Boris A. Margulis

Major stress protein Hsp70 interacts with NF-kB regulatory complex in human T-lymphoma cells

Polypeptides belonging to the Hsp70 major stress protein family and to the NF-kB/Rel multi-functional regulatory complex are known to be involved in cellular defense mechanisms. It was suggested that both systems may interact in cells that respond to injuring stimuli. To check this, Molt4 human lymphoma cells were heated at 43 degrees C for 15 min and, after a 6 h post-shock recovery period, the cells were activated with phorbol ester or bacterial lipopolysaccharide. It was found that mild heat shock caused a substantial increase of the intracellular Hsp70 content with the concomitant suppression of NF-kB complexes, though the latter was properly activated in non-stressed cells. After a 24 h period of being inactive the complex fully recovered its activity and p65 and c-Rel subunits migrated to the nucleus. This new active period lasted even longer than that in non-heated control cells. As this suggested the existence of a Hsp70-related mechanism of NF-kB/Rel complex retention in cytoplasm, we carried out immunoprecipitation with the use of anti-Hsp70 and anti-Rel antibodies. All three Rel family members p65, c-Rel, p50, but not their precursors and IkB alpha inhibitory protein were shown to co-precipitate with the stress protein and anti-Hsp70 antibodies from both heated and non-heated cells. We conclude that the Hsp70 stress protein may confer a new mechanism of NF-kB regulation in cells affected by elevated temperature or other factors related to the cellular response to stress.

Treatment with extracellular HSP70/HSC70 protein can reduce polyglutamine toxicity and aggregation

The accumulation of insoluble protein aggregates is a feature of neurodegenerative disease. Overexpression of Heat Shock Protein 70 (HSP70) can protect cells with protein aggregates from apoptosis. Another trait of HSP70 is its ability to cross the plasma membrane. Therefore, we purified a preparation of HSP70/HSC70 from bovine muscle and used it in a model of Huntingtons disease. Human neuroblastoma SK‐N‐SH cells were transfected with huntington exon 1 with short (25) or long (103) CAG trinucleotide repeats coupled to green flourescent protein (GFP). Cells transfected with the long polyCAG repeat had insoluble protein aggregates and died through apoptosis. Biotinylated HSP70/HSC70 incorporated into the culture medium appeared inside the cells within 3–6 h of incubation. This incorporation correlated with a reduction in apoptotic cells by 40–50%. Confocal microscopy revealed that labelled internalized HSP70/HSC70 co‐localized with the polyglutamine inclusions. The measurement of the number and size of inclusions showed that HSP70/HSC70 was able to reduce both these parameters. A filter trap assay and immunoblotting demonstrated that the introduction of HSP70/HSC70 also decreased protein aggregation. Together with earlier data on the effects of exogenously administered HSP70/HSC70 on cultured cells and on animals, these data show that preparations based on HSP70 may have some potential as therapies for a variety of neurodegenerative pathologies.

EFFECTS OF EXOGENOUS STRESS PROTEIN 70 ON THE FUNCTIONAL PROPERTIES OF HUMAN PROMONOCYTES THROUGH BINDING TO CELL SURFACE AND INTERNALIZATION

