreactivity was predominantly found in perikarya but to a lesser extent also in dendrites and nuclei. The constitutive expression of HSP90 in widespread neuronal cell populations suggests a functional role in the physiological molecular program of CNS neurons.

Sequence and expression of a 90-kilodalton heat-shock protein family member of Theileria parva

A Theileria parva specific full-length cDNA clone, T7, which encodes a protein with more than 60% homology to heat shock protein 90 (hsp90) of other organisms, has been identified. T7 appears to be a single copy gene. The gene is expressed as a protein of 87 kDa in both the sporozoite and schizont stages of T. parva. The protein was not found in the piroplasm stage, although the corresponding transcript was detected, suggesting post-transcriptional regulation of the gene. In the schizont stage the T7 protein is upregulated upon heat shock and localized in the cytoplasm.

Analysis of tissue-specific expression of Arabidopsis thaliana HSP90-family gene HSP81

We have isolated three HSP90-family genes from Arabidopsis: HSP81-1 which is heat-inducible, and HSP81-2 and -3 which are highly expressed under normal growth temperatures. Northern blot analysis and RNase protection analysis, using gene specific probes, showed that HSP81-2 and -3 mRNA were present in all tissues and abundant in roots, floral bud clusters, and flowers at 22 degrees C. A small amount of HSP81-1 mRNA was detected only in roots. In situ hybridization and histochemical analysis using transgenic plants carrying chimeric gene fusions, with an HSP81 promoter region fused to a beta-glucuronidase (GUS) gene, confirmed these results. At 22 degrees C, high GUS activity was observed in the root apical meristems, pollen and tapeta in HSP81-2::GUS and HSP81-3::GUS transgenic plants, while only branches of the root in HSP81-1::GUS transgenic plants expressed high GUS activity. After 2 hours of 35 degrees C treatment, extensively high GUS activity was observed in all tissues in HSP81-1::GUS transgenic plants, while elevated but tissue specific expression was observed in HSP81-2 and -3 transgenic plants. Exogenous application of various chemicals such as ABA, GA3, kinetin, IAA, NaCl, and mannitol revealed that 10 mM IAA and 0.1 M NaCl significantly enhanced the accumulation of HSP81-2 and -3 transcripts. Only a slight response to IAA was observed in HSP81-1 mRNA accumulation at 22 degrees C; the increase was possibly caused by a novel pathway other than heat-shock-response pathway.

HSP 90 alpha and HSP 90 beta genes are present in the zebrafish and are differentially regulated in developing embryos

We have employed a polymerase chain reaction-based cloning strategy to demonstrate that both hsp 90 alpha and hsp 90 beta genes are present in the zebrafish. The fact that zebrafish represents the most primitive vertebrate in which hsp 90 genes have been isolated to date has allowed us to determine that the duplication event which generated the hsp 90 alpha and hsp 90 beta genes occurred shortly before the emergence of the teleosts from the rest of the vertebrate lineage. In expression studies using Northern blot analysis, hsp 90 beta mRNA was found to be present at control temperatures throughout normal embryonic development whereas hsp 90 alpha mRNA was barely detectable. Upon heat shock, hsp 90 alpha mRNA levels increased dramatically in all developmental stages examined. The levels of hsp 90 beta mRNA increased 2-3 fold during heat shock of early stage embryos. Thus, the hsp 90 alpha gene is strongly upregulated during heat shock in zebrafish embryos whereas expression of the hsp 90 beta gene appears to be weakly induced.

Molecular characterization of the heat shock protein 90 gene of the human malaria parasite Plasmodium falciparum

We report here the nucleotide sequence of hsp90 (heat shock protein 90) of Plasmodium falciparum. Computer analysis of the deduced protein sequence revealed an unusually large region of charged amino acids when compared to hsp90 from other species. This region shows striking homology to the calcium binding domain of calreticulin, the major calcium binding protein of endoplasmic reticulum. Phylogenetic tree analysis indicates that P. falciparum hsp90 is more closely related to hsp90 from plants than to hsp90 from vertebrates or other parasites. The malaria hsp90 is an ATP binding protein encoded by a single gene constitutively expressed in both asexual (trophozoite) and sexual (gametocyte) stage parasites. The hsp90 protein is homologous to a previously identified 90-kDa antigen strongly recognised by both sera from vaccinated monkeys and monoclonal antibody XIV/7.

Regulation of HSP90 and corticosteroid receptor mRNA by corticosterone levels in vivo

The non-activated 9S forms of several steroid hormone receptors are heterooligomeric complexes consisting of the aporeceptor and three heat shock proteins, hsp90, hsp70 and hsp56. Hsp90 appears to play a facilitatory role in high-affinity steroid binding and to promote the efficacy of steroid actions on target tissues. Circulating glucocorticoid levels have a major regulatory impact on the binding capacity of hippocampal and hypothalamic corticosteroid receptors, a phenomenon that affects the activity of the hypothalamic-pituitary-adrenal axis and neuronal excitability in general. This study demonstrates that hsp90 mRNA is present in substantial amounts in hippocampal and hypothalamic areas characterized by high densities of corticosteroid receptors, and in the thymus. Steady-state levels of hsp90 mRNA in these regions were altered by chronic changes of circulating glucocorticoid concentrations in a site-specific fashion. In the hippocampus, mRNAs coding for hsp90 and both types of corticosteroid receptors (type I, MR and type II, GR) displayed a coordinate increase following adrenalectomy and castration (ADX/GX); in the hypothalamus only hsp90 mRNA levels were elevated, and none of the parameters studied was affected in the thymus by steroid hormone deprivation. Supplementation of ADX/GX rats with various doses of corticosterone in vivo elicited differential responses. Moderate elevation of circulating corticosterone levels normalized ADX/GX-increased hsp90 mRNA concentrations in the hippocampus and the hypothalamic paraventricular nucleus (PVN); this was associated with similar changes in GR and MR mRNA levels in the hippocampus, while GR mRNA concentrations in the PVN were not altered.(ABSTRACT TRUNCATED AT 250 WORDS)

The role of hsp90 in SLE

The heat shock proteins are a group of evolutionarily conserved proteins with important physiological functions, whose synthesis is enhanced by elevated temperature or other stresses. A role for one or more of these proteins in human autoimmune disease has been extensively discussed. This review considers the evidence of a role for hsp90 in systemic lupus erythematosus (SLE) where overexpression of this protein, its surface localization and auto-antibodies to it have been observed in both human patients and in the MRL/lpr mouse model of SLE.