Tubulin和HSP90在氧化应激预适应中的作用

目的：探讨热休克蛋白90和细胞骨架蛋白tubulin在氧化应激预适应中的作用。方法:应用不同浓度H2O2作用于HepG2细胞,建立HSP90不同表达量的模型后,MTT比色法检测细胞活力,Western blotting 定量检测各模型中HSP90、tubulin量,激光扫描共聚焦显微镜测定该两种蛋白在对照、预适应、氧化应激、预适应后氧化应激下的分布和共定位。 结果:MTT比色法结果提示预适应可提高应激状态下的细胞生存活力;Western blotting结果显示氧化应激预适应可提高细胞内HSP90 和 tubulin含量,减轻再次应激所致的HSP90 和 tubulin总量下降;激光共聚焦显示该两种蛋白有相似的细胞分布。结论:Tubulin可能协同HSP90在氧化应激预适应中起保护作用。     

Distribution of 70kDa heat shock protein in rabbit brains after heat stress and heat stroke

OBJECTIVE: Evaluation of the relationship between the induction of 70kDa heat shock protein in rabbit brains and heat stress. METHODS: HSP70 was detected using monoclonal antibody by ABC method in rabbit hypothalamus, hippocampus and cerberal cortex. RESULTS: Intense HSP70 staining was displayed in rabbit brains of the heat stroke group (rectal temperature 43 degrees C to death). Positive cells were distributed mainly in the CA1, CA2 regions of the hippocampus; granular cell layer I and pyramidal layer (II) of the cerebral cortex; and the periventricular area of hypothalamus. HSP70-psoitive substances were localized in the cytoplasm and neuronal processes, a few neurons exhibited dark staining nucle. Hosever, the rabbit brains of the general heat stress group (rectal temperature 42.0 degrees C, 30 minutes) had much weaker staining. CONCLUSION: Hyperthermia causes neuronal expression of HSP70, particularly under strong heat stress, and may be sustained till death.     

Effect of endotoxin-induced cell injury on 70-kD heat shock proteins in bovine lung endothelial cells

Heat shock proteins (HSPs) have been remarkably conserved throughout evolution. It has been assumed that induction of HSPs remains a stereotypic response to injury, important for survival of eukaryotic cells during euthermic injury. However, there are few studies of this phenomenon in endothelial cells, and none in pulmonary endothelial cells. We studied the induction of synthesis of 70-kD proteins in bovine pulmonary artery endothelial cells (BPAECs) in response to heat shock and to euthermic injury induced by bacterial endotoxin. First, in response to heat, BPAECs showed rapid and reversible heat-induced synthesis of 70-kD proteins, readily detectable by one-dimensional SDS-PAGE of [35S]methionine-labeled BPAECs. Heat shock at 42 degrees C for 3 h or 43 degrees C for 2 h suppressed total protein synthesis by 30% (P less than 0.001) but an increased rate of synthesis of 70-kD protein continued, representing an increasing fraction of total protein synthesis. Heat-induced synthesis of 70-kD protein returned to baseline levels 8 h after heat shock. Northern analysis showed that mRNA for a protein homologous to a conserved amino acid sequence in the family of species-homologous 70-kD heat shock proteins (HSP 70) was induced by a 15-min incubation at 42 degrees C and remained detectably increased for 6 h. We next assessed whether euthermic injury by bacterial endotoxin (LPS) generated a similar response. LPS was cytotoxic by BPAECs as assessed morphologically, by release of 51Cr from prelabeled cells, and by a significant suppression of total protein synthesis (range, 35 to 70%; P less than 0.001). Despite cytotoxicity, LPS did not induce 70-kD protein at a level that could be detected by SDS-PAGE, and no increase in mRNA for HSP 70 was detected by Northern analysis. LPS-injured BPAECs remained "competent" to induce both 70-kD proteins and mRNA for HSP 70 in response to heat shock. We conclude that at least quantitatively, induction of HSP 70 by BPAECs is not a stereotypic response to injury but rather is at least relatively injury-specific. However, competence to induce HSP 70 appears to be extremely resilient: it is retained in dysfunctional BPAECs in the face of profound inhibition of global protein synthesis, suggesting an important homeostatic role.     