The presence of antibodies against the major stress protein, Hsp70, in patients with autoimmune diseases led us to hypothesize that Hsp70 may occur extracellularly, and could exert chaperoning and regulatory effects on various cells. We examined the action of pure Hsp/Hsc70 on the main physiological functions of human promonocytic U-937 cells. The protein was isolated from calf muscle and was shown to be a mixture of inducible Hsp70 (60%) and constitutive Hsc70 (40%) isoforms. It was observed that the addition of the protein up-regulated two major monocyte/macrophage differentiation markers, CD11c and CD23, by 20-35%, while it had no effect on CD14. The experiments performed to investigate the influence of Hsp/Hsc70 on the reaction of U-937 cells to differentiation stimuli demonstrated that the addition of the protein prior to PMA was able to inhibit binding of proper transcription factors to double-symmetry and cAMP-response elements of the c-fos early response gene promoter. Administration of exogenous Hsp/Hsc70 prior to treatment with the tumor necrosis factor-alpha significantly lowered the number of apoptotic and necrotic cells. In no case did the control protein, ovalbumin, taken in the same concentration give a comparable effect on U-937 cells. Since the Hsp/Hsc70 effects occurred within the first hour of co-incubation, and therefore they might be explained by its interaction with the cell surface, we assayed binding of the biotinylated protein to U-937 cells by immunoenzyme assay, flow cytometry and indirect immunofluorescence. Using these three techniques we were able to detect Hsp/Hsc70 bound to cells after a 20 min incubation. According to flow cytometry data, at this time 32% of cells were positively stained with streptavidin-FITC. Immunofluorescence studies demonstrated Hsp/Hsc70 bound to the cell surface after a 20 min incubation followed by induction of patch and cap-like structures. One hour later, the majority of the protein had been internalized by U-937 cells.

Liposomal Delivery of Purified Heat Shock Protein hsp70 Into Rat Pancreatic Islets as Protection Against Interleukin 1β–Induced Impaired β-Cell Function

Recently it has been demonstrated that heat shock protein 70 (hsp70) is induced in pancreatic islet cells during prolonged exposure to interleukin 1β (IL-1β). It is unclear whether this represents a cellular defense against the noxious action of IL-1β or whether hsp70 is involved in the suppressive action of the cytokine. To assess the role for hsp70 in isolated islets exposed to IL-1β, hsp70 was purified and introduced into cells of isolated rat pancreatic islets via the liposome technique. Delivery of hsp70 was efficient according to immunoblot analysis, but delivered hsp70 disappeared within 16 h. Hsp70-containing liposomes did not affect protein synthesis, insulin secretion, or islet insulin mRNA content. However, when hsp70 liposome–incubated islets were further exposed to IL-1β (25 U/ml) for 16 h, these islets released more insulin in response to glucose stimulation and contained more insulin mRNA than islets incubated with control liposomes and subsequently exposed to the cytokine. No protective effect of liposomes containing bovine serum albumin or ovalbumin were observed. We conclude that hsp70 may protect against IL-1β–induced impairment of pancreatic β-cell function.

Downstream caspases are novel targets for the antiapoptotic activity of the molecular chaperone Hsp70

Abstract The response of cancer cells to apoptosis-inducing agents can be characterized by 2 opposing factors, the proapoptotic caspase cascade and the antiapoptotic stress protein Hsp70. We show here that these factors interact in U-937 leukemia cells induced to apoptosis with anticancer drugs, etoposide and adriamycin (ADR). The protective effect of Hsp70 was verified using 2 approaches: mild heat stress and transfection-mediated overexpression of the Hsp70 gene. The increase in Hsp70 levels attained by these 2 methods was found to postpone caspase activation for 12–18 hours. An in vitro assay was developed using mouse myeloma NS0/1 cells, which lack the expression of Hsp70. Measurement of DEVD-ase activity in extracts of apoptotic NS0/1 cells incubated with purified Hsp70 showed that Hsp70 reduced caspase activity by up to 50% of its control value in a dose-dependent manner. The hypothesis that the inhibitory effect of Hsp70 on caspase-3/7 activity related to a direct interaction between Hsp70 and the caspases was tested by reciprocal immunoprecipitations and Far-western analyses. These tests were performed with extracts of Hsp70-overexpressing, control, and ADR-treated U-937 cells and using anti–caspase-3, caspase-7, and anti-Hsp70 antibodies, and the data clearly showed that Hsp70 was able to interact with the proforms of these caspases in cell lysates and with reconstituted purified proteins but did not bind the activated forms of either caspase-3 or -7. This association was also corroborated by a novel, enzyme-linked immunosorbent assay–like assay, protein interaction assay, that combined the advantages of immunoprecipitation and immunoblotting in a 96-well microplate–based assay. Thus, Hsp70 may act to suppress caspase-dependent apoptotic signaling through binding the precursor forms of both caspase-3 and caspase-7 and preventing their maturation.

