Effects of cycloheximide on thermotolerance expression, heat shock protein synthesis, and heat shock protein mRNA accumulation in rat fibroblasts.

A single hyperthermic exposure can render cells transiently resistant to subsequent high temperature stresses. Treatment of rat embryonic fibroblasts with cycloheximide for 6 h after a 20-min interval at 45 degrees C inhibits protein synthesis, including heat shock protein (hsp) synthesis, and results in an accumulation of hsp 70 mRNA, but has no effect on subsequent survival responses to 45 degrees C hyperthermia. hsp 70 mRNA levels decreased within 1 h after removal of cycloheximide but then appeared to stabilize during the next 2 h (3 h after drug removal and 9 h after heat shock). hsp 70 mRNA accumulation could be further increased by a second heat shock at 45 degrees C for 20 min 6 h after the first hyperthermic exposure in cycloheximide-treated cells. Both normal protein and hsp synthesis appeared increased during the 6-h interval after hyperthermia in cultures which received two exposures to 45 degrees C for 20 min compared with those which received only one treatment. No increased hsp synthesis was observed in cultures treated with cycloheximide, even though hsp 70 mRNA levels appeared elevated. These data indicate that, although heat shock induces the accumulation of hsp 70 mRNA in both normal and thermotolerant cells, neither general protein synthesis nor hsp synthesis is required during the interval between two hyperthermic stresses for Rat-1 cells to express either thermotolerance (survival resistance) or resistance to heat shock-induced inhibition of protein synthesis.     

Field validation of hsp70 stress proteins as biomarkers in Asian clam (Potamocorbula amurensis): is downregulation an indicator of stress?

The focus of this paper is to consider the applicability of the hsp70 stress protein response as a biomarker in field studies. Stress proteins (or heat shock proteins, hsp) of the hsp70 family are induced by sublethal concentrations of a variety of environmental pollutants. However, few studies have applied these proteins as biomarkers of environmental stress under field conditions. Our laboratory is investigating hsp70 proteins and other responses of Asian clam (Potamocorbula amurensis) as potential biomarkers in laboratory and field studies. Our efforts include two studies presently being conducted in northern San Francisco Bay: (1) monthly collection of clams from four sites along a cadmium contamination gradient; (2) 7 day in situ exposure of clams at two selected sites at Mare Island Naval Shipyard. Here we present results on hsp70 proteins in P. amurensis in field-collected and outplanted clams. Both field projects are ongoing, therefore the results presented here do not represent completed studies; rather, they illustrate a portion of our experience. For this workshop, we illustrate weaknesses and strengths of these proteins as biomarkers, and we underscore where additional work is needed. In field-collected clams (study no. 1), site-specific differences in levels of two hsp70 proteins, hsp70 and hsp76, were measured in May and June 1997. Although an inverse correlation exists between cadmium tissue concentrations and hsp70 protein levels, differences detected may be reflective of a salinity gradient. Results from recent laboratory exposures to cadmium and a range of salinities are discussed. After in situ exposure for 7 days (study no. 2), both hsp70 and hsp76 levels were significantly reduced in clams from site R. However, given a brief heat-shock in the laboratory, hsp70 protein levels were significantly higher in clams from this site than in controls. Results indicate that downregulation as well as upregulation of hsp70 proteins may be indicators of stress in P. amurensis.     

Echinococcus granulosus: in vitro effects of ivermectin and praziquantel on hsp60 and hsp70 levels.

