Heat shock protein expression in canine osteosarcoma

Abnormal levels of heat shock proteins have been observed in a number of human neoplasms and demonstrate prognostic, predictive and therapeutic implications. Since osteosarcoma (OSA) in dogs provides an important model for the same disease in humans, the aim of this study was to evaluate the immunohistochemical expression of Hsp27, Hsp72, Hsp73 and Hsp90 in 18 samples of canine appendicular OSA, in relation to histological grade and overall survival (OS), in order to investigate their potential prognostic, predictive and/or therapeutic value. A semiquantitative method was used for the analysis of the results. Hsp27, Hsp73 and Hsp90 showed a variably intense, cytoplasmic and nuclear immunoreactivity that was not associated with histological type or grade. On the other hand, a high percentage of Hsp72 immunostaining was significantly associated with grade III (P < 0.01) and a lack of immunolabelling was significantly correlated to a longer OS (P = 0.006). Neoplastic emboli were occasionally positive for Hsp27, faintly immunoreactive for Hsp72 and intensely immunolabelled by Hsp73 and Hsp90. In conclusion, absence of Hsp72 immunosignal appears to be associated with a favourable prognosis whilst the widespread Hsp90 immunoreactivity detected in all tumour cases as well as in neoplastic emboli, suggests this protein could be targeted in the therapy of canine OSA, and likewise in its human counterpart.     

Heat shock protein expression in fish

Heat shock proteins (HSP) are a family of proteins expressed in response to a wide range of biotic and abiotic stressors. They are thus also referred to as stress proteins. Their extraordinarily high degree of identity at the amino acid sequence level and the fact that this cellular stress response has been described in nearly all organisms studied, make this group of proteins unique. We provide a brief historical overview of HSP research, as a background to summarizing what is known about HSP expression in fish. The expression of HSPs in fish has been described in cell lines, primary cultures of various cells, and in the tissues of whole organisms. Collectively, the data show that the expression of HSPs are affected in a wide variety of fish cells and tissues, in response both to biological stressors such as infectious pathogens, as well as to abiotic stressors such as heat and cold shock, and environmental contaminants. HSP research in fish is in its early stages and many studies are describing the expression of proteins in response to various stressors. Several studies have contributed to our understanding of the molecular nature and the molecular biology of HSPs in fish. Recent studies have shown a relationship between HSP expression and the generalized stress response in fish, but further research is needed to clarify the complex relationships between stress hormones and the cellular HSP response. In general, the HSP response seems to be related to the sensing of the stressor and the subsequent cellular effects which may adapt the cells to cope with the stressors. Consequently, such data may be of central importance in understanding the significance of HSP expression to the whole organism. We conclude with sections on laboratory methods used in HSP research and on potential applications of this knowledge in biomonitoring.     

Two-dimensional crystallization of a small heat shock protein HSP16.3 on lipid layer

As a member of small heat shock proteins, HSP16.3 was identified as the major membrane-bound protein of Mycobacterium tuberculosis during stationary phase. Previous studies revealed that HSP16.3 was in a nonameric form in solution. Here, two-dimensional crystal of HSP16.3 molecules on lipid monolayer was obtained for the first time. The crystal exhibited p422 symmetry with lattice parameters a=b=90A, gamma=90 degrees. The projection map of untilted crystals showed that the basic unit of the crystal was a rod-like structure with two high-density regions. The three-dimensional map at 2.2 nm resolution revealed a rod-like structure with a dimension of 56A x 32A x 25A, similar to the dimeric forms of M. jannaschii HSP16.5 and wheat HSP16.9. Cross-linking experiments confirmed that HSP16.3 nonamers dissociated into dimers upon interaction with the positively charged lipid layer. Surface plasmon resonance measurements revealed that both electrostatic and hydrophobic forces involved in the formation of the 2D crystal on the lipid monolayer. These results provide a basis for further investigation on the unique dimeric structure of HSP16.3 and its functions in vivo.     

