Aging affects expression of 70-kDa heat shock proteins in Drosophila

We examined the effect of cellular aging on adult mortality and hsp70 gene expression in Drosophila melanogaster under thermal stress. The results showed that flies exposed to 37 degrees C for various time intervals had reduced survival rate with age. The level of hsp70 mRNA increases in flies up to 23-28 days of age, but then declines as they get older. When flies are shifted to 25 degrees C after 30 min of heat stress, the time-dependent decrease in hsp70 mRNA levels occurs more rapidly in young flies than in old ones. The hsp70 mRNA present during this recovery period is translated into protein, and senescent flies continue to synthesize this protein for up to 5 h after heat shock. The prolonged expression of hsp70 RNA during recovery from heat shock was also observed in young flies fed canavanine, an arginine analogue. These data suggest that in old insects, the accumulation of conformationally altered proteins plays a role in the regulation of hsp70 RNA expression. These results are discussed in relation to the finding that old flies are more sensitive to thermal stress than young ones.     

Natural and Genetic Engineering of the Heat-Shock Protein Hsp70 in Drosophila melanogaster: Consequences for Thermotolerance

SYNOPSIS. Larvae of the fruit fly, Drosophila melanogaster,live within necrotic fruit, a challenging environment in whichlarvae can experience severe thermal stress. One response tothermal stress, the expression of heat-shock proteins (Hsps),has evolved distinctively in this species; the gene encodingHsp70 has undergone extensive duplication and accounts for thebulk of Hsps that are expressed upon heat shock. Genetic engineeringof hsp70 copy number is sufficient to affect thermotoleranceat some (but not all) life stages. Increases in Hsp70, moreover,can protect intact larvae against thermal inactivation of theenzyme alcohol dehydrogenase and thermal inhibition of feeding.Deleterious consequences of high levels of Hsp70, however, maylimit further evolutionary proliferation of hsp70 genes. Thesefindings illustrate how the perspectives of integrative andcomparative biology, if applied to even well-studied model organisms,can lead to novel findings.     

Reproductive costs of heat shock protein in transgenic Drosophila melanogaster

Senescence may evolve when genes have antagonistic effects between early reproduction and later age-specific mortality. Although widely consistent with data of quantitative genetics, this model has yet to be validated with the identification of a specific locus presenting such trade-offs. The molecular chaperone hsp70 may be a candidate for such a gene. Heat induced expression of the Hsp70 protein in adults decreases rates of age-specific mortality during normal aging, while maternally experienced heat shock depresses the production of mature progeny. Here we show that maternal heat shock reduces the proportion of egg hatch but not the viability of successfully hatched offspring. To assess whether heat induced maternal expression of hsp70 causes reduced egg hatch, we measured the proportion of eggs that hatch from females engineered to overexpress hsp70 transgenes. We used the same transgenic strains that extend longevity upon hsp70 expression and found that Hsp70 is sufficient to suppress egg hatch. The proportion of egg hatch as a function of hsp70 expression was not reduced in the first eggs laid after maternal heat shock, but appears in later laid eggs, which were at preoogenic and early vitellogenic stages during the maternal expression of hsp70. The contervailing effects of hsp70 upon fecundity and subsequent age-specific mortality exemplify antagonistic pleiotropy, and this trade-off could contribute to the evolution of Drosophila senescence.     

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.     

Heat shock induces changes in the expression and binding of ubiquitin in senescent Drosophila melanogaster