Martinez, J., Perez-Serrano, J., Bernadina, W. E., Rodriguez-Caabeiro, F. 1999 Echinococcus granulosus: In vitro effects of ivermectin and praziquantel on hsp60 and hsp70 levels. Experimental Parasitology93, 171-180. Organisms or cells exposed to injurious stresses such as heat shock or chemicals respond by increased (or altered) expression of heat-shock proteins (HSPs). Conversely, an earlier exposure to stress can prepare cells to cope with a subsequent more severe stress. In the present study, protoscolices of Echinococcus granulosus were subjected to several anthelmintic treatments, involving storage of the protoscolices for 18, 30, and 50 h with 0.1 mg/ml of ivermectin (IV), praziquantel (PZ), and a combination of each with albendazole (ALB). The organisms were analyzed for the effects of drug treatment on cell integrity and on levels of hsp60 and hsp70 production. Drug efficacy was evaluated by microscopy and by protein content measurement. Hsp60 and hsp70 were detected by Western blotting and incubation with anti-hsp60 and anti-hsp70 antibody, respectively, and quantitation of these proteins was obtained using image analysis. Incubation with IV alone produced the most damage to the protoscolices as indicated by viability loss, decreased protein content, and altered hsp60 and hsp70 levels; incubation with IV + ALB produced less damage as manifested by fewer changes in the aforementioned damage parameters but PZ and PZ + ALB, in this context, were poor anthelmintics. Exposure of protoscolices to thermal stress prior to anthelmintic treatment, in most cases, increased drug efficacy. It is concluded that in the E. granulosus model system drug efficacy is associated with decreased levels of hsp70 expression and increased levels of hsp60 expression.     

hsp47 and hsp70 gene expression is differentially regulated in a stress- and tissue-specific manner in zebrafish embryos

We have examined differences in the spatial and temporal regulation of stress-induced hsp47 and hsp70 gene expression following exposure of zebrafish embryos to heat shock or ethanol. Using Northern blot analysis, we found that levels of hsp47 and hsp70 mRNA were dramatically elevated during heat shock in 2-day-old embryos. In contrast, ethanol exposure resulted in strong upregulation of the hsp47 gene whereas hsp70 mRNA levels increased only slightly following the same treatment. Whole-mount in situ hybridization analysis revealed that hsp47 mRNA was expressed predominantly in precartilagenous cells, as well as several other connective tissue cell populations within the embryo following exposure to either stress. hsp70 mRNA displayed a very different cell-specific distribution. For example, neither stress induced hsp70 mRNA accumulation in precartilagenous cells. However, high levels of hsp70 mRNA were detectable in epithelial cells of the developing epidermis following exposure to heat shock, but not to ethanol. These cells did not express the hsp47 gene following exposure to either of these stresses. The results suggest the presence of different inducible regulatory mechanisms for these genes which operate in a cell- and stress-specific manner in zebrafish embryos. Dev. Genet. 21:123–133, 1997. © 1997 Wiley-Liss, Inc.     

Effect of glutathione depletion, hyperthermia, and a 100-mT static magnetic field on an hsp70/luc reporter system

Heat shock proteins, in particular hsp70, are induced under conditions of cellular stress. It has been reported that environmental stimuli such as hyperthermia, oxidative stress, and exposure to magnetic fields increase levels of hsp70. It has also been reported that hyperthermia in combination with magnetic field exposure results in a synergistic increase in hsp70 production. We tested the hypothesis that oxidative stress induced by glutathione (GSH) depletion in combination with static magnetic field (SMF) exposure will produce a similar synergistic increase in hsp70 production. We exposed cells to heat, SMF, and diethylmaleate (DEM), which depletes GSH levels alone and in combination with each other, and measured hsp70 production using an hsp70/luciferase reporter and mRNA levels using PCR. We found that treatment with DEM significantly reduced the rate of luciferase bioluminescence production, particularly in the presence of heat. There was no significant effect of a 100-mT SMF exposure either alone or in combination with heat, DEM, or both on bioluminescence, however there was a significant interaction between SMF and DEM on hsp70 mRNA levels. Therefore, under our exposure conditions, GSH depletion reduced hsp70 levels but a synergistic effect of combining this stress with other external stimuli was only observed at the level of mRNA.     

Intracellular distribution of mammalian stress proteins. Effects of cytoskeletal-specific agents

