In situ localization of heat-shock and histone proteins in honey-bee (Apis mellifera l.) larvae infected with Paenibacillus larvae

The immunohistochemical localization of the heat shock proteins (Hsp70 and Hsp90) and histone protein in healthy and Paenibacillus larvae infected honeybee (Apis mellifera L.) larvae has been studied. Hsp70 was found in the nuclei and the cytoplasm of infected midgut, salivary gland cells and haemocytes, but not in uninfected larvae. Hsp90 was localized in both infected and uninfected cells. Exposed histone proteins were localized in the nuclei of dying uninfected cells undergoing programmed cell death. The distribution of histone protein in uninfected cells of midgut, salivary gland, and other tissues was nuclear and indicative of normal programmed cell death at levels between 1 and 5%.After applying histone protein antibodies to P. larvae infected honeybee larvae, the DAB based reaction product was located in the nuclei or immediate surroundings of all larval cells. The Hsp70, Hsp90 and histone protein distribution patterns are discussed in relation to the morphological, cytochemical and immunocytochemical characteristics of programmed cell death and pathological necrosis. Results produced by methyl green-pyronin staining confirm an elevation of RNA levels in normal programmed cell death and a reduced staining for RNA in necrotic infected cells.     

Inhibition of Hsp90 function delays and impairs recovery from heat shock

The induction of the heat shock response as well as its termination is autoregulated by heat shock protein activities. In this study we have investigated whether Hsp90 functional protein levels influence the characteristics and duration of the heat shock response. Treatment of cells with several benzoquinone ansamycin inhibitors of Hsp90 (geldanamycin, herbimycin A) activated a heat shock response in the absence of heat shock, as reported previously. Pretreatment of cells with the Hsp90 inhibitors significantly delayed the rate of restoration of normal protein synthesis following a brief heat shock. Concurrently, the rate of Hsp synthesis and accumulation was substantially increased and prolonged. The cessation of heat shock protein synthesis did not occur until the levels of Hsp70 were substantially elevated relative to its standard threshold for autoregulation. The elevated levels of HSPS 22-28 (the small HSPS) and Hsp70 are not able to promote thermotolerance when Hsp90 activity is repressed by ansamycins; rather a suppression of thermotolerance is observed. These results suggest that a multicomponent protein chaperone complex involving both Hsp90 and Hsp70 signals the cessation of heat shock protein synthesis, the restoration of normal translation, and likely the establishment of thermotolerance. Impaired function of either component is sufficient to alter the heat shock response.     

Starvation reduces the heat shock protein responses in white sturgeon larvae

This study investigates the responses of white sturgeon larvae (Acipenser transmontanus) to starvation and thermal stress, through the measurement of nutritional status (i.e. growth performances) and cellular biomarkers: heat shock proteins (Hsp) 70 and 90. White sturgeon larvae (25 day post hatch; initial weight 179.0 ± 5.1 mg) were fed (20% body weight per day) or starved for 24, 48 or 72 hrs. Every 24 hrs, five larvae from each of the starved or fed treatment replicates were exposed to heat shock resulting from an increase in water temperature from 19°C to 26°C, at a rate of 1°C per 15 min, and maintained at 26°C for 4 hrs. No mortality was observed in this study. Starvation significantly (p < 0.05) decreased the body weight and body contents of energy, protein, and lipid of the experimental larvae, compared to the fed larvae. Heat shock induced the expressions of Hsp70 and Hsp90 in both the fed and starved group; however, starvation reduced the induction at all sampling points. The current study demonstrates that poor larval nutritional status, assessed by the aforementioned parameters, reduced heat shock responses to thermal stress, as measured by heat shock protein levels. Furthermore, Hsp70 and 90 are more sensitive to heat shock and starvation, respectively. This may be, in part, a result of the different functioning of the heat shock proteins in cellular stress response and warrants further study.     