Hsp70 Chaperone as a Survival Factor in Cell Pathology

Heat shock protein Hsp70 is implicated in the mechanism of cell reaction to a variety of cytotoxic factors. The protective function of Hsp70 is related to its ability to promote folding of nascent polypeptides and to remove denatured proteins. Many types of cancer cells contain high amounts of Hsp70, whose protective capacity may pose a problem for therapy in oncology. Hsp70 was shown to be expressed on the surface of cancer cells and to participate in the presentation of tumor antigens to immune cells. Therefore, the chaperone activity of Hsp70 is an important factor that should be taken into consideration in cancer therapy. The protective role of Hsp70 is also evident in neuropathology. Many neurodegenerative processes are associated with the accumulation of insoluble aggregates of misfolded proteins in neural cells. These aggregates hamper intracellular transport, inhibit metabolism, and activate apoptosis through diverse pathways. The increase of Hsp70 content results in the reduction of aggregate size and number and ultimately enhances cell viability.

Effects of antineoplastic agents on cytoplasmic and membrane-bound heat shock protein 70 (Hsp70) levels.

Abstract Here we report on the study of the effects of different antineoplastic agents, including cytarabine, 4-hydroperoxyifosfamide, the activated form of ifosfamide, vincristine, and paclitaxel, with regard to their capacity to modulate the amount of cytoplasmic and membranebound heat shock protein 70 (Hsp70). Hsp70 levels were measured in the myelogenous leukemic cell line K562, in the human colon carcinoma cell line CX2, and in peripheral blood lymphocytes (PBL) under physiological conditions (37C), and following nonlethal heat shock at 41.8C. A concentration of 1 M and an incubation period of 2 h were determined as nonlethal, since none of the different antineoplastic agents induced necrosis or apoptosis in untreated or heatshocked cells under these conditions. Our results show that tubulininteracting agents, including vincristine and paclitaxel, but not DNAinteracting agents, including cytarabine and ifosfamide, selectively increase the amount of cytoplasmic Hsp70 in tumor and normal cells, as measured by semiquantitative Western blot analysis. Mechanistically, a vincristine and paclitaxelinduced tubulin assembly, as demonstrated by immunofluorescence microscopy, might be responsible for the elevated cytoplasmic Hsp70 levels. Interestingly, an increased membrane expression of Hsp70 following treatment with vincristine or paclitaxel was selectively observed on tumor cells, but not on normal cells.

Novel mechanism of Hsp70 chaperone-mediated prevention of polyglutamine aggregates in a cellular model of huntington disease

The key feature of polyglutamine aggregates accumulating in the course of Huntington disease (HD) is their resistance to protein denaturants, and to date only chaperones are proved to prevent mutant protein aggregation. It was suggested that expanded polyglutamine chains (polyQ) of mutant huntingtin are cross-linked to other proteins such as glyceraldehyde-3-phosphate dehydrogenase (GAPDH). Here we clarify the roles of GAPDH and molecular chaperone Hsp70 in the formation of sodium dodecyl sulfate (SDS)-insoluble polyQ aggregates. First, the addition of pure GAPDH was found to enhance the aggregation of polyQ in a cell-free model of HD. Secondly, the immunodepletion of GAPDH dose-dependently decreased polyQ aggregation. Finally, siRNA-mediated inhibition of GAPDH protein in SK-N-SH neuroblastoma cells has also reduced the aggregation of cellular polyQ. Regulated over-expression of Hsp70 decreased the amount of GAPDH associated with SDS-insoluble polyQ aggregates. Physical association of Hsp70 and GAPDH in SK-N-SH cells was shown by reciprocal immunoprecipitation and confocal microscopy. Pure Hsp70 dose-dependently inhibited the formation of polyQ aggregates in cell-free model of HD by sequestering both GAPDH and polyQ. We demonstrated that Hsp70 binds to polyQ in adenosine triphosphate-dependent manner, which suggests that Hsp70 exerts a chaperoning activity in the course of this interaction. Binding of Hsp70 to GAPDH was nicotinamide adenine dinucleotide-dependent suggesting another type of association. Based on our findings, we conclude that Hsp70 protects cells in HD by removing/sequestering two intrinsic components of protein aggregates: the polyQ itself and GAPDH. We propose that GAPDH might be an important target for pharmacological treatment of HD and other polyglutamine expansion-related diseases.

