Heat shock protein 70 expression induces antitumor immunity during intracellular hyperthermia using magnetite nanoparticles

In this study we demonstrated that heat shock protein (HSP) 70 expression by hyperthermia induced antitumor immunity in the T-9 rat glioma. Our hyperthermic system using magnetic nanoparticles induced necrotic cell death that correlated with HSP70 expression. We purified the HSP70-peptide complexes from the tumor after hyperthermia to investigate whether HSP70 was involved in the antitumor immunity, and we found that in the F344 rats immunized with T-9-derived HSP70 the tumor growth of T-9 was significantly suppressed. Tumor rejection assay after hyperthermic treatment of implanted T-9 cells with incorporated magnetite cationic liposomes (MCL) was performed to investigate whether antitumor immunity was induced by release of HSP70 from the necrotic cells in the F344 rat. Tumor growth was strongly suppressed in the rats subjected to hyperthermia of implanted T-9 cells, and 50% of rats were protected from challenge with T-9 cells. Immunogenicity was enhanced when the HSP70-overexpressing T-9 cells were killed via necrosis in rats by hyperthermia, after which all rats were completely protected from challenge with T-9 cells. Our hyperthermic system produces vaccination with HSP70-peptide via necrotic tumor cell death in vivo, resulting in antitumor immunity. This phenomenon, which may be termed in situ vaccination, has important implications for the development of novel antitumor therapies.     

Expression of the RT1A molecule of the class I major histocompatibility complex in a walker 256 tumor after transplantation into brattleboro rats with a genetic defect of arginine-vasopressin synthesis

The dynamics of expression of the RT1A antigen of the class I major histocompatibility complex (MHC) in a Walker 256 tumor after its transplantation into Brattleboro rats with a genetic defect of arginine-vasopressin synthesis in the hypothalamus was studied. Expression of the RT1A antigen was detected by means of Western-blotting and flow cytometry in the tumor cells on the 14th–17th days after transplantation. In addition, a simultaneous increase in the portion of cells that express the RT1A antigen and in the level of its expression per cell was observed. It is presupposed that at a deficiency of arginine-vasopressin, a renewal of expression of the class I MHC antigens, which results in an increase of immunogenicity of this tumor and regression, occurs in the Walker 256 tumor in the Brattleboro rats.     

Cutting edge: receptor-mediated endocytosis of heat shock proteins by professional antigen-presenting cells

Immunization with heat shock proteins (HSPs) induces Ag-specific CTL responses. The specificity of the immune response is based on peptides associated with HSPs. To investigate how exogenous HSP/peptide complexes gain access to the MHC class I-restricted Ag presentation pathway, we incubated the monocytic cell line P388D1 and the dendritic cell line D2SC/1 with gold-labeled HSPs gp96 and HSC70. We show that HSPs bind specifically to the surface of these APCs and are internalized spontaneously by receptor-mediated endocytosis, demonstrating the existence of specific receptors for HSPs on these cells. In addition, we observe colocalization of internalized HSPs and surface MHC class I molecules in early and late endosomal structures. These findings provide possible explanations for the immunogenicity of HSP/peptide complexes and for the transfer of HSP-associated peptides onto MHC class I molecules.     

Age-related nephropathy in the Fischer 344 rat is associated with overexpression of collagens and collagen-binding heat shock protein 47