Following a brief period of heat stress, the two highly conserved mammalian stress proteins, hsp68 and 70, were examined with respect to their intracellular locations. In four independent cell lines, hsp68 and 70 were found to partition into both Triton X-100-soluble and insoluble fractions as assessed by two-dimensional gel analysis of newly synthesized polypeptides, whereas a fifth cell line showed these proteins only in the Triton X-100-insoluble fraction. In addition, a previously described cell fractionation technique was utilized to gain information regarding the segregation of the two major mammalian stress proteins, hsp68 and 70, into distinct biochemically and morphologically characterized subcellular compartments of PtK2-epithelial cells. Two cytoskeletal-specific agents, taxol and colchicine, were also probed for their effects on the disposition of these polypeptides. Under our conditions of acute heat exposure, hsp68, 70 and their isoforms were globally distributed in all subcellular fractions examined, with a few notable exceptions in drug-treated cells. Colchicine, a microtubule-depolymerizing drug, inhibited the association of hsp68 and its variants with the double-detergent-extractable labile "cytoskeleton," whereas taxol, a microtubule-stabilizing agent, in some manner, facilitated the transit of hsp68 and its isovariants from a cytoplasmic to nuclear domain. Degree of cell density is a factor which influences the synthesis of various cytoskeletal proteins; therefore, we studied the effect of cell confluency on the disposition of mammalian stress proteins hsp68 and 70 in human FS-4 fibroblasts. In confluent cultures, where cell-cell contact was maximal, we observed the appearance of a previously undetected polypeptide which was not found in sparsely populated cultures. This protein may represent a post-translationally modified isoform of a preexisting heat shock protein, or perhaps, a novel stress protein.     

Effects of cadmium chloride on some mitochondria-related activity and gene expression of human MDA-MB231 breast tumor cells

It was reported that cadmium is able to exert a cytotoxic effect on tumor MDA-MB231 cells, which shows signs of “non-classical” apoptosis and is characterized by drastic changes in gene expression pattern. In this study, we have extended our knowledge of metal-breast cancer cell interactions by analyzing some mitochondria-related aspects of the stress response to CdCl₂ at either 5 or 50 μM 24- or 96-h exposure, by cytochemical, conventional PCR and Northern/Western blot techniques. We demonstrated that (i) no modification of the mitochondrial mass was detectable due to CdCl₂ exposure; (ii) the respiration activity appeared to be increased after 96-h exposures, while the production of reactive oxygen species was significantly induced, as well; (iii) hsp60, hsp70, COXII and COXIV expressions were dependent on the duration of Cd exposure; (iv) a different hsp60 protein distribution was observed in mitochondrial and post-mitochondrial extracts and (v) 96-h exposure induced the over-expression of hsc/hsp70 proteins and, conversely, the down-regulation of cytochrome oxidase subunits II and IV. These observations, in addition to providing more information on the cellular and molecular aspects of the interaction between CdCl₂ and MDA-MB231 breast tumor cells, contribute to the comprehension of the intracellular molecular mechanisms implicated in the regulation of some mitochondrial proteins.     

Heat shock proteins hsp32 and hsp70 as biomarkers of an early response? In vitro induction of heat shock proteins after exposure of cell culture to carcinogenic compounds and their real mixtures

Heat shock proteins (hsp) are a highly conserved group of proteins that are synthesized as a response to different forms of stress (heat, toxic chemicals, diseases, non-physiological pH changes). Because of their high sensitivity to changes in the environment, these proteins were suggested as possible early biomarkers of exposure in ecotoxicological studies. The purpose of the present study was to check the suitability of hsp 32 and hsp70 as biomarkers of in vitro exposure to environmentally relevant carcinogens: polycyclic aromatic hydrocarbons (PAHs), their nitro-derivates, aromatic amines, acrylonitrile (ACN) and the mixture of organic compounds adsorbed onto ambient airborne particles (extractable organic matter, EOM).The expression of hsp 32 and hsp70 was studied in human diploid lung fibroblasts (HEL cells) and human monocytic leukaemia cells (THP-1 cells) incubated in vitro with different concentrations of dibenzo[a,l]pyrene (DB[a,l]P), 1-nitropyrene, (NP), 4-aminobiphenyl (ABP), ACN and EOM for different periods of time. The incubation of cells with DB[a,l]P, NP, ABP and EOM did not result in increased levels of hsp 32 or hsp70, either in dose- or time-dependent manner. ACN induced the expression of hsp 32 as well as hsp70 in HEL and THP-1 cells, which probably reflects its ability to induce oxidative stress. We conclude that hsp 32 and hsp70 are not suitable biomarkers of an early exposure to PAHs, their nitro-derivates, aromatic amines or EOM under the conditions used.     

