Expression analysis of heat shock genes in the skin, spleen and blood of common carp (Cyprinus carpio) after cadmium exposure and hypothermia

Heat shock proteins are chaperones that play a pivotal role in controling multiple regulatory pathways such as stress defense, hormone signaling, cell cycle control, cell proliferation and differentiation, and apoptosis. In this study, the expression patterns of four well-known heat shock genes (hsp70, hsc70-1, hsc70-2 and hsp90α) were characterized in the skin, spleen and blood cells of the common carp, under unstressed conditions and after Cd2+ treatment or hypothermia. The examined genes were expressed in a tissue-specific manner: hsc70-2 was expressed constitutively, and was at best only slightly inducible; hsp90α exhibited a high basic expression in all three tissues, whereas hsc70-1 did so only in the blood cells, the expression of hsp70 proved to be below the level of detection in unstressed fish. Cold shock induced the expression of hsp genes in the spleen (hsp90α) and blood cells (hsp70, hsc70-1 and hsp90α), while Cd2+ treatment has no effect on the expression pattern. The highest inducibilities were detected in the skin: for hsp70 an induction of at least 20-fold after cadmium exposure, for hsc70-1 of at least 30-fold and for hsp90α of 3-fold after hypothermia.     

Stress-induced, tissue-specific enrichment of hsp70 mRNA accumulation in Xenopus laevis embryos

In this study, we have employed whole-mount, in situ hybridization to study the spatial pattern of hsc70 and hsp70 mRNA accumulation in normal and heat shocked embryos during Xenopus laevis development. Our findings revealed that hsc70 mRNA was constitutively present in a global fashion throughout the embryo and was not heat inducible. Accumulation of hsp70 mRNA, however, was detected only in heat shocked embryos. Furthermore, hsp70 mRNA accumulation was enriched in a tissue-specific manner in X. laevis tailbud embryos within 15 minutes of a 33 degrees C heat shock. Abundant levels of heat shock-induced hsp70 mRNA were detected in the head region, including the lens placode, the cement gland, and in the somitic region and proctodeum. Preferential heat-induced accumulation of hsp70 mRNA was first detected at a heat shock temperature of 30 degrees C. Placement of embryos at 22 degrees C after a 1-hour, 33 degrees C heat shock resulted in decreased hsp70 mRNA with time, but the message persisted in selected tissues, including the lens placode and somites. Treatment of tailbud embryos with either sodium arsenite or zinc chloride induced a tissue-specific enrichment of hsp70 mRNA in the lens placode and somitic region. These studies reveal the complex nature of the heat shock response in different embryonic tissues and suggest the presence of regulatory mechanisms that lead to a stressor-induced, tissue-specific enrichment of hsp70 mRNA.     

盐芥热激同源蛋白70基因(Thhsc70)的分子克隆及鉴定

热激蛋白70(hsp70s)具有分子伴侣的功能,其中在非胁迫条件下表达的hsp70s称为热激同源蛋白70(hsc70).为更好地了解hsc70基因的特性,鉴定了盐芥(Thellungiella halophila(C.A.Mey.)O.E. Schulz)中编码胞质hsc70蛋白的基因Thhsc70.实验结果表明:在非胁迫条件下,Thhsc70基因具有组织特异性表达;Thhsc70基因受热胁迫和冷胁迫的诱导表达,但几乎不受盐诱导和干旱诱导.Thhsc70基因在拟南芥中过量表达后提高了转基因拟南芥的热耐受性和冷耐受性.     

Cloning and nucleotide sequencing of three heat shock protein genes (hsp90, hsc70, and hsp19.5) from the diamondback moth, Plutella xylostella (L.) and their expression in relation to developmental stage and temperature

Heat shock protein genes, hsp90, hsc70, and hsp19.5, were cloned and sequenced from the diamondback moth, Plutella xylostella (L.) by RT-PCR and RACE method. The cDNA sequence analysis of hsp90 and hsp19.5 revealed open reading frames (ORFs) of 2,151 and 522 bp in length, which encode proteins with calculated molecular weights of 82.4 and 19.5 kDa, respectively. Analysis of cDNA from hsc70 revealed an ORF of 1,878 bp coding a protein with a calculated molecular weight of 69.3 kDa. Furthermore, the analysis of genomic DNA from hsc70 confirmed the presence of introns while no introns were apparent in hsp90 and hsp19.5. Southern blot analysis suggested the presence of multiple copies of each gene family in the DBM genome. Detectable expression of hsp19.5 was observed at the pupal stage while expression of hsp90 and hsc70 was detected at both pupal and adult stages. At adult stage, females showed a higher expression of hsp90 and hsc70 than males. An increased expression was observed in all three genes after exposure to a high temperature in both sexes. These results suggest that in addition to a heat shock response, these HSP genes might be involved in other functions during the course of development in DBM.     