To explore the possible role of heat shock protein (HSP) 47 in the age-related renal changes in Fischer 344 (F 344) rats, the expression of collagen-binding HSP47 with various proteins implicated in phenotypic modulation (α-smooth muscle actin, desmin, and vimentin) and fibrosis (type I, type III, and type IV collagens) was examined in young and old F 344 rat kidneys. Male F 344 rats often develop spontaneous nephropathy in old age. Kidneys obtained from 24-month-old F 344 rats showed glomerulosclerosis with marked tubulointerstitial damage including interstitial fibrosis, while no significant histological alteration was found in the kidneys of 6-month-old rats. Immunohistochemical analysis showed an increased accumulation of type I, type III, and type IV collagens in areas of glomerulosclerosis and interstitial fibrosis in old rat kidneys. In kidneys of young rats, collagen-binding HSP47 expression was weak in the glomeruli and occasionally seen in the interstitial cells. In contrast, strong immunostaining for HSP47 was noted in the glomeruli, tubular epithelial cells, and interstitial cells in kidneys of old rats. In addition, phenotypic alterations of mesangial cells and interstitial cells (immunopositive for α-smooth muscle actin), glomerular epithelial cells (immunopositive for desmin), and tubular epithelial cells (immunopositive for vimentin) were found in the kidneys of old F 344 rats. Double immunostaining showed that all these phenotypically altered renal cells express HSP47 and that increased expression of HSP47 was always associated with increased expression of collagens in the old rat kidneys. From the above observations, it is concluded that overexpression of HSP47 by phenotypically altered renal cells might play an important role in the excessive assembly of collagens and could thereby contribute to the glomerulosclerosis and interstitial fibrosis found in kidneys of aged F 344 rats.     

Whole-body hyperthermia induces up-regulation of vascular endothelial growth factor accompanied by neovascularization in cardiac tissue

Whole-body hyperthermia (WBH) promotes cardiac protection against ischemia/reperfusion injury, in part by up-regulation of heat shock proteins (HSP). Whether heat stress also promotes up-regulation of angiogenic factors or induces endothelial cell proliferation is unknown. We studied the effects of heat stress on up-regulation of vascular endothelial growth factor (VEGF) and growth of new blood vessels following WBH. Anesthetized rats were subjected to WBH at 42 degrees C for 15 min. The control (n=23) and heated (n=55) groups were allowed to recover for 4, 12, 24, 48, or 72 h prior to harvesting the heart for Western Blot and immunohistochemical assessment of VEGF, HSP70, and platelet endothelial cell adhesion molecular-1 (PECAM-1). A significant increase in VEGF and HSP70 expression was observed as early as 4 h post-heating. The Western Blot analysis revealed a close temporal correlation between up-regulation of HSP70 and VEGF. Maximum VEGF and HSP70 expression occurred at 12 and 24 h post-heating in the left and right ventricles, respectively. The right ventricle showed the greatest expression of both VEGF and HSP70. Immunostaining revealed that VEGF was focally increased in the endothelial cells of capillaries, small arteries, and in interstitium. At 48 and 72 h post-heating, multiple areas of extensive capillary proliferation occurred in the epicardial region of the right ventricle. These observations were verified by quantitative analysis of the density of blood vessels as determined by PECAM-1 staining. Our experiments show that sublethal heat stress can lead to upregulation of both VEGF and HSP70 in cardiac tissue and promote focal endothelial proliferation in the heart.     

HSP70 高表达保护低氧诱导的大鼠海马DG 区神经细胞凋亡

目的:研究诱导HSP70高表达对低氧引起的大鼠海马DG区神经细胞凋亡的保护作用。方法:大鼠海马DG区神经细胞分别在41℃温浴2h和加入砷酸钠诱导HSP70高表达。对照低氧而不预热,并用HSP70反义寡核苷酸链抑制HSP70合成,观察HSP70与低氧大鼠海马DG区神经细胞凋亡的关系。DNA碎片法检测细胞凋亡,Western Blotting检测HSP70。结果:预热和砷酸钠都可以诱导细胞HSP70高表达;HSP70高表达可以明显减少低氧诱导的细胞凋亡。在预热前导入HSP70反义核酸,可以降低HSP70抑制细胞凋亡的作用。结论:HSP70高表达可以保护细胞由于低氧引起的细胞凋亡。     

Combined immunization with fusion genes of mutated E7 gene of human papillomavirus type 16 did not enhance antitumor effect