低温对麦红吸浆虫滞育解除及蜕皮激素受体基因EcR和热激蛋白基因Hsp70和Hsp90表达水平的影响

【目的】本研究旨在明确破茧率和破茧所需时间作为典型的专性幼虫期滞育昆虫麦红吸浆虫Sitodiplosis mosellana滞育解除指标的可行性,探讨蜕皮激素受体基因EcR和热激蛋白基因Hsp70和Hsp90在低温解除滞育中的作用。【方法】9月上旬采自田间的麦红吸浆虫滞育幼虫在低温(4℃)和自然变温处理不同时间(0~90 d)后转移至24℃化蛹,调查幼虫的破茧率、化蛹率及破茧和化蛹所需时间;采用qPCR技术分析4℃低温终止滞育并在24℃下恢复发育的幼虫EcR, Hsp70和Hsp90的mRNA水平。【结果】不同时间低温(4℃)和自然变温处理的麦红吸浆虫滞育幼虫破茧率和化蛹率以及破茧和化蛹所需时间均存在显著差异。未经低温(4℃)处理的幼虫在水分满足的条件下破茧率为71.3%,但均不能化蛹;低温(4℃)处理60 d内,随着处理时间的延长破茧率和化蛹率逐渐升高,破茧和化蛹所需时间逐渐缩短;与4℃低温处理30~60 d相比,自然变温处理30~60 d的幼虫化蛹率显著较低;4℃低温处理60 d和自然变温处理90 d后幼虫的化蛹率均超过91%。低温(4℃)处理显著提高了麦红吸浆虫幼虫EcR, Hsp70和Hsp90的表达量,其中处理30 d时其表达量最高,随着低温(4℃)处理时间的延长,表达量逐渐降低,大部分幼虫滞育解除后表达量趋于恒定。【结论】低温能显著促进麦红吸浆虫的滞育解除,效果优于9-10月自然变温;破茧率及破茧所需时间可作为评判麦红吸浆虫幼虫滞育强度的参考,但不能独立作为滞育解除的指标;EcR,Hsp70和Hsp90的表达水平与滞育强度密切相关,在麦红吸浆虫滞育解除中发挥潜在作用。     

Stress response to cold in Trichinella species

Trichinella-type larvae (L(1)) are found in the muscles of infected wild animals and domestic pigs and are the cause of trichinosis in man and other animals throughout the world. These parasites are exposed to low temperatures during their life cycle. On this premise, three Trichinella species of different types of habitat (the arctic T. nativa, the cosmopolitan T. spiralis, and the tropical T. nelsoni) were selected to examine the effect of a shift in temperature, from 37 to 4 degrees C, on long-term survival. Evaluation was then made of whether these effects were related to differential protein synthesis and/or heat shock protein (Hsp) expression. Test samples at 0, 2, 4, or 8 h and 1, 5, or 9 days after the temperature shift were obtained and subjected to Hsp determination by Western blotting. Total protein changes were explored by SDS-PAGE followed by densitometric analysis of the gels. During the "acclimatization phase" (at 2, 4, and 8 h), a different total protein and a depressed Hsp expression pattern were shown in each Trichinella species. Following acclimatization, Hsp70, but not Hsp60 or Hsp90, markedly increased above control levels in the three species, indicating a role for this Hsp as a classic stress protein. The synthesis of a 50-kDa Hsp was significantly induced in T. spiralis larvae, suggesting its potential function as a cold shock protein in this species.     

热激蛋白90与中红侧沟茧蜂的发育关系

根据热激蛋白90(the heat shock proteins90,Hsp90)基因序列的保守性,设计引物,采用PCR结合RACE扩增的方法克隆得到中红侧沟茧蜂Microplitis mediatorHaliday Hsp90cDNA全序列,并用半定量RT-PCR的方法研究Hsp90与中红侧沟茧蜂发育及滞育间的关系。结果表明,滞育条件和非滞育条件下,热激和冷激都能诱导Hsp90的表达;不论在滞育还是非滞育条件下,Hsp90表达量均在2龄初期最高,随发育时间的增加逐渐降低,成虫期表达量又显著升高;滞育褐茧在4℃保存初期,Hsp90呈现高表达且随保存时间的增加而降低。     

Mercury stimulates rat liver glucocorticoid receptor association with Hsp90 and Hsp70