盐芥热激同源蛋白70基因(Thhsc70)的分子克隆及鉴定(英文)

热激蛋白70(hsp70s)具有分子伴侣的功能,其中在非胁迫条件下表达的hsp70s称为热激同源蛋白70(hsc70)。为更好地了解hsc70基因的特性,鉴定了盐芥(Thellungiella halophila(C. A. Mey. )O. E. Schulz)中编码胞质hsc70蛋白的基因Thhsc70。实验结果表明:在非胁迫条件下,Thhsc70基因具有组织特异性表达;Thhsc70基因受热胁迫和冷胁迫的诱导表达,但几乎不受盐诱导和干旱诱导。Thhsc70基因在拟南芥中过量表达后提高了转基因拟南芥的热耐受性和冷耐受性。     

Constitutive heat shock protein 70 (HSC70) expression in rainbow trout hepatocytes: effect of heat shock and heavy metal exposure

The 70-kDa family of heat shock proteins plays an important role as molecular chaperones in unstressed and stressed cells. The constitutive member of the 70 family (hsc70) is crucial for the chaperoning function of unstressed cells, whereas the inducible form (hsp70) is important for allowing cells to cope with acute stressor insult, especially those affecting the protein machinery. In fish, the role of hsc70 in the cellular stress response process is less clear primarily because of the lack of a fish-specific antibody for hsc70 detection. In this study, we purified hsc70 to homogeneity from trout liver using a three-step purification protocol with differential centrifugation, ATP-agarose affinity chromatography and electroelution. Polyclonal antibodies to trout hsc70 generated in rabbits cross-reacted strongly with both purified trout hsc70 protein and also purified recombinant bovine hsc70. Two-dimensional electrophoresis followed by Western blotting confirmed that the isoelectric point of rainbow trout hsc70 was more acidic than hsp70. Using this antibody, we detected hsc70 content in the liver, heart, gill and skeletal muscle of unstressed rainbow trout. Primary cultures of trout hepatocytes subjected to a heat shock (+15 degrees C for 1 h) or exposed to either CuSO(4) (200 microM for 24 h), CdCl(2) (10 microM for 24 h) or NaAsO(2) (50 microM for 1 h) resulted in higher hsp70 accumulation over a 24-h period. However, hsc70 content showed no change with either heat shock or heavy metal exposure suggesting that hsc70 is not modulated by sublethal acute stressors in trout hepatocytes. Taken together, we have for the first time generated polyclonal antibodies specific to rainbow trout hsc70 and this antibody will allow for the characterization of the role of hsc70 in the cellular stress response process in fish.     

热应激和吡虫啉对大豆蚜hsp70和hsc70基因mRNA表达的影响

【目的】昆虫在高温或农药的胁迫下,通过高效表达热休克蛋白(HSP)等建立应激自我保护机制。本研究为从转录组水平上认识大豆蚜Aphis glycines在热应激和吡虫啉胁迫下hsp70和hsc70 mRNA表达分子机制,进而寻找自我保护应激反应中的薄弱环节,为大豆蚜的生物防治提供理论基础。【方法】采用同源克隆、RACE技术和实时荧光定量PCR等方法研究不同热激时间和热激后不同恢复时间及不同吡虫啉浓度对大豆蚜4龄若虫hsp70和hsc70的表达影响。【结果】37℃热激后,大豆蚜4龄若虫中hsp70表达量先上调,1 h时升至对照组的10.36倍（P<0.05）,然后逐渐下降。同样热激后恢复时间的长短对大豆蚜若蚜中hsp70的表达具有显著影响。热激处理后,大豆蚜若蚜中hsp70立即大量表达,表达量为对照组的8.78倍（P<0.05）,随后表达量下降至对照组水平,而hsc70的表达量并没有显著变化（P>0.05）。大豆蚜若蚜受吡虫啉的胁迫时,其hsp70和hsc70的表达量受吡虫啉的浓度及胁迫的时间的影响,呈现先升高后下降的趋势,具有明显的短期效应。【结论】吡虫啉诱导大豆蚜hsp70和hsc70表达量的上调;而热胁迫对hsp70和hsc70 mRNA具有不同的表达模式,高温可以诱导hsp70的表达,但对hsc70没有明显的诱导作用。     