Examination of the expression of the heat shock protein gene, hsp110, in Xenopus laevis cultured cells and embryos

Eukaryotic organisms respond to various stresses with the synthesis of heat shock proteins (HSPs). HSP110 is a large molecular mass HSP that is part of the HSP70/DnaK superfamily. In this study, we have examined, for the first time, the expression of the hsp110 gene in Xenopus laevis cultured cells and embryos. Sequence analysis revealed that the protein encoded by the hsp110 cDNA exhibited 74% identity with its counterparts in mammals and only 27-29% with members of the Xenopus HSP70 family. Hsp110 mRNA and/or protein was detected constitutively in A6 kidney epithelial cells and was inducible by heat shock, sodium arsenite, and cadmium chloride. However, treatment with ethanol or copper sulfate had no detectable effect on hsp110 mRNA levels. Similar results were obtained for hsp70 mRNA except that it was inducible with ethanol. In Xenopus embryos, hsp110 mRNA was present constitutively during development. Heat shock-inducible accumulation of hsp110 mRNA occurred only after the midblastula stage. Whole mount in situ hybridization analysis revealed that hsp110 mRNA accumulation in control and heat shocked embryos was enriched in selected tissues. These studies demonstrate that Xenopus hsp110 gene expression is constitutive and stress inducible in cultured cells and developmentally- and tissue specifically-regulated during early embryogenesis.     

Heat shock proteins hsp32 and hsp70 as biomarkers of an early response?: In vitro induction of heat shock proteins after exposure of cell culture to carcinogenic compounds and their real mixtures

Heat shock proteins (hsp) are a highly conserved group of proteins that are synthesized as a response to different forms of stress (heat, toxic chemicals, diseases, non-physiological pH changes). Because of their high sensitivity to changes in the environment, these proteins were suggested as possible early biomarkers of exposure in ecotoxicological studies. The purpose of the present study was to check the suitability of hsp32 and hsp70 as biomarkers of in vitro exposure to environmentally relevant carcinogens: polycyclic aromatic hydrocarbons (PAHs), their nitro-derivates, aromatic amines, acrylonitrile (ACN) and the mixture of organic compounds adsorbed onto ambient airborne particles (extractable organic matter, EOM).The expression of hsp32 and hsp70 was studied in human diploid lung fibroblasts (HEL cells) and human monocytic leukaemia cells (THP-1 cells) incubated in vitro with different concentrations of dibenzo[a,l]pyrene (DB[a,l]P), 1-nitropyrene, (NP), 4-aminobiphenyl (ABP), ACN and EOM for different periods of time. The incubation of cells with DB[a,l]P, NP, ABP and EOM did not result in increased levels of hsp32 or hsp70, either in dose- or time-dependent manner. ACN induced the expression of hsp32 as well as hsp70 in HEL and THP-1 cells, which probably reflects its ability to induce oxidative stress. We conclude that hsp32 and hsp70 are not suitable biomarkers of an early exposure to PAHs, their nitro-derivates, aromatic amines or EOM under the conditions used.     

Hsp 27 is better associated with the expression of inducible thermotolerance in human pancreatic tumor cell lines than hsp 70, p53 or p21/waf1/cip1

We evaluated the levels of p53, p21/waf1/cip1, hsp 27 and hsp 70 proteins in confluent cultures of human pancreatic tumor cell lines during the expression of inducible thermotolerance (IT). Two of these cell lines have wild type, whereas the other two have mutant, p53 status. Three cell lines expressed a significant amount of IT (p<0.05 and better, one-tailed Student's t-test); the fourth manifested little IT. Hsp 70 was upregulated in all cell lines. In contrast, hsp 27 was upregulated only in the cell lines that expressed IT. There was no correlation between either p53, or p21, protein levels and propensity to express IT. We conclude that hsp 27 is better associated with the expression of IT than hsp 70 in these cell lines.     

The transport of proteins into the nucleus requires the 70-kilodalton heat shock protein or its cytosolic cognate.

The 70-kDa heat shock protein hsp70 and its constitutively expressed cognate, hsc70, are abundant proteins implicated in a number of cellular processes. When a permeabilized cell system for examining the transport of proteins into the nucleus is depleted of hsc70 and hsp70, either by affinity chromatography on ATP-agarose or with antibodies against these proteins, nuclear transport activity is lost. Full activity is restored by the addition of HeLa proteins that bind to ATP-agarose. hsc70 and hsp70 are the active factors, since activity is also fully restored by the addition of either recombinant hsc70 or hsp70 which has been bacterially expressed and highly purified. The restoration of activity is saturable. The transport system requires other cytosolic factors as well, including at least one protein that is sensitive to inactivation by N-ethylmaleimide, but neither hsc70 nor hsp70 is the sensitive protein.     