Sub‐lethal heat shock induces plasma membrane translocation of 70‐kDa heat shock protein in viable,but not in apoptotic,U‐937 leukaemia cells

Lasunskaia EB, Fridlianskaia I, Arnholdt AV, Kanashiro M, Guzhova I, Margulis B. Sub‐lethal heat shock induces plasma membrane translocation of 70‐kDa heat shock protein in viable, but not in apoptotic, U‐937 leukaemia cells. APMIS 2010; 118: 179–87. Heat shock protein 70 kDa, Hsp70, is an important intracellular factor that protects cells from stress. Unusual plasma membrane expression of Hsp70, observed in some cancer cells, contributes to the cell’s recognition and elimination by the immune system. Induction of apoptosis in cancer cells was demonstrated to increase Hsp70 translocation to the surface membrane, enhancing immunogenic effects through the stimulation of dendritic cells. As hyperthermia is proposed as a method of choice for anti‐cancer therapy, we examined whether apoptosis induction by heat shock enhances Hsp70 membrane translocation in U‐937 leukaemia cells. Cells were exposed to sub‐lethal heat shock, and intracellular and membrane‐bound Hsp70 expression was evaluated in apoptotic and viable cell sub‐populations, employing flow cytometry and immunofluorescence. Heat shock induced Hsp70 membrane translocation in the viable cells that were able to enhance Hsp70 production upon heating, but not in the cells undergoing apoptosis that continued to express low basal levels of the intracellular protein. Data suggest that the protein translocation was associated with the increasing Hsp70 content rather than the apoptotic process. Apoptosis does not contribute to externalization of Hsp70, at least in the cells with low levels of this protein.     

Enhanced susceptibility to cytotoxic T lymphocytes without increase of MHC class I antigen expression after conditional overexpression of heat shock protein 70 in target cells

Antigenic peptides have been found associated with heat shock proteins (HSP) including cytoplasmic HSP70 and heat shock cognate protein 70 as well as the endoplasmic reticulum-resident glucose-regulated protein 94. Recently, HSP70 transfection has been reported to increase MHC class I cell surface expression and antigen presentation on mouse melanoma B16 cells (Wells et al., Int. Immunol. 1998. 10: 609). To analyze the effect of HSP70 on MHC class I cell surface expression and lysability of target cells we transfected a human melanoma cell line with the rat Hsp70-1 gene using the Tet-On system for conditional overexpression of HSP70. Induction of HSP70 did not increase cell surface expression of HLA class I molecules in general or individual HLA-A and B antigens in particular. Nonetheless, induction of HSP70 enhanced susceptibility of these cells to lysis by allospecific CTL. The same effect was observed using an HLA-A2-restricted tyrosinase-specific CTL clone after pulsing the tyrosinase-negative target cells with the specific peptide. Thus, HSP70 induction can increase killing by CTL without affecting MHC class I cell surface expression or antigen processing. This effect of HSP70 appears to be different from the commonly found protection exerted by HSP70 against stress like heat shock, and might be mediated by improving CTL-induced apoptosis.     

Erythroid lineage-specific expression and inducibility of the major heat shock protein HSP70 during avian embryogenesis

We have studied the expression of the major heat shock protein HSP70 during maturation of avian erythroid cells. Primitive and definitive erythroid cells were isolated from staged day 3-8 chicken embryos, and the levels of HSP70 mRNA and protein synthesis were examined. The highest levels of HSP70 are detected in polychromatic cells of the day 3-4 primitive erythroid cell. After the initial burst of HSP70 expression the levels of HSP70 mRNA and protein synthesis decline. Although HSP70 is constitutively expressed, neither HSP70 synthesis nor HSP70 mRNA levels were heat shock inducible in primitive red cells. In contrast, definitive red cells respond to heat shock by a 10- to 20-fold increase in HSP70 protein synthesis with little change in HSP70 mRNA levels. These studies reveal that HSP70 expression in erythroid cells is lineage specific, that the levels of HSP70 mRNA are not induced by heat shock, and finally, that the increased expression of HSP70 in definitive cells is due to increased translatability of HSP70 mRNA.     

Serum heat shock protein 70 level as a biomarker of exceptional longevity

Heat shock proteins are highly conserved proteins that, when produced intracellularly, protect stress exposed cells. In contrast, extracellular heat shock protein 70 (Hsp70) has been shown to have both protective and deleterious effects. In this study, we assessed heat shock protein 70 for its potential role in human longevity. Because of the importance of HSP to disease processes, cellular protection, and inflammation, we hypothesized that: (1) Hsp70 levels in centenarians and centenarian offspring are different from controls and (2) alleles in genes associated with Hsp70 explain these differences. In this cross-sectional study, we assessed serum Hsp70 levels from participants enrolled in either the New England Centenarian Study (NECS) or the Longevity Genes Project (LGP): 87 centenarians (from LGP), 93 centenarian offspring (from NECS), and 126 controls (43 from NECS, 83 from LGP). We also examined genotypic and allelic frequencies of polymorphisms in HSP70-A1A and HSP70-A1B in 347 centenarians (266 from the NECS, 81 from the LGP), 260 NECS centenarian offspring, and 238 controls (NECS: 53 spousal controls and 106 septuagenarian offspring controls; LGP: 79 spousal controls). The adjusted mean serum Hsp70 levels (ng/mL) for the NECS centenarian offspring, LGP centenarians, LGP spousal controls, and NECS controls were 1.05, 1.13, 3.07, 6.93, respectively, suggesting that a low serum Hsp70 level is associated with longevity; however, no genetic associations were found with two SNPs within two hsp70 genes.     