Detection of a spontaneous high expression of heat shock protein 70 in developing zebrafish (Danio rerio)

A spontaneous high expression of heat shock protein 70 (HSP 70) was detected in zebrafish (Danio rerio) at early larval stage (84 h after fertilization), but the HSP 70 level was either low or barely detectable in 12, 24, 36, 60, and 108 h after fertilization. The extracts of zebrafish at 80 and 84 h after fertilization formed a clear protein-DNA complex with a probe containing heat shock elements (HSEs), suggesting that this spontaneous expression of HSP 70 may be turned on via the binding of stage-specific HSE-binding factors to HSP 70 gene promotor. The protein-HSE complexes produced by the spontaneous binding, however, were found to be different from those formed by the extracts of heat-treated zebrafish in electrophoretic mobility.     

Examination of the stress-induced expression of the collagen binding heat shock protein, hsp47, in Xenopus laevis cultured cells and embryos

HSP47 is an endoplasmic reticulum (ER)-resident molecular chaperone involved in collagen production. This study examined the stress-induced pattern of hsp47 gene expression in Xenopus cultured cells and embryos. Sequence analysis revealed that protein encoded by the hsp47 cDNA exhibited 70-77% identity with fish, avian and mammalian HSP47. In A6 kidney epithelial cells hsp47 mRNA and HSP47 were present constitutively and inducible by heat shock but not ER stressors including tunicamycin and A23187, both of which enhanced BiP mRNA. Furthermore A23187 treatment inhibited constitutive accumulation of hsp47 mRNA and retarded heat-induced accumulation of hsp47 and hsp70 mRNA. Interestingly, hsp47 gene expression but not hsp70 or BiP mRNA accumulation was enhanced by treatment with a procollagen-specific stressor, beta-aminopropionitrile. In Xenopus embryos hsp47 mRNA was present constitutively throughout development. In tailbud embryos hsp47 mRNA was enriched in tissues associated with collagen production including notochord, somites and head region. Heat shock-induced accumulation of hsp47 mRNA was enhanced primarily in embryonic tissues already exhibiting hsp47 mRNA accumulation. These studies suggest that the pattern of Xenopus hsp47 gene expression is similar to hsp70 in response to heat shock but also displays unique features including a response to a procollagen-specific stressor and preferential expression in collagen-containing tissues.     

Cloning of heat shock protein genes from the brown planthopper,Nilaparvata lugens,and the small brown planthopper,Laodelphax striatellus,and their expression in relation to thermal stress

Three heat shock protein (HSP) genes (hsp70, hsc70, hsp90) were partially cloned from the brown planthopper Nilaparvata lugens and the small brown planthopper Laodelphax striatellus (Homoptera: Delphacidae), which are serious pests of the rice plant. Sequence comparisons at the deduced amino acid level showed that the three HSPs of planthoppers were most homologous to corresponding HSPs of dipteran and lepi‐dopteran species. Identities of both heat shock cognate 70 and HSP90 were higher than HSP70 in both species. Identity of the HSP70 between the two planthopper species was only 81%, a value much lower than seen among fly and moth groups. Effects of heat and cold shocks were demonstrated on expression of the three hsp genes in the two planthopper species. Heat shock (40 °C) upregulated the hsp90 level but did not change the hsc70 level in either the nymph and adult stages of either species. On the other hand, the hsp70 level was only upregulated in L. striatellus. This heat shock response was prompt and lasted only for 1 h after treatment. In contrast, cold shock at 4°C did not change the expression levels of any hsp in either species.     