BACKGROUND: The E7 oncoprotein of human papillomavirus type 16 (HPV16) is frequently used as a model tumor-associated antigen. Its immunogenicity has been substantially enhanced by fusion with several proteins of various origins and functions. Different mechanisms have been responsible for increased vaccination efficacy of fusion proteins. METHODS AND RESULTS: We linked E7 and its mutated form (E7GGG) with the mouse heat-shock protein 70.1 (HSP70.1). Enhanced immunogenicity of both fusion genes administered via a gene gun was demonstrated by protection of C57BL/6 mice against oncogenic MHC class I positive TC-1 cells producing the HPV16 E7 oncoprotein but not against the MHC class I negative TC-1/A9 subline. To assess if the efficacy of E7-based DNA vaccines could be increased by combination of various fusion genes, we combined the HSP70.1 fusion genes (i.e. E7HSP or E7GGGHSP) with the fusion construct linking E7GGG with targeting signals of lysosome-associated membrane protein 1 (Sig/E7GGG/LAMP-1). Treatment of mice 4 days after TC-1 cell inoculation showed moderately higher immunization potency of HSP70.1 fusion genes in comparison with the Sig/E7GGG/LAMP-1 gene. Any combination of two fusion genes given in the same gene gun shot neither was more effective compared with single genes nor protected mice against TC-1/A9 cells. As fusion of E7GGG with E. coli glucuronidase (E7GGG.GUS) had been previously proven to provide partial protection from TC-1/A9-induced tumors, we also combined E7GGGHSP with E7GGG.GUS. The genes were inoculated either in mix in two gene gun shots or separately each gene in one shot into opposite sides of the abdomen. Neither mode of combined immunization induced higher protection than E7GGG.GUS alone. However, doubling the DNA dose considerably enhanced the antitumor efficacy of E7GGG.GUS. CONCLUSIONS: We constructed highly immunogenic fusions of HPV16 E7 and E7GGG with mouse HSP70.1. Furthermore, we substantially enhanced protection against TC-1/A9 cells with downregulated MHC class I expression by doubling the pBSC/E7GGG.GUS dose, but we failed to demonstrate a beneficial effect of any combination of two fusion genes with different mechanisms causing enhancement of HPV16 E7 immunogenicity.     

The heat shock protein HSP70 promotes mouse NK cell activity against tumors that express inducible NKG2D ligands

The stress-inducible heat shock protein (HSP) 70 is known to function as an endogenous danger signal that can increase the immunogenicity of tumors and induce CTL responses. We show in this study that HSP70 also activates mouse NK cells that recognize stress-inducible NKG2D ligands on tumor cells. Tumor size and the rate of metastases derived from HSP70-overexpressing human melanoma cells were found to be reduced in T and B cell-deficient SCID mice, but not in SCID/beige mice that lack additionally functional NK cells. In the SCID mice with HSP70-overexpressing tumors, NK cells were activated so that they killed ex vivo tumor cells that expressed NKG2D ligands. In the tumors, the MHC class I chain-related (MIC) A and B molecules were found to be expressed. Interestingly, a counter selection was observed against the expression of MICA/B in HSP70-overexpressing tumors compared with control tumors in SCID, but not in SCID/beige mice, suggesting a functional relevance of MICA/B expression. The melanoma cells were found to release exosomes. HSP70-positive exosomes from the HSP70-overexpressing cells, in contrast to HSP70-negative exosomes from the control cells, were able to activate mouse NK cells in vitro to kill YAC-1 cells, which express NKG2D ligands constitutively, or the human melanoma cells, in which MICA/B expression was induced. Thus, HSP70 and inducible NKG2D ligands synergistically promote the activation of mouse NK cells resulting in a reduced tumor growth and suppression of metastatic disease.     

热休克蛋白-多肽复合物在肿瘤和传染性疾病免疫中的作用

热休克蛋白家族中的许多成员如gp96\,HSP90\,HSP70等具有排斥和治疗肿瘤及传染性疾病的免疫原性,进一步研究发现热休克蛋白作为分子伴侣可结合细胞中的肽库,它本身没有抗原性,抗原性由结合的短肽所决定。热休克蛋白将结合的短肽呈递给I类MHC分子,进而激活特异性CTL和记忆性T细胞,引发机体细胞免疫反应。据最新发现gp96还可能有与MHC一样的功能,可直接将结合的多肽抗原呈递给T细胞。近年来对哺乳动物的二种主要热休克蛋白gp96和HSP70的免疫机制和作为治疗性疫苗的优越性进行了详细研究,这为乙型肝炎和乙肝继发性肝癌的免疫治疗提供了新思路。     