The constitutive and stress inducible forms of hsp 70 exhibit functional similarities and interact with one another in an ATP- dependent fashion

Mammalian cells constitutively express a cytosolic and nuclear form of heat shock protein (hsp) 70, referred to here as hsp 73. In response to heat shock or other metabolic insults, increased expression of another cytosolic and nuclear form of hsp 70, hsp 72, is observed. The constitutively expressed hsp 73, and stress-inducible hsp 72, are highly related proteins. Still unclear, however, is exactly why most eukaryotic cells, in contrast to prokaryotic cells, express a novel form of hsp 70 (i.e., hsp 72) after experiencing stress. To address this question, we prepared antibodies specific to either hsp 72 or hsp 73 and have compared a number of biological properties of the two proteins, both in vivo and in vitro. Using metabolic pulse-chase labeling and immunoprecipitation analysis, both the hsp 72 and hsp 73 specific antibodies were found to coprecipitate a significant number of newly synthesized proteins. Such interactions appeared transient and sensitive to ATP. Consequently, we suspect that both hsp 72 and hsp 73 function as molecular chaperones, interacting transiently with nascent polypeptides. During the course of these studies, we routinely observed that antibodies specific to hsp 73 resulted in the coprecipitation of hsp 72. Similarly, antibodies specific to hsp 72 were capable of coprecipitating hsp 73. Using a number of different approaches, we show that the constitutively expressed, pre-existing hsp 73 rapidly forms a stable complex with the newly synthesized stress inducible hsp 72. As is demonstrated by double-label indirect immunofluorescence, both proteins exhibit a coincident locale within the cell. Moreover, injection of antibodies specific to hsp 73 into living cells effectively blocks the ability of both hsp 73 and hsp 72 to redistribute from the cytoplasm into the nucleus and nucleolus after heat shock. These results are discussed as they relate to the possible structure and function of the constitutive (hsp 73) and highly stress inducible (hsp 72) forms of hsp 70, both within the normal cell as well as in the cell experiencing stress.     

The relationship between hsp 70 localization and heat resistance

Using indirect immunofluorescence we have investigated the kinetics of nuclear accumulation and removal of hsp 70 in HA-1 Chinese hamster fibroblasts exposed to elevated temperatures. The kinetics of accumulation of hsp 70 in the nuclei were found to be time/temperature dependent at all temperatures tested (42-45 degrees C). At a given temperature, the fraction of cells manifesting nuclear localization of hsp 70 increased with exposure time. For a given duration of heating, the fraction of cells manifesting nuclear localization of hsp 70 increased with the temperature. The kinetics of the nuclear accumulation of hsp 70 were similar for normal HA-1 cells, their heat-resistant variants, and transiently thermotolerant cells (triggered by prior exposure to a brief heat shock or to sodium arsenite). Upon return to 37 degrees C after heat shock, the kinetics of removal of the hsp 70 associated with the nucleus was dependent on the severity of the initial heat challenge. However, for a given heat dose, the decay of nuclear localization of hsp 70 was more rapid in thermotolerant and heat-resistant cells than in their normal counterparts. These results suggest that the increased levels of hsp 70 associated with the transient or permanently heat-resistant state may play a direct role in restoring and/or repairing heat-induced nuclear and nucleolar alterations associated with heat-induced cell killing. Furthermore, they also suggest that the heat-resistant state may involve ameliorated repair of heat-induced cellular alterations.     

Field validation of hsp70 stress proteins as biomarkers in Asian clam (Potamocorbula amurensis): is downregulation an indicator of stress?