Heat shock protein responses in thermally stressed bay scallops, Argopecten irradians, and sea scallops, Placopecten magellanicus

The effects of thermal stress on the induction of heat shock proteins (HSPs) were examined in northern bay scallops, Argopecten irradians irradians, a relatively heat tolerant estuarine species, and sea scallops, Placopecten magellanicus, a species residing in cooler, deeper water. Polyclonal antibodies used in this work for analysis of inducible HSP70 and HSP40 only recognized proteins of 72 and 40 kDa respectively from the mantles of both scallop species. Additionally, HSP quantification using the antibody to HSP70 was equally effective by either immunoprobing of western blots or ELISA, demonstrating that either approach could be successfully employed for analysis of thermal response in scallops. Sea scallop HSP70 and HSP40 did not change when animals were heat-shocked for 3 h by raising the temperature from 10 °C to 20 °C; however, a 24 h treatment of the same magnitude elicited a significant response. Conversely, bay scallops displayed rapid and prolonged HSP70 and HSP40 responses during the recovery period following a 3 h heat shock from 20 °C to 30 °C. Temperature reduction from 20 °C to 3 °C for 3 h also caused significant HSP70 and HSP40 increases in bay scallops; this represents the first time cold shock was shown to induce HSP synthesis in bivalve mollusks. The onset of the HSP40 response was more rapid than for HSP70, occurring at the end of the cold shock itself prior to transfer to a recovery temperature. Both proteins responded maximally during recovery at control temperature. HSP responses of sea and bay scallops to thermal stress may be related to their habitat in the natural environment and they suggest a differential capacity for adaptation to temperature change. This is an important consideration in assessing the response of these scallops to different culture conditions.     

Tissue-specific expression of heat shock proteins of the mouse in the absence of stress

The steady-state levels of four members of the heat shock proteins families (HSP84, HSC73, HSP71, and HSP25) were examined by immunoblot analysis of several different tissues of young and adult mice in the absence of stress. These hsps were detected in all tissues but their level was variable. The levels of HSC73 and HSP84 varied only slightly between different tissues in either young or adult mice, with the exception of skin where these hsps were found in reduced amounts. In contrast, the stress-inducible member of the HSP70 family, HSP71, was found to be expressed in all tissues but in amounts which differed by as much as two orders of magnitude between tissues. In general, the levels of both HSP71 and HSP25 were found to be tissue dependent, with higher levels found in tissues such as stomach, intestine, colon and bladder, tissues which are exposed to toxic environmental or metabolic products, and which may concentrate these substances by water resorption and/or be exposed to them for longer periods. The levels of HSP71 and HSP25 were generally positively correlated both in young and adult mice although this correlation was not found in certain tissues such as kidney, testes, and bone. Tissues of young mice contained lower amounts of HSP25 and HSP71 than were found in the same tissues from adults. We conclude that hsps are expressed in all tissues of the mouse in the absence of stress and that some organs, particularly those exposed to potentially toxic metabolites, show a higher level of expression of HSP71 and HSP25. © 1993Wiley-Liss, Inc.     

Heat shock protein 72 associated with CD44v6 in human colonic adenocarcinoma

CD44v6 is a splice variant of CD44 (CD44v), probably promoting cancer cell adherence to vascular endothelium and base membranes and enhancing the invasion and metastasis of colonic carcinomas. Heat shock protein 72 (HSP72) as a molecular chaperone has been confirmed to be overexpressed in epithelial carcinoma cells. There may be a possible association between the expression of HSP72 and CD44v6 during the growth and progression of colonic carcinoma cells. The aim of the study was to investigate the interaction between heat shock protein 72 and CD44v6 in human colonic carcinomas. The localization of HSP72 and CD44v6 in human colonic carcinomas was determined by immunohistochemistry and confocal laser microscopy. The interaction between HSP72 and CD44v6 in colonic carcinoma cells was analyzed by immunoprecipitation and Western immunoblots. Our results revealed that colonic carcinoma synchronously co-expressed higher levels of HSP72 and CD44v6 than that in adjacent normal colonic tissues. HSP72 and CD44v6 were mainly immunolocalized in the cytoplasm, and also immunolabelled on the cell membrane. Based on immunoprecipitation and Western immunoblots, we found that HSP72 was associated with CD44v6 precursor fragments in human colonic carcinoma cells. The interaction between HSP72 and CD44v6 in human colonic carcinoma cells may contribute to study the pathogenesis and immunotherapy of colonic carcinoma.     

Heat shock proteins as an aid in the treatment and diagnosis of heat stroke

It is now well established that induction of heat shock protein 72 (HSP72) protects the cell or tissue against a second otherwise lethal exposure to heat, a phenomenon known as thermotolerance. Because of this protective role, HSP72 is potentially useful in the treatment of heat illnesses, which range from relatively benign disorders such as heat cramps to heat stroke, which can be life threatening. This review discusses various ways in which HSP72 might be used in the diagnosis and treatment of the heat illnesses. This includes methods to induce HSP72, analysis of HSP72 in the cells and tissues of heat stroke patients, and screening methods to detect individuals who may be heat intolerant.     