Phagocytosis of Staphylococcus aureus induces a selective stress response in human monocytes-macrophages (M phi): modulation by M phi differentiation and by iron.

Phagocytosis of microorganisms represents a stress not only for the phagocytosed agent but also for the host cell. We have investigated the stress response induced in human monocytes-macrophages (M phi) phagocytosing inactivated Staphylococcus aureus. Exposure of human M phi to S. aureus induced in these cells (i) a threefold increase in superoxide dismutase activity, (ii) a selective and differentiation-dependent induction of host heat shock protein synthesis (HSP70 but not HSP65), and (iii) de novo synthesis of heme oxygenase, but only when exogenous iron was added to the cultures. The coordinate upregulation of two scavenging enzymes and of HSP70 suggests that all three are part of cellular protective mechanisms against phagocytosis-related oxidative injury to host cells.     

HSP70对大鼠肝脏局部缺血再灌注后炎症反应的影响

目的：通过热应激预处理诱导HSP70表达，探讨其对肝脏缺血再灌注损伤后炎症反应的影响。方法:采用大鼠局部缺血再灌注模型（IR组），并在热应激预处理（H+IR组）及槲皮素＋热应激预处理（Q+H+IR组）条件下观察肝脏缺血再灌注后HSP70、ICAM-1的表达及MPO的活性；测定血清ALT和AST的活性；电镜观察肝细胞结构的改变。结果:在H+IR组检测的各时点HSP70表达均明显高于其它两组、对肝脏进行缺血再灌注后，肝细胞损伤较轻，血清ALT、AST升高不明显(P<0.01)；肝组织中ICAM-1表达增加，以再灌注后6 h最显著，MPO活性升高以12 h最为显著，但两者变化均低于IR组和Q+H+IR组(P<0.01)。结论：〖HTSS〗热应激预处理诱导产生HSP70蛋白能够降低大鼠肝脏缺血再灌注损伤过程ICAM-1的表达和MPO活性的改变，进而抑制炎症反应引起的肝脏损伤。     

Immunocytochemical detection of the 70-kd heat shock protein in alcoholic liver disease.

Exposure of cells to physical (eg, heat) or chemical (eg, alcohol) stress results in increased synthesis of a set of highly conserved polypeptides termed heat shock proteins (HSPs), among which the 70-kd protein (HSP 70) is one of the most consistently inducible and highly conserved. This HSP has adenosine triphosphate-binding properties and is known to associate strongly with cytoskeletal structures that are usually disrupted on injury by heat or alcohol. Some HSPs apparently function as accessories to a nonlysosomal, adenosine triphosphate-dependent proteolytic system that binds and digests away stress-generated abnormal or denatured proteins after their conjugation with ubiquitin, a small HSP. Ubiquitin has been demonstrated immunocytochemically in Mallory bodies, which represent mainly degenerated intermediate filaments accumulated in hepatocytes of alcoholic-diseased liver. We immunostained histologic sections from patients with alcoholic liver disease using a polyclonal antibody raised against HSP 70. Strong diffuse cytoplasmic immunoreactivity was observed in many hepatocytes, including cells without Mallory bodies or fatty degeneration. Positive immunoreactivity for HSP 70 points to a possible involvement of this HSP in the pathogenesis of alcoholic liver disease. It also suggests that immunocytochemical detection of HSP 70 may serve as a more sensitive indicator of hepatocellular injury.     

Heat shock protein 70 and ATP as partners in cell homeostasis (Review).

Heat shock proteins (HSP) are molecular chaperones, involved in many cellular functions such as protein folding, transport, maturation and degradation. Since they control the quality of newly synthesized proteins, HSP take part in cellular homeostasis. The Hsp70 family in particular exerts these functions in an adenosine triphosphate (ATP)-dependent manner. ATP is the main energy source used by cells to assume fundamental functions (respiration, proliferation, differentiation, apoptosis). Therefore, ATP levels have to be adapted to the requirements of the cells and ATP generation must constantly compensate ATP consumption. Nevertheless, under particular stress conditions, ATP levels decrease, threatening cell homeostasis and integrity. Cells have developed adaptive and protective mechanisms, among which Hsp70 synthesis and overexpression. In this review, we focus on the mechanisms which regulate Hsp70 expression under ATP depletion, using ischaemia as a paradigmatic model for ATP depletion in vivo, and analyze the molecular targets for Hsp70-mediated protection against ATP depletion. We also consider how these Hsp70-mediated protective effects could be applied in the therapeutical approaches of human diseases associated with cellular ATP depletion.     