We examined the effect of aging on the expression of ubiquitin RNA and the binding of the ubiquitin polypeptide to proteins following heat shock in Drosophila melanogaster. Heat-shocked adult flies transcribe two major RNA species-one of 4.4 kb and one of about 6 kb that hybridize to the polyubiquitin-encoding probe. Several less abundant RNAs were also observed but the 4.4-kb band was present as the major RNA species in both stressed and nonstressed flies of both ages. The 6-kb fragment was more abundant in heat shocked aged flies than in younger flies. The quantitative expression of the polyubiquitin gene increased in proportion to the duration of the heat stress. Moreover, the induction of the polyubiquitin RNA was markedly elevated during aging following heat shock. Hybridization of Northern blots with the monoubiquitin gene probe revealed a band of 0.9 kb that was not significantly affected by heat stress. We also investigated the relationship between the changes in polyubiquitin gene expression and the formation of ubiquitin-protein complexes in aging heat-shocked flies. Heat shock to old flies results in a significant increase in the level of proteins immunoprecipitated by anti-ubiquitin antibodies. In the case of proteins synthesized 2 h before heat shock, most of the ubiquitinated proteins were of high molecular weight. For those proteins synthesized during a 30-min heat shock and the 2 h following heat shock, two major immunoprecipitated bands were observed: an 80-kD and a 70-kD polypeptide. The ubiquitination of a 60 kD protein was also observed in nonstressed flies, but its for mation was drastically reduced following heat shock. For proteins synthesized during and after heat shock from both age groups, the major ubiquitinated polypeptide is 70 kD. In all age groups, more ubiquitin complexes were formed with proteins synthesized before heat shock, than with proteins synthesized either during or after heat shock. This suggests that cellular proteins synthesized at physiological temperatures are more sensitive to heat induced damage than those synthesized during stress. These data support the hypothesis that in aging flies, heat shock induces an unusually high concentration of abnormal proteins which are targeted for degradation by the ubiquitin-dependent proteolytic system. © 1993Wiley-Liss, Inc.     

The heat shock response in hydra: immunological relationship of hsp60, the major heat shock protein of Hydra vulgaris,to the ubiquitous hsp70 family

The major heat shock protein (hsp) of Hydra vulgaris has recently been found to be a 60 kDa protein. Since in all organisms studied so far, the major heat shock protein is a 70 kDa protein, we have analyzed the relationship of hydra hsp60 to the highly conserved 70 kDa heat shock protein family. Genes and proteins related to the 70 kDa class of stress proteins are present in hydra. However, antibodies known to cross-react with hsp70 proteins in several different organisms do not cross-react with hydra hsp60 suggesting that hsp60 is not related to the conserved hsp70 proteins.     

Natural hyperthermia and expression of the heat shock protein Hsp70 affect developmental abnormalities in Drosophila melanogaster

We demonstrate that natural heat stress on wild larval Drosophila melanogaster results in severe developmental defects in >10% of eclosing adults, and that increased copy number of the gene encoding the major inducible heat shock protein of D. melanogaster, Hsp70, is sufficient to reduce the incidence of such abnormalities. Specifically, non-adult D. melanogaster inhabiting necrotic fruit experienced severe, often lethal heat stress in natural settings. Adult flies eclosing from wild larvae that had survived natural heat stress exhibited severe developmental anomalies of wing and abdominal morphology, which should dramatically affect fitness. The frequency of developmental abnormalities varied along two independent natural thermal gradients, exceeding 10% in adults eclosing from larvae developing in warm, sunlit fruit. When exposed to natural heat stress, D. melanogaster larvae with the wild-type number of hsp70 genes (n=10) developed abnormal wings significantly more frequently than a transgenic sister strain with 22 copies of the hsp70 gene. Received: 19 April 1999 / Accepted: 16 July 1999     

家蚕hsp20.4启动子克隆及其驱动表达产物EGT对家蚕蛹体发育的影响

为验证家蚕Bombyx mori热休克蛋白基因hsp20.4启动子的活性以及家蚕核多角体病毒egt的表达产物对家蚕发育的影响, 本实验通过PCR扩增分别得到hsp20.4启动子片段和egt片段。利用hsp20.4的启动子和红色荧光蛋白报告基因DsRed构建重组载体, 在家蚕BmN细胞以及家蚕组织中得到了瞬时表达, 表明所克隆的hsp20.4启动子序列具有热休克蛋白基因的启动子活性。又利用hsp20.4启动子和家蚕核多角体病毒的egt构建重组载体, 通过注射到蚕蛹中进行瞬时表达, 以检测egt表达产物对家蚕发育的影响, 经42℃ 1 h热诱导后, hsp20.4启动子控制的egt表达产物可以延迟家蚕发育。     

Nucleosomal organization of a BPV minichromosome containing a human H4 histone gene

Summary When the body temperature of rats is elevated to 42°C, four heat shock proteins, with the molecular weights of 70000, 71000, 85000, and 100000 (hsp 70, hsp 71, hsp 85, and hsp 100, respectively), are induced in various tissues of rats (Fujio et al., J Biochem 101, 181–187, 1987). Heat shock proteins are induced by various stresses other than heat in varieties of cultured cells, so we studied whether heat shock proteins are induced in intact rats by different treatments. Analysis of the translation products of poly(A) + RNA isolated from the livers of rats recovering from ischemia of the liver showed that mRNAs for hsp 70, hsp 71, and hsp 85 were induced. These hsp-mRNAs were also induced in the livers of rats 6 h after a partial hepatectomy, and had returned to control levels 24 h after the surgery. These results suggested that heat shock proteins have not only the function of protection against various stresses but also physiological functions in the normal growth and development of animals.     