The subject of the present study is the influence of mercury on association of rat liver glucocorticoid receptor (GR) with heat shock proteins Hsp90 and Hsp70. The glucocorticoid receptor heterocomplexes with Hsp90 and Hsp70 were immunopurified from the liver cytosol of rats administered with different doses of mercury. The amounts of co-immunopurified apo-receptor, Hsp90 and Hsp70 were then determined by quantitative Western blotting. The ratio between the amount of heat shock protein Hsp90 or Hsp70 and the amount of apo-receptor within immunopurified heterocomplexes was found to increase in response to mercury administration. On the other hand, the levels of Hsp90 and Hsp70 in hepatic cytosol remained unaltered. The finding that mercury stimulates association of the two heat shock proteins with the glucocorticoid receptor, rendering the cytosolic heat shock protein levels unchanged, suggests that mercury affects the mechanisms controlling the assembly of the receptor heterocomplexes.     

Immunoelectron microscope localization of Mr 90000 heat shock protein and Mr 70000 heat shock cognate protein in the salivary glands of Chironomus thummi

The Mr 90000 heat shock protein (hsp 90) and one of the Mr 70000 heat shock cognate proteins (hsc 70) were localized by immunoelectron microscopy in salavary gland cells of normal and heat-shocked larvae of Chironomus thummi using polyclonal antibodies raised against Drosophila proteins. Immunoblotting after separation of proteins by gel electrophoresis shows that these antibodies cross-react with the corresponding proteins of Chironomus. Hsp 90 was localized both in the cytoplasm and in the nucleus, where it is associated with intrachromosomal and extrachromosomal ribonucleoprotein (RNP) fibrils, as well as with the peripheral region of compact chromatin. After heat shock the concentration of hsp 90 increases in the nucleus. This increase is prevented by actinomycin D administration during the heat shock. Hsp 90 is associated with the chromatin of puffs repressed by heat shock and with the RNP fibrils of actively transcribing heat shock puffs. Hsc 70 is mainly found in RNP fibrils and in the periphery of compact chromatin. During heat shock the concentration of hsc 70 decreases in the cytoplasm while it becomes more abundant in association with chromatin and intrachromosomal and extrachromosomal RNP fibrils. These results suggest a translocation of the existing protein from the cytoplasm toward the nucleus. They are supported by observations of the effect of heat shock carried out in the presence of actinomycin D.by D.P. Bazett-Jones     

Molt cycle-dependent molecular chaperone and polyubiquitin gene expression in lobster

Lobster claw muscle undergoes atrophy in correlation with increasing ecdysteroid (steroid molting hormone) titers during premolt. In vivo molecular chaperone (constitutive heat shock protein 70 [Hsc70], heat shock protein 70 [Hsp70], and Hsp90) and polyubiquitin messenger ribonucleic acid (mRNA) levels were examined in claw and abdominal muscles from individual premolt or intermolt lobsters. Polyubiquitin gene expression was assayed as a marker for muscle atrophy. Both Hsc70 and Hsp90 mRNA levels were significantly induced in premolt relative to intermolt lobster claw muscle, whereas Hsp70 mRNA levels were not. Hsp90 gene expression was significantly higher in premolt claw muscle when compared with abdominal muscle. Polyubiquitin mRNA levels were elevated in premolt when compared with intermolt claw muscle and significantly elevated relative to premolt abdominal muscle.     