Establishment of cell lines from somite stage mouse embryos and expression of major histocompatibility class I genes in these cells

To study the regulation of MHC class I gene expression during embryonic development, we have characterized a number of clonal cell lines derived from somite stage mouse embryos that were established with or without infection by several transforming retroviruses in combination with murine leukemia viruses. Unlike embryonal carcinoma (EC) cells that have been used as a model for early embryos, the cell lines derived from somite stage embryos are negative for stage specific embryonic Ag-1 and do not appear to differentiate after retinoic acid treatment. Morphology varies from clone to clone and is distinct from that of F9 and other EC cells. In agreement with previous findings in in vivo embryos, expression of surface MHC class I antigen in 57 new clones is either undetectable or low (with variability). All of the clones respond to the addition of interferons and express MHC class I antigens at high levels, but the kinetics of mRNA accumulation vary considerably. To examine the basis of the generally low or absent MHC class I gene expression in these cells, we tested promoter activity of a MHC class I gene by CAT assay after transient DNA transfection. Regardless of the basal levels of mRNA or surface Ag, CAT activity directed by various portions of the 5' flanking region of the MHC class I gene was uniformly low. The cells showed neither the negative nor the positive regulation of MHC class I genes that had been noted respectively for EC cells and for cells expressing the Ag constitutively. The pattern seen in the new cell lines suggests that there is an intermediate stage in the developmental regulation of MHC class I gene expression that may operate during the middle to late stage of fetal development.     

HSP70 kinetics study by continuous observation of HSP-GFP fusion protein expression on a perfusion heating stage

The direct correlation between levels of heat shock protein expression and efficiency of its tissue protection function motivates this study of how thermal doses can be used for an optimal stress protocol design. Heat shock protein 70 (HSP70) expression kinetics were visualized continuously in cultured bovine aortic endothelial cells (BAECs) on a microscope heating stage using green fluorescent protein (GFP) as a reporter. BAECs were transfected with a DNA vector, HSP(p)-HSP70-GFP which expresses an HSP70-GFP fusion protein under control of the HSP70 promoter. Expression levels were validated by western blot analysis. Transfected cells were heated on a controlled temperature microscope stage at 42 degrees C for a defined period, then shifted to 37 degrees C for varied post-heating times. The expression of HSP70-GFP and its sub-cellular localization were visualized via fluorescence microscopy. The progressive expression kinetics were measured by quantitative analysis of serial fluorescence images captured during heating protocols from 1 to 2 h and post-heating times from 0 to 20 h. The results show two sequential peaks in HSP70 expression at approximately 3 and 12 h post-heat shock. A progressive translocation of HSP70 from the cytoplasm to the nucleus was observed from 6 to 16 h. We conclude that we have successfully combined molecular cloning and optical imaging to study HSP70 expression kinetics. The kinetic profile for HSP70-GFP fusion protein is consistent with the endogenous HSP70. Furthermore, information on dynamic intracellular translocation of HSP70 was extracted from the same experimental data.     

Development of acute thermotolerance in L929 cells: lack of HSP28 synthesis and phosphorylation.

We investigated the correlation between the development of acute thermotolerance and the phosphorylation, synthesis, and expression of the HSP28 family in murine L929 cells. Following heating at 43 degrees C for 30 min, thermotolerance developed rapidly in exponential-phase cells and reached its maximum 4-9 h after heat shock. Maximal thermal resistance was maintained for 24 h and then gradually decayed. However, heat-induced phosphorylation of HSP28 was not detected. Furthermore, HSP28 synthesis during incubation at 37 degrees C for 12 h following heat shock was not detected by [3H]-leucine labeling followed by two-dimensional polyacrylamide gel electrophoresis. In addition, Northern blots failed to demonstrate expression of the HSP28 gene. Unlike HSP28, the expression of constitutive and inducible HSP70 genes, along with the synthesis of their proteins, was observed during incubation at 37 degrees C after heat shock. These results demonstrate that HSP28 synthesis and its phosphorylation are not required to develop acute thermotolerance in L929 cells.     