The focus of this paper is to consider the applicability of the hsp70 stress protein response as a biomarker in field studies. Stress proteins (or heat shock proteins, hsp) of the hsp70 family are induced by sublethal concentrations of a variety of environmental pollutants. However, few studies have applied these proteins as biomarkers of environmental stress under field conditions. Our laboratory is investigating hsp70 proteins and other responses of Asian clam (Potamocorbula amurensis) as potential biomarkers in laboratory and field studies. Our efforts include two studies presently being conducted in northern San Francisco Bay: (1) monthly collection of clams from four sites along a cadmium contamination gradient; (2) 7 day in situ exposure of clams at two selected sites at Mare Island Naval Shipyard. Here we present results on hsp70 proteins in P. amurensis in field-collected and outplanted clams. Both field projects are ongoing, therefore the results presented here do not represent completed studies; rather, they illustrate a portion of our experience. For this workshop, we illustrate weaknesses and strengths of these proteins as biomarkers, and we underscore where additional work is needed. In field-collected clams (study no. 1), site-specific differences in levels of two hsp70 proteins, hsp70 and hsp76, were measured in May and June 1997. Although an inverse correlation exists between cadmium tissue concentrations and hsp70 protein levels, differences detected may be reflective of a salinity gradient. Results from recent laboratory exposures to cadmium and a range of salinities are discussed. After in situ exposure for 7 days (study no. 2), both hsp70 and hsp76 levels were significantly reduced in clams from site R. However, given a brief heat-shock in the laboratory, hsp70 protein levels were significantly higher in clams from this site than in controls. Results indicate that downregulation as well as upregulation of hsp70 proteins may be indicators of stress in P. amurensis.     

Toxicity of cypermethrin: hsp70 as a biomarker of response in transgenic Drosophila

Heat shock protein induction is often associated with a cellular response to a harmful environment or to adverse life conditions. The main aims of our study were (1) to evaluate the cytotoxic potential of cypermethrin; and (2) to investigate the suitability of stress-induced heat shock protein Hsp70 as a biomarker for environmental pollutants in transgenic Drosophila melanogaster (Hsp70-lacZ)Bg⁹. Different concentrations of cypermethrin (0.002, 0.2, 0.5 and 50.0 p.p.m.) were mixed with food. Third instar larvae of transgenic Drosophila melanogaster were allowed to feed on these mixtures for different time intervals (2, 4, 6, 12, 24 and 48h). Following feeding, hsp70 induction and tissue damage were evaluated. In the highest concentration treatment group (50 p.p.m.), 100% larval mortality was recorded after 12 h exposure. Hsp70 was found to be induced even at the lowest concentration (0.002 p.p.m.) of the insecticide, while tissue damage was observed in the larvae exposed for 48 h. While an insignificant decline in hsp70 expression was observed in the larvae exposed to cypermethrin at a dietary concentration of 0.002 p.p.m. after 48 h compared with those exposed for 24 h, in the next two higher concentrations of the toxicant, a similar but significant decline in hsp70 expression was evident in the exposed larvae after 48 h. The present study reveals the cytotoxic potential of cypermethrin and further proposes that hsp70 induction in transgenic Drosophila melanogaster could be used as a sensitive biomarker in risk assessment.     

Copper impact on heat shock protein 70 expression and apoptosis in rainbow trout hepatocytes

The mechanism underlying copper hepatotoxicity was investigated in primary cultures of rainbow trout hepatocytes maintained in Leibovitz-15 media. CuSO4 treatment (0, 25, 50, 100 and 200 microM) resulted in a dose-dependent elevation in heat shock protein 70 (hsp70) expression at 24 and 48 h post-exposure. There was no effect of copper (200 microM CuSO4) on hepatotoxicity at 24 h, whereas longer exposures (48 h) resulted in increased lactate dehydrogenase (LDH) leakage and apoptosis, demonstrated by fluorescence nuclear staining and DNA fragmentation. Vitamin C (1 mM), a free radical scavenger, inhibited this copper-induced apoptosis implying a role for reactive oxygen species in copper toxicity. However, no parallel inhibition of either LDH leakage or hsp70 protein expression was observed with vitamin C suggesting that at least two independent mechanisms are involved in the cellular response to copper. Also, copper exposed (24 h) cells were unable to mount an hsp70 response to a standardized heat shock (+15 degrees C for 1 h), even in the presence of vitamin C. Together, these results suggest that hepatotoxicity of copper includes impairment of hsp70 response to subsequent stressors and/or signals, which is crucial for protecting cells from proteotoxicity.