温度胁迫下棉花粉蚧热激蛋白基因的表达分析

【目的】为了研究热激蛋白 Hsp70, Hsp70-4和Hsp90在棉花粉蚧Phenacoccus solenopsis抵抗逆温中的作用。【方法】在测序棉花粉蚧转录组的基础上,分析了该虫热激蛋白Hsp70基因家族的2个序列［Pshsp70（GenBank登录号为KJ909505）和Pshsp70-4（GenBank登录号为KJ909506）］和Hsp90基因家族的1个序列,［Pshsp90(GenBank登录号为KJ909507)］,采用实时荧光定量 PCR（RT-qPCR）检测了在不同温度（18和32℃恒温, 37, 39, 41, 43和45℃热激1 h 后26℃恢复1 h)下棉花粉蚧不同发育阶段（2龄若虫、3龄若虫、雌成虫）3种热激蛋白基因的表达量。【结果】Pshsp70 cDNA序列包含1 923 bp的开放阅读框,编码641个氨基酸,理论分子量和等电点分别为70.9 kDa和5.65; Pshsp70-4 cDNA序列包含1 962 bp的开放阅读框,编码654个氨基酸,理论分子量和等电点分别为71.8 kDa和5.38;Pshsp90 cDNA序列包含2 172 bp的开放阅读框,编码724个氨基酸,理论分子量和等电点分别为83.5 kDa和4.93。Pshsp70 和Pshsp70-4均含有Hsp70基因家族高度保守的基序,Pshsp70编码的氨基酸序列与烟粉虱Bemisia tabaci和家蚕Bombyx mori等昆虫的Hsp70 的氨基酸序列一致性为 85%;Pshsp70-4编码的氨基酸序列与白蜡蚧Ericerus pela和点蜂缘蝽Riptortus pedestris等昆虫的Hsp70的氨基酸序列一致性高达95%;Pshsp90也含有Hsp90基因家族高度保守的基序,Pshsp90编码的氨基酸序列与赤拟谷盗Tribolium castaneum和东亚小花蝽Orius sauteri等昆虫的Hsp90 的氨基酸序列一致性为 87%。热激蛋白基因表达量分析结果表明,在18℃恒温条件下,粉蚧2龄若虫的3个PsHsps基因的mRNA相对表达量均比对照(26℃)低,在32℃恒温条件下,各龄期的Hsp70基因的相对表达量均显著高于对照。在37~45℃下热激1 h并在26℃下恢复1 h,棉花粉蚧3个龄期的3个热激蛋白PsHsps基因的相对表达量随温度的升高总体呈增加趋势,相关性分析表明,除Pshsp70-4在雌成虫中的表达量与热胁迫温度的相关系数为0.225外,各龄期中3个基因的表达量与温度的相关系数均大于0.6,显著相关;43℃和45℃胁迫下,各龄期的3个热激蛋白基因相对表达量均显著高于对照组（P<0.05）。【结论】棉花粉蚧热激蛋白基因的表达与温度呈正相关,在该虫应对高温中起着重要作用。     

Expression and localization of Hsps in the heart and blood vessel of heat-stressed broilers

The objective of this study was to investigate the kinetics of Hsp60, Hsp70, Hsp90 protein, and messenger RNA (mRNA) expression levels and to correlate these heat shock protein (Hsp) levels with tissue damage resulting from exposure to high temperatures for varying amounts of time. One hundred broilers were heat-stressed for 0, 2, 3, 5, and 10 h, respectively, by rapidly increasing the ambient temperature from 22 +/- 1 degrees C to 37 +/- 1 degrees C. Obvious elevations of plasma creatine kinase indicate damage to myocardial cells after heat stress. Hsp70 and Hsp90, and their corresponding mRNAs in the heart tissue of heat-stressed broilers, elevated significantly after 2 h of heat exposure and decreased quickly with continued heat stress. However, the levels of hsp60 mRNA in the heart of heat-stressed broilers increased sharply (P < 0.01) at 2 h of heat stress but then decreased quickly after 3 h, while the level of Hsp60 protein in the heart increased (P < 0.01) at 2 h of heat stress and maintained a high level throughout heat exposure. The results indicate that the elevation of the three Hsps, especially Hsp60 in heart, may be important markers at the beginning of heat stress and act as protective proteins in adverse environments. The reduction of Hsp signals in the cytoplasm of myocardial cells implies that myocardial cell lesions may have an adverse impact on the function of Hsps during heat stress. Meanwhile, the localization of Hsp70 in blood vessels of broiler hearts suggests another possible mechanism for protection of the heart after heat exposure.     