Targeting split vaccines to the endosome improves vaccination

Compared to 'live' vaccines, the immunogenicity of 'split' vaccines based on recombinant antigen (Ag) is poor, presumably because exogeneous recombinant Ag fails to efficiently access the major histocompatibility complex (MHC) class I processing pathway needed for 'cross-presentation'. Here we discuss recent evidence that targeting ligands of the Toll-like receptor 9 together with proteinaceous Ag to the endosome of dendritic cells conveys immunogenicity to Ag similar in magnitude to 'live' vaccines that produce Ag. Enforced endocytosis of Ag together with the adjuvant effect of Toll-like receptor 9 ligands might be key for the efficient cross-presentation of exogeneous Ag as well as for effective cross-priming of MHC class I restricted CD8 T effector cells.     

Epigenetic Mechanisms Regulate MHC and Antigen Processing Molecules in Human Embryonic and Induced Pluripotent Stem Cells

Background

Human embryonic stem cells (hESCs) are an attractive resource for new therapeutic approaches that involve tissue regeneration. hESCs have exhibited low immunogenicity due to low levels of Mayor Histocompatibility Complex (MHC) class-I and absence of MHC class-II expression. Nevertheless, the mechanisms regulating MHC expression in hESCs had not been explored.

Methodology/Principal Findings

We analyzed the expression levels of classical and non-classical MHC class-I, MHC class-II molecules, antigen-processing machinery (APM) components and NKG2D ligands (NKG2D-L) in hESCs, induced pluripotent stem cells (iPSCs) and NTera2 (NT2) teratocarcinoma cell line. Epigenetic mechanisms involved in the regulation of these genes were investigated by bisulfite sequencing and chromatin immunoprecipitation (ChIP) assays. We showed that low levels of MHC class-I molecules were associated with absent or reduced expression of the transporter associated with antigen processing 1 (TAP-1) and tapasin (TPN) components in hESCs and iPSCs, which are involved in the transport and load of peptides. Furthermore, lack of β2-microglobulin (β2m) light chain in these cells limited the expression of MHC class I trimeric molecule on the cell surface. NKG2D ligands (MICA, MICB) were observed in all pluripotent stem cells lines. Epigenetic analysis showed that H3K9me3 repressed the TPN gene in undifferentiated cells whilst HLA-B and β2m acquired the H3K4me3 modification during the differentiation to embryoid bodies (EBs). Absence of HLA-DR and HLA-G expression was regulated by DNA methylation.

Conclusions/Significance

Our data provide fundamental evidence for the epigenetic control of MHC in hESCs and iPSCs. Reduced MHC class I and class II expression in hESCs and iPSCs can limit their recognition by the immune response against these cells. The knowledge of these mechanisms will further allow the development of strategies to induce tolerance and improve stem cell allograft acceptance.     

The role of endogenous opioids in the protective effects of local sublethal hyperthermia against the progression of burn injury

The aim of the present study was to evaluate the role of endogenous opioids in local sublethal hyperthermia-induced protection against burn injury.Second-degree burn wounds were induced on the back of Balb/c mice. Progression of burn injury and expression of heat shock protein (HSP)-70 were evaluated after 24 h.Both inhibition of HSP synthesis and blocking opioid receptors before applying local sublethal hyperthermia decreased the protective effects of sublethal hyperthermia against the progression of burn injury. Blocking opioid receptors attenuated induction of HSP-70 by sublethal hyperthermia.     

Heated tumour cells of autologous and allogeneic origin elicit anti-tumour immunity

Vaccination with established tumour cell lines may circumvent the problem of obtaining autologous tumour cells from patients, but may also need immunological adjuvants. Up-regulation of heat shock proteins within tumour cell vaccines has resulted in increased immunogenicity in some models, but this has yet to be demonstrated for allogeneic (MHC-disparate) cell vaccines. This was investigated here using a rat model for prostate tumour cell vaccination. Heating of tumour cells (42°C, 1 h) elicited significant increases in HSP70 expression. Vaccination with heated autologous PAIII cells elicited protection against PAIII challenge in 60% of rats >50 days compared to 0% with unheated vaccine and was associated with an increased Th1 (IFN) immune response. Heated allogeneic MLL cells elicited significant protection against PAIII challenge, in contrast to unheated cells. The principle was confirmed in two mouse models, although the allogeneic melanoma vaccine K1735 elicited the best protection when heated and administered mixed with autologous dendritic cells. Thus, while heating of vaccine cells in some models is highly beneficial, and is a means of enhancing immunogenicity without genetic modification or inclusion of potentially toxic adjuvants, additional immune enhancement may be required.     