Examination of KNK437- and quercetin-mediated inhibition of heat shock-induced heat shock protein gene expression in Xenopus laevis cultured cells

We examined the effect of quercetin (3,3',4',5,7-pentahydroxyflavon) and KNK437 (N-formyl-3,4-methylenedioxy-benzylidene-gamma-butyrolactam), a benzylidene lactam compound, on heat-induced heat shock protein (hsp) gene expression in Xenopus laevis A6 kidney epithelial cells. In previous studies, both quercetin and KNK437 inhibited heat shock factor activity resulting in a repression of hsp mRNA and protein accumulation in human cultured cells. In this first study of the effect of these hsp gene expression inhibitors in a non-mammalian cell line, we report that both quercetin and KNK437 reduced the heat shock-induced accumulation of hsp30, hsp47 and hsp70 mRNA in X. laevis cultured cells. However, these inhibitors had no effect on the relative level of a non-heat shock protein mRNA, ef1alpha, in either control or heat shocked cells. Western blot and immunocytochemical analyses revealed that quercetin partially inhibited HSP30 protein accumulation. In contrast, HSP30 protein was not detectable in KNK437-treated cells. Finally, treatment of A6 cells with KNK437 inhibited the heat shock-induced acquisition of thermotolerance, as determined by preservation of actin filaments and cellular morphology using immunocytochemistry and laser scanning confocal microscopy.     

Expression and localization of Drosophila melanogaster hsp70 cognate proteins.

Monoclonal antibodies have been used to identify three proteins in Drosophila melanogaster that share antigenic determinants with the major heat shock proteins hsp70 and hsp68. While two of the proteins are major proteins at all developmental stages, one heat shock cognate protein, hsc70, is especially enriched in embryos. hsc70 is shown to be the product of a previously identified gene, Hsc4. We have examined the levels of hsp70-related proteins in adult flies and larvae during heat shock and recovery. At maximal induction in vivo, hsp70 and hsp68 never reach the basal levels of the major heat shock cognate proteins. Monoclonal antibodies to hsc70 have been used to localize it to a meshwork of cytoplasmic fibers that are heavily concentrated around the nucleus.     

Molecular cloning of zebrafish (Danio rerio) MutS homolog 6(MSH6) and noncoordinate expression of MSH6 gene activity and G-T mismatch binding proteins in zebrafish larvae

Eukaryotic MutS homolog 6(MSH6) is a DNA mismatch recognition protein associated with mismatch repair of simple base-base mispairs and small insertion-deletion loops. As replication or recombination errors generated during embryonic development of living organisms should be efficiently corrected to maintain the integrity of genetic materials, we attempted to study MSH6 gene expression in developing zebrafish (Danio rerio) and the influence of MSH6 expression on the production of mismatch binding factors. A full-length cDNA encoding zebrafish MSH6 (zMSH6) was first obtained by rapid amplification of cDNA ends (RACE). The deduced amino acid sequence of zMSH6 shares 57% and 56% identity with human and mouse MSH6, respectively. The 190-kDa recombinant zMSH6 containing 1,369 amino acids bound preferentially to a heteroduplex than to a homoduplex DNA. Northern blot and semiquantitative RT-PCR analysis detected apparent levels of zMSH6 mRNA expression in 12 and 36-hr-old zebrafish embryos, while this expression in 84-hr-old larvae was dramatically reduced to 23% of that in 12-hr-old embryos when beta-actin mRNA was constitutively synthesized. Incubation of G-T and G-G heteroduplex probes with 12 to 60-hr-old zebrafish extracts produced predominantly high-shifting binding complexes with very similar band intensity. Although low in zMSH6 mRNA production, the extracts of 84-hr-old larvae interacted significantly stronger than the embryonic extracts with both G-T and G-G mispairs, producing high and low-shifting complexes. Heteroduplex-recognition proteins in 108-hr-old larvae gave a similar pattern of mismatch binding. The intensities of G-T complexes produced by 84 and 108-hr-old zebrafish extracts were 2.5 to 3-fold higher than those of G-G complexes. Our data indicate that the production of efficient MSH6-independent binding factors, particularly G-T-specific recognition proteins, is upregulated in zebrafish at the larval stage when MSH6 gene activity is downregulated.