pH对红褐斑腿蝗中肠主要蛋白酶活性的影响

为评价pH对红褐斑腿蝗Catantops pinguis (Stål)中肠蛋白酶活性的影响, 本文用3种专性底物测定了不同pH环境下蝗虫中肠类胰蛋白酶和类胰凝乳蛋白酶的活性。结果表明: 雄性红褐斑腿蝗中肠肠液的pH值为6.92±0.043, 雌性为7.03±0.054, 两性间差异不显著（P>0.05）。并且发现3种蛋白酶的最适pH值各不相同, 其中雌雄虫的强碱性类胰蛋白酶（以BAPNA为底物）最适pH分别为8.5和10.5; 雌雄虫的弱碱性类胰蛋白酶（以TAME为底物）最适pH分别为9.0和9.5; 而雌雄虫的类胰凝乳蛋白酶（以BTEE为底物）最适pH雌性为8.5, 雄性为8.0。统计结果显示, pH对红褐斑腿蝗中肠蛋白酶活性影响显著（P<0.01）, 两性间蛋白酶活性差异显著（P<0.01）。在最适pH情况下, 雌性的类胰蛋白酶活性高于雄性, 而类胰凝乳蛋白酶活性则是雄性高于雌性。在中肠pH范围内雌性比雄性具有更高的消化蛋白酶活性, 显示雌性具有较强的食物处理能力以摄取更多的营养物质为繁殖活动（孕卵）作准备, 而该种蝗虫最适pH范围较宽, 可能与其取食植物范围较宽有关。     

Expression of a heat-inducible gene in transfected mosquito cells

The evolutionary conservation of the heat shock response suggests that plasmids containing promoters from Drosophila heat shock protein (hsp) genes will be useful in the development of gene transfer procedures for cell lines representing a variety of insect species. Conditions for induction of endogenous hsp genes and for expression of the chloramphenicol acetyltransferase (CAT) gene regulated by the Drosophila hsp 70 promoter were examined in Aedes albopictus (mosquito) cells. Five hsps, ranging in size from 27,000 to 90,000 D, were induced in A. albopictus cells during incubation at 41°C in medium containing [³⁵S]methionine. Relative synthesis of these proteins at 37 and 41°C indicated that Aedes hsp 66 is homologous to Drosophila hsp 70. Detection of CAT activity in transfected mosquito cells was enhanced 10-fold under heat shock conditions (6 h, 41°C) based on maximal expression of hsp 66, relative to conditions defined for expression of hsp 70 in Drosophila cells. Analysis of the endogenous heat shock response may be essential to the optimal use of plasmids containing the Drosophila hsp 70 promoter with other insect cell types.     

Heat Shock Response in the Thermophilic Enteric Yeast Arxiozyma telluris

Heat stress tolerance was examined in the thermophilic enteric yeast Arxiozyma telluris. Heat shock acquisition of thermotolerance and synthesis of heat shock proteins hsp 104, hsp 90, hsp 70, and hsp 60 were induced by a mild heat shock at temperatures from 35 to 40°C for 30 min. The results demonstrate that a yeast which occupies a specialized ecological niche exhibits a typical heat shock response.     

Differential heat shock gene expression in chick blastula

Summary The component areas of chick blastula show differential expression of heat shock genes. The area opaca (ao), marginal zone (mz) and central area (ca) components of the epiblast display distinct quantitative and minor qualitative differences in the heat-induced and heat-repressible proteins, but are clearly different from the primary hypoblast (endoderm) in their expression of a given stress protein (hsp) as a response to heat shock. The major proteins synthesized in the component areas of epiblast in response to heat shock include hsp 18, 24, 70 and 89 Kd. Two-dimensional electrophoresis shows that each of these proteins consists of multiple charged species. The hypoblast expresses only hsp 70 Kd at non-significant levels and shows marked inhibition in the level of synthesis of heat-shock-repressible proteins. Heat shock during the blastula stage results in an increase in the size of the blastoderm and disrupts normal embryonic development. The heat shock genes provide an important molecular marker, which attests to regional specification in the chick blastula.