Acute and severe hypobaric hypoxia-induced muscle oxidative stress in mice: the role of glutathione against oxidative damage

This study intended to analyze: (1) the effects of acute and severe hypoxia exposure on skeletal muscle oxidative stress and oxidative damage markers; (2) the protective role of the antioxidant glutathione against oxidative damage; and (3) the expression of heat shock protein 70 kDa (HSP70) induced by this hypoxic insult. Forty mice were divided into four groups: control + placebo (C+P), hypoxia + placebo (H+P), control + l-buthionine-[S,R]-sulfoximine (BSO, a GSH-depleting compound) (C+BSO) and hypoxia + BSO (H+BSO). Hypoxia groups were continuously exposed for 24 h to a hypobaric hypoxic environment equivalent to an altitude of 7000 m and sacrificed immediately after. Control groups were maintained at sea level during the experimental protocol. Analyzed biochemical parameters were: reduced (GSH) and oxidized (GSSG) glutathione, thiobarbituric acid reactive substances (TBARS), sulfhydryl protein groups (SH), N-acetyl--d-glucosaminidase (NAG) and HSP70 protein. Hypoxia (H+P) per se, compared to C+P, induced a significant increase in %GSSG (5.68 vs. 1.14%), TBARS (436.7 vs. 227.9 nM), NAG (4.49 vs. 3.35 U/mg) and HSP70 (178.7 vs. 100%). Compared with H+P, H+BSO showed a significant decrease in total glutathione (19.30 vs. 6.13 nmol/mg) and an additional increase in %GSSG (5.68 vs. 11.33%) and in HSP70 expression (178.7 vs. 202.2%). However, no further oxidative damage was observed in H+BSO. These data suggest that acute hypoxia per se might enhance oxidative stress; however, the glutathione system seems to have a modest role in skeletal muscle protection against hypoxia-induced oxidative stress. Moreover, hypoxia and BSO treatment is a sufficient stimulus to promote HSP70 overexpression.     

热休克蛋白40和热休克蛋白70抑制N2a细胞内突变亨廷顿蛋白聚积和毒性

目的 研究热休克蛋白40(HSP40)和热休克蛋白70(HSP70)对N2a细胞内突变亨廷顿蛋白(htt) 聚集物形成和毒性的影响. 方法 应用荧光显微镜术和免疫印迹技术检测单独或共同过表达HSP40和HSP70对N2a细胞内转染的突变htt(含有150个谷氨酰胺重复数,150Q)聚集物形成的影响;应用四甲基偶氮唑盐(MTT)法分析细胞活力和比色法检测细胞内活性氧(ROS)含量. 结果 单独过表达HSP40或HSP70,尤其是共同过表达HSP40和HSP70显著减少150Q htt在N2a细胞内的聚积,各组含有聚集物的细胞为(n=1 000):仅表达150Q htt 组约50%,过表达HSP40组约12%,过表达HSP70组约15%,共同过表达HSP40和HSP70组约5%.MTT分析结果显示,单独尤其是共同过表达HSP40和HSP70能显著增加150Q细胞的活力( P<0.01, n =3),同时减少ROS产生( P<0.01, n =3). 结论 HSP40和HSP70通过抑制细胞内突变htt聚积以及减少氧化应激而增加150Q N2a细胞活力.     

An important role of the heat shock response in infected cells for replication of baculoviruses

Baculoviruses serve as a stress factor that can activate both death-inducing and cytoprotective pathways in infected cells. In this report, induction of heat shock proteins (HSPs) of the 70-kDa family (HSP/HSC70) in Sf-9 cells after infection with AcMNPV was monitored by Western blot analysis. Two-dimensional electrophoresis in polyacrylamide gel revealed changes in the cellular pattern of HSP/HSC70s and synthesis of a new member of the HSP/HSC70 family in the infected cells. Although infection with AcMNPV moderately increased the HSP/HSC70 content in cells under standard conditions, the infection potentiated the response to heat shock boosting the HSP/HSC70s content in infected cells several-fold in comparison with uninfected cells. Addition of KNK437, a known inhibitor of inducible HSPs, decreased the rate of viral DNA synthesis in infected cells more than one order of magnitude and markedly suppressed the release of budded viruses indicating the importance of the heat shock response for baculovirus replication.