人肝癌细胞BEL-7402中热休克蛋白70相伴甲胎蛋白的实验研究

为研究人肝癌细胞BEL-7402中热休克蛋白70(HSP70)与甲胎蛋白(AFP)的相互作用,采用免疫化学和免疫荧光检测HSP70和AFP在肝癌细胞中的表达和定位.HSP70与AFP的相互关系通过免疫共沉淀和蛋白印迹杂交进行分析.结果免疫化学显示人肝癌细胞BEL-7402中存在高水平的HSP70和AFP共表达,均定位于细胞浆.AFP存在于HSP70单抗的免疫沉淀中,而HSP70则存在于AFP单抗的免疫沉淀中.结果表明人肝癌细胞BEL-7402中HSP70与AFP相伴.两者之间的相互关系研究将成为探讨肝癌的发生和免疫治疗的新途径.     

Transfection of human HSP27 in rodent cells: Absence of compensatory regulation between small heat shock proteins

1. 1. We examined rodent cells transfected with an expression plasmid encoding a human small heat shock protein for possible compensatory expression of endogenous heat shock genes. For these investigations, human hsp27 was transfected into CHO cells which express endogenous HSP25.

2. 2. Both endogenous HSP25 and transfected HSP27 were expressed and multiple phosphorylated isoforms were detected upon exposure to thermal stress.

3. 3. Levels of endogenous HSP70 and HSP25 did not appear to be altered by expression of the heterologous heat shock protein.

4. 4. These results suggest that compensatory interactions are not exhibited in the expression of the heat shock genes examined, and that independent regulation may exist not only between the large and small heat shock proteins, but also between individual small heat shock proteins as well.

     

Heat shock proteins HSP70 and GP96: structural insights

Several heat shock proteins (HSPs) act as potent adjuvants for eliciting anti-tumor immunity. HSP-based tumor vaccine strategies have been highly successful in animal models and are undergoing testing in clinical trials. It is generally accepted that HSPs, functioning as chaperones for tumor antigens, elicit tumor-specific adaptive immune responses. HSPs also appear to induce innate immune responses in an antigen-independent fashion. Innate responses generated by HSPs may contribute to anti-tumor immunity. Immunologically active chaperones with anti-tumor activity are referred to as “immunochaperones”. Here, we review the studies that address the role of structural domains or regions of the immunochaperones HSP70 and GP96 that may be involved in the induction of adaptive or innate immune responses. This article forms part of the Symposium in Writing “Thermal stress-related modulation of tumor cell physiology and immune responses”, edited by Elfriede Noessner.     

The heat shock proteins: Their roles as multi-component machines for protein folding

The roles played by heat shock proteins in fungi have been subjected to intense scrutiny. Presuming they only played roles in tolerance to stress gave way to the realization that many of them were essential for maintenance of cell physiology under all conditions. Recent progress has revealed their action as multi-component machines, playing roles in signalling and expansion of phenotypic plasticity, as well as their well-established function as molecular chaperones.     

Heat shock response in Actinobacillus actinomycetemcomitans

Abstract The heat shock response in Actinobacillus actinomycetemcomitans , a capnophilic Gram-negative bacterial species that is implicated in the development of certain forms of periodontitis, was characterized. Different strains of A. actinomycetemcomitans were grown at 37, 42 and 48°C in the presence of ³⁵S-methionine. The bacterial cells were lysed, run on SDS-PAGE and subsequently blotted on nitrocellulose paper. After autoradiography of the blots, several protein bands from the cultures at 42°C showed an increased intensity; major bands were observed at 90, 70, and 60 kDa, but increased protein synthesis was also detected at 54, 28 and 17 kDa. Nitrocellulose blots were also incubated with a panel of monoclonal and polyclonal antibodies directed to epitopes on different heat shock proteins. Strong reactivity was found with several antibodies at the position corresponding to a molecular mass of 60 kDa. The protein is probably the GroEL homologue in A. actinomycetemcomitans , a member of the ‘common bacterial antigen’ family.     