Antioxidant responses of Chilo suppressalis (Lepidoptera: Pyralidae) larvae exposed to thermal stress

High temperatures cause a variety of physiological stress responses in insects, including increased generation of reactive oxygen species (ROS), which can cause oxidative damage. This study investigated the effects of thermal stress on ROS generation, the expression of heat shock protein 70 (Hsp70) at the mRNA and protein levels, the activity of antioxidant enzymes (SOD, CAT), and apoptosis in hemocytes of Chilo suppressalis larvae. Results indicated that thermal stress significantly elevated the level of ROS and antioxidant enzyme activity in C. suppressalis larvae. Real-time quantitative PCR showed that hsp70 gene expression was induced by heat stress. Flow cytometric results revealed that the expression profile of Hsp70 at the protein level was in agreement with that at the mRNA level. The expression of Hsp70 at both the mRNA and protein levels reached a maximum at 36 °C in larval hemocytes. Exposure to tested temperatures did not cause any significant change in the rate of apoptosis in larval hemocytes. These results suggest that thermal stress leads to oxidative stress and that antioxidant enzymes and the Hsp70 play an important role in reducing oxidative damage in C. suppressalis larvae.     

Characterization of Hsp70 gene in Chironomus riparius: expression in response to endocrine disrupting pollutants as a marker of ecotoxicological stress

We characterized the Hsp70 cDNA in Chironomus riparius and evaluated its expression profile under different environmental stressors. It is highly conserved, at both DNA and protein levels, displaying many of the hallmarks of Hsps and sharing 80-96% of overall amino acid identities with homologous sequences from other diptera. The changes are mainly concentrated in the C-terminal domain of the protein. Phylogenetic analysis was consistent with the known classification of insects. The Hsp70 gene was located by in situ hybridization in region III-3A at the third polytene chromosome, a locus activated upon heat shock as shown by RNA pol II binding. As C. riparius is widely used in aquatic ecotoxicology testing, we studied Hsp70 gene induction in fourth instar aquatic larvae submitted to heat shock and selected environmental pollutants classified as potential endocrine disruptors. RT-PCR analysis showed that Hsp70 mRNA levels increased significantly (p<0.05) after short-term acute exposures to a temperature shift (HS), cadmium chloride (Cd), butyl benzyl phthalate (BBP), diethylhexyl phthalate (DEHP), bisphenol A (BPA), 4-nonylphenol (NP) and ethinylestradiol (EE). However, neither pentachlorophenol (PCP) nor tributyltin (TBTO) treatments were able to activate the Hsp70 gene. The cognate form, Hsc70, was also analysed and, unlike Hsp70, was not altered by any of the different treatments assayed. Moreover, at the times tested, there was no significant mortality of the larvae. The rapid upregulation of the Hsp70 gene suggests that it is sensitive and selective for different environmental pollutants, and could be used as an early molecular endpoint in ecotoxicological studies.     

The effect of environmental salinity on the level of heat shock proteins in gill epithelium of Mytilus edilis L. mussel

The composition and the level of heat shock proteins in the gill epithelium cells of mussels Mytilus edulis L. from the White Sea under different levels of environmental salinity were studied by the method of immunoblotting. In mussels maintained under normal salinity (26%), constitutive Hsp70 and protein of about 40 kDa were revealed. After long-term (11?C14 days) acclimation to 14 and 35?? of the level Hsp70 in gill epithelium cells increased. Hsp70 induction was also observed in cells of isolated gills after salinity shock at 14% for 3 and 24 h.     

Expression analysis of heat shock protein genes during Aeromonas hydrophila infection in rohu,Labeo rohita,with special reference to molecular characterization of Grp78

Heat shock protein (Hsp) genes are stress-related genes that activate the host immune system during infection. Hsp genes expression in fish, studied during bacterial infections, is mostly confined to Hsp70 and Hsp90. The present study is an expression analysis of seven Hsp genes: Apg2, Hsp90, Hsp70, glucose-regulated protein 78 (Grp78), heat shock cognate 70 (Hsc70), Grp75, and Hsp30 during Aeromonas hydrophila infection in rohu, Labeo rohita. Forty-eight rohu juveniles were challenged with 3 × 10⁷ cfu bacteria per 20 g of body weight intraperitoneally. The expression of these genes was studied in infected liver, anterior kidney, and spleen tissues of rohu at different time periods: 0, 1, 3, 6, 12, 24, 48, 72 h, 7, and 15 days post-infection by qPCR. The Hsp gene modulation was greater in liver as compared to spleen and kidney tissues. Induced expression of Apg2, Hsp90, Grp78, Grp75, and Hsc70 was noticed during peak periods (3 to 24 h post-challenge) of bacterial infectivity. Hsp70 was found to be down-regulated during the process of infection. In contrast to the other six genes, Hsp30 showed a variable expression pattern in all three tissues. Grp78 was found to be the most highly (1,587-fold) expressed gene in liver at 12 h post-challenge. Further, molecular characterization of Grp78 revealed it to be a highly conserved Hsp gene, essential not only during infection but also during early developmental stages of rohu, and its expression was noticed in all organs studied except in gill tissues, which indicated its potential immune regulatory role during infection process.     