Heat shock protein Hsp70 expression and DNA damage in Baikalian sponges exposed to model pollutants and wastewater from Baikalsk Pulp and Paper Plant

Lake Baikal, a unique habitat for a great number of endemic species, is the largest freshwater reservoir in the world which is still largely unaffected by anthropogenic pollution, except for some shore regions with industrial activity. The expressions of a biomarker of exposure (heat shock protein Hsp70) and a biomarker of effect (DNA single-strand breaks) were measured for the first time in endemic Baikalian sponge species (Baikalospongia intermedia, Lubomirskia fusifera, and Lubomirskia abietina). Tissue cubes of B. intermedia and dissociated cells of L. fusifera and L. abietina reacted to temperature stress (10-16 degrees C above ambient temperature) with a time-dependent increase in expression of Hsp70. In B. intermedia, the effects of model pollutants (lead, copper, and zinc, and the organochlorines tetrachloroguaiacol, TCG, and pentachlorophenol, PCP) and of the wastewater from the final refinement and aeration reservoirs of the Baikalsk Pulp and Paper Plant (BPPP), located at the shore of the southern basin of Lake Baikal, on the expression of Hsp70 and the extent of DNA damage were investigated. It was found that lead and zinc but not copper cause a strong induction of Hsp70 in this sponge, while the frequency of DNA single-strand breaks increased after exposure to all these heavy metals tested. Induction of DNA single-strand breaks was also observed after exposure to TCG and PCP, but these compounds did not (consistently) enhance Hsp70 expression. Wastewater taken from the final water aeration pond of BPPP caused a concentration-dependent increase in Hsp70 expression in B. intermedia. However, there was no difference in the basal levels of Hsp70 between sponges collected in the shallow water at an unpolluted site near Baikalsk City and at a polluted site where the wastewaters of BPPP are discharged into the lake. There was also no clear difference in the wastewater concentration-dependent induction of Hsp70 expression between sponges collected at these sites, indicating no adaptation to continuous stress exposure.

Exogenous mammalian extracellular HSP70 reduces endotoxin manifestations at the cellular and organism levels

In this study, we checked whether HSP70 preparations of different origins are able to protect model animals (rats) from endotoxic shock and modify the response of myeloid cells to lipopolysaccharide (LPS) challenge. It was shown that HSP70 preparations can effectively protect organisms from endotoxic shock by strongly decreasing mortality and restoring both homeostasis and various hemodynamic characteristics. At the cellular level, HSP70 preparations significantly inhibit LPS‐induced reactive oxygen species production in various myeloid cells and decrease NO expression in macrophages, which is enhanced after LPS priming. In parallel, HSP70 preconditioning partially normalizes neutrophil apoptosis, which is disturbed as a result of LPS stimulation. These results suggest that the antiseptic actions of HSP70 preparations are probably realized at the level of receptor membrane complexes of myeloid cells, which represent the major target of LPS action. Taken together, our findings show that extracellular mammalian HSP70 may play an important role in innate immunity modulation and stimulation of endogenous protective mechanisms, both at the cellular and organism levels, which make this protein a promising base for the development of efficient antiseptic drugs.