Heat shock protein (HSP70) RNA expression differs among rainbow trout (Oncorhynchus mykiss) clonal lines

Heat shock protein 70 (HSP70, 70 kDa) is the most commonly expressed protein in response to thermal stress. The extent of its expression is associated with differences in environmental temperatures. We investigated the heat shock response in red blood cells collected from one-year-old rainbow trout (Oncorhynchus mykiss). Three different clonal lines of rainbow trout (Arlee, OSU and Whale Rock) were utilized, originating from habitats that likely experienced different thermal profile. The relative expression of HSP70 from blood cells treated at 13 °C, 16 °C, 18 °C, 20 °C, 22 °C, and 24 °C was quantified using real-time PCR. The use of red blood cells allows for the control and replication of HSP70 expression patterns.Relative expression of HSP70 differed significantly among the three clonal lines. The Arlee line had the lowest HSP70 response of the three clonal lines at any temperature; indicating a heritable difference. Maximum expression of HSP70 occurred at 22 °C in the OSU line and at 24 °C in the Whale Rock line. The discovery of variation in HSP70 expression among the clonal lines indicates that future studies to map the genetic control of HSP70 expression differences are possible.     

Restriction fragment length polymorphisms at the heat shock protein HSP70 gene(s) in pigs*

Pigs from a population consisting of eight US breeds or strains and three Chinese breeds were examined by restriction fragment length polymorphism (RFLP) analysis of the heat shock protein HSP70 gene(s). Limited polymorphisms with PstI and PvuII restriction enzymes were observed, but there were no polymorphisms with BomIII and BglI.     

热休克反应中小鼠心脏HSP70表达的免疫组织化学研究

用免疫组织化学方法研究了小鼠心脏在不同温度（40、41、44、46℃）热休克处理后,各恢复期（2、4、8、12、24小时）HSP70的表达。结果表明,（1）44、46℃热处理能诱导心肌细胞合成HSP70,以46℃为多（P＜0．01）,且于恢复期4－8小时为合成高峰（P＜0．01）。（2）阳性免疫反应定位于心肌细胞质中,核呈阴性反应。提示了心脏有较强的耐热能力。     

Seasonal variation in expression pattern of genes under HSP70

Heat shock protein 70 (HSP70) is one of the most abundant and best characterized heat shock protein family that consists of highly conserved stress proteins, expressed in response to stress, and plays crucial roles in environmental stress tolerance and adaptation. The present study was conducted to identify major types of genes under the HSP70 family and to quantify their expression pattern in heat- and cold-adapted Indian goats (Capra hircus) with respect to different seasons. Five HSP70 gene homologues to HSPA8, HSPA6, HSPA1A, HSPA1L, and HSPA2 were identified by gene-specific primers. The cDNA sequences showed high similarity to other mammals, and proteins have an estimated molecular weight of around 70 kDa. The expression of HSP70 genes was observed during summer and winter. During summer, the higher expression of HSPA8, HSPA6, and HSPA1A was observed, whereas the expression levels of HSPA1L and HSPA2 were found to be lower. It was also observed that the expression of HSPA1A and HSPA8 was higher during winter in both heat- and cold-adapted goats but downregulates in case of other HSPs. Therefore, both heat and cold stress induced the overexpression of HSP70 genes. An interesting finding that emerged from the study is the higher expression of HSP70 genes in cold-adapted goats during summer and in heat-adapted goats during winter. Altogether, the results indicate that the expression pattern of HSP70 genes is species- and breed-specific, most likely due to variations in thermal tolerance and adaptation to different climatic conditions.     

结直肠癌中HSP60和HSP27表达的免疫组织化学研究

目的1观察热休克蛋白60和热休克蛋白27在结直肠癌中的表达及意义。方法：收集结直肠癌80例,其中淋巴结转移40例（转移组）,无淋巴结转移40例（无转移组）;另外,在结直肠癌80例中,有结直肠腺瘤（腺瘤组）以及距肿块15cm以上的正常肠粘膜（对照组）各40例。应用免疫组织化学SP法检测组织中蛋白的表达。结果：HSP60的表达主要定位在癌细胞胞浆,在对照组、腺瘤组、非转移组、转移组中的表达阳性率分别为25％、30％、57．5％、90％,组间比较发现,对照组与转移组、腺瘤组与转移组、转移组与非转移组（x^2=10．912,P〈0．001）的HSP60阳性表达率存在统计学差异;而对照组与腺瘤和非转移组间以及腺瘤与非转移组间无统计学差异。HSP27的表达主要定位在癌细胞的胞浆,在对照组、腺瘤组、非转移组、转移组的表达阳性率分别为5％,35％,50％,90％,组间比较发现,对照组分别与无淋巴结转移组、淋巴结转移组;腺瘤组分别与转移组;非转移组与转移组间存在统计学差异,腺瘤与非转移组间无统计学差异。HSP60和HSP27表达间无统计学相关。结论：HSP27表达可能与结直肠癌发生和转移相关。而HSP60的表达可能在结直肠癌转移中具有重要意义。