Tissue-specific variations in the induction of Hsp70 and Hsp64 by heat shock in insects

The patterns of heat-induced synthesis (37 degrees C to 45 degrees C) of heat shock proteins (Hsps) in different tissues of grasshoppers and cockroaches from natural populations and in laboratory-reared gram-pest (Heliothis armigera) were examined by 35S-methionine labeling and sodium dodecyl sulfate-polyacrylamide gel electrophoresis fluorography. Whereas 45 degrees C was lethal in most cases, optimal induction of Hsp synthesis was seen between 37 degrees C and 42 degrees C. The ongoing protein synthesis was not much affected at these temperatures, except in the tissues of adult H. armigera exposed to 42 degrees C. The profiles of the Hsps induced in the tissues of the insects, however, were different. From the relative abundance of the synthesis of 70-kDa (Hsp70) and 64-kDa (Hsp64) polypeptides, three categories of heat shock response were identified: (1) induction of abundant Hsp70 but little Hsp64 (malpighian tubules, male accessory glands, and ovaries of adult grasshoppers), (2) abundant Hsp64 but little Hsp70 (testes of adult grasshoppers, testes and malpighian tubules of adult cockroaches, and testes, malpighian tubules, and fat bodies of H. armigera larvae), and (3) induction of both Hsp70 and Hsp64 in more or less equal abundance (ovaries of adult cockroaches, salivary glands of H. armigera larvae, and malpighian tubules, male accessory glands, testes, and ovaries of adult H. armigera). Cockroaches collected from storerooms showed detectable synthesis of Hsp64 and/or Hsp70 only after heat shock, but those collected from drains showed detectable synthesis of both Hsp70 and Hsp64 in different tissues without heat stress. Western blotting showed that the 64-kDa polypeptide in these insects is a member of the Hsp60 family. Grasshopper testes, which synthesized negligible Hsp70 but abundant Hsp64 after heat shock, developed thermotolerance. Thus, heat shock response is modulated by developmental and environmental factors in different tissues of insects.     

Intracellular protozoan parasites of humans: the role of molecular chaperones in development and pathogenesis

Certain kinetoplastid (Leishmania spp. and Tryapnosoma cruzi) and apicomplexan parasites (Plasmodium falciparum and Toxoplasma gondii) are capable of invading human cells as part of their pathology. These parasites appear to have evolved a relatively expanded or diverse complement of genes encoding molecular chaperones. The gene families encoding heat shock protein 90 (Hsp90) and heat shock protein 70 (Hsp70) chaperones show significant expansion and diversity (especially for Leishmania spp. and T. cruzi), and in particular the Hsp40 family appears to be an extreme example of phylogenetic radiation. In general, Hsp40 proteins act as co-chaperones of Hsp70 chaperones, forming protein folding pathways that integrate with Hsp90 to ensure proteostasis in the cell. It is tempting to speculate that the diverse environmental insults that these parasites endure have resulted in the evolutionary selection of a diverse and expanded chaperone network. Hsp90 is involved in development and growth of all of these intracellular parasites, and so far represents the strongest candidate as a target for chemotherapeutic interventions. While there have been some excellent studies on the molecular and cell biology of Hsp70 proteins, relatively little is known about the biological function of Hsp70-Hsp40 interactions in these intracellular parasites. This review focuses on intracellular protozoan parasites of humans, and provides a critique of the role of heat shock proteins in development and pathogenesis, especially the molecular chaperones Hsp90, Hsp70 and Hsp40.