Inhibition of heat shock protein synthesis and protein glycosylation by stepdown heating

Mammalian cells exhibit increased sensitivity to hyperthermic temperatures of 38-43 degrees C after an acute high-temperature heat shock; this phenomenon is known as the stepdown heating (SDH) effect. We characterized the SDH effect on (1) the synthesis of major heat shock proteins, HSP110, 90, 72/70, 60 (35S-amino acids label), (2) on heat-induced protein glycosylation (3H-D-mannose label), and (3) on thermotolerance expression, using cell survival as an endpoint. Partitioning of label between soluble and insoluble cell fractions was separately examined. Synthesis of high molecular weight HSPs (HSP110, 90, and 72/70) was increased both by acute (10 min, 45 degrees C) and chronic (1-6 h, 41.5 degrees C) hyperthermia, primarily in the soluble cytosol fraction. SDH (10 min, 45 degrees C + 1 to 6 h, 41.5 degrees C) completely inhibited labeling of HSP110, partially inhibited HSP90 labeling, and had virtually no effect on HSP72/70 synthesis, when compared with chronic hyperthermia alone. At the cell survival level, SDH increased sevenfold the rate of cell killing at 41.5 degrees C, but reduced the expression of thermotolerance by only a factor of two. This suggests that SDH sensitization did not result from changes in HSP72/70 synthesis, nor solely from inhibition of thermotolerance. 35S-labeled HSP60 and HSP50 were found primarily in the cellular pellet fraction after both acute and chronic hyperthermia. SDH completely inhibited 35S-labeling of both HSP60 and HSP50. Labeling of GP50 with 3H-D-mannose was also completely inhibited by SDH. Moreover, SDH progressively reduced N-acetylgalactosaminyl-transferase activity. The data demonstrate that heat sensitization by SDH is accompanied by complex and selectively inhibitory patterns of HSP synthesis and protein glycosylation. Profound inhibition of HSP110, HSP60, and HSP50/GP50 labeling suggests that these may be associated with mechanisms of SDH sensitization.     

Identification of HLA-A∗02:01-restricted CTL epitopes in Trypanosoma cruzi heat shock protein-70 recognized by Chagas disease patients

CD8(+) cytotoxic T lymphocyte (CTL) response is critical for controlling the infection of the protozoan parasite Trypanosoma cruzi, the causative agent of Chagas disease. Since only a few CD8 antigens have been described in Chagas disease patients, the identification of new class I-restricted epitopes is urgently needed for the development of immunotherapies against T. cruzi infection. In this study, bioinformatic methods were used to predict HLA-A?02:01-binders, and 30 peptides were selected, synthesized and tested for HLA-A?02:01 binding. Among them, sixteen peptides with medium-to-high affinity were assayed for their recognition by CTL from HSP70-immunized or T. cruzi-infected transgenic B6-A2/K(b) mice. Our results show that four immunodominant epitopes (HSP70(210-8), HSP70(255-63), HSP70(316-24) and HSP70(345-53)) are contained in the T. cruzi HSP70 antigen. Indeed two of them (HSP70(210-8) and HSP70(316-24)) were also recognized by CTL of HLA-A?02:01(+) Chagas disease patients, indicating that these peptides are processed and displayed as MHC class I epitopes during the natural history of T. cruzi infection. The HLA-A?02:01 restriction was evidenced using peptide-pulsed K562-A2 cells as antigen-presenting cells. Both cytotoxic and cytokine-secreting activities were detected in response to the former two peptides and, moreover, 10/12 patients (83%) recognized at least one of these two HSP70-derived CD8(+) epitopes.