Geranylgeranylaceton induces heat shock protein 72 in skeletal muscle cells

Effects of an antiulcer drug, geranylgeranylaceton (GGA), and/or heat-stress on 72 kDa heat shock protein (HSP72) expression and protein content in cultured skeletal muscle cells were studied. Mouse skeletal muscle cells (C(2)C(12)) were subjected to either 1) control (cultured at 37 degrees C without GGA), 2) GGA administration (10(-11) - 10(-8) M), 3) heat-stress at 41 degrees C for 60 min, or 4) GGA administration combined with heat-stress. Expression of HSP72 was up-regulated by GGA administration. Heat-stress further enhanced the GGA-related up-regulation of HSP72. Administration of GGA caused an increase of muscular protein content as a dose-dependent manner. Protein synthesis was also stimulated by heat-stress alone in myotubes. It was suggested that GGA stimulates the differentiation of myoblasts and protein synthesis. These observations may also suggest that the administration of GGA could be one of the useful tools to gain muscular mass not only in athletes, but also in patients during rehabilitation.     

Proteomic profiling of cardiomyopathic tissue from the aged mdx model of Duchenne muscular dystrophy reveals a drastic decrease in laminin,nidogen and annexin

The majority of patients afflicted with Duchenne muscular dystrophy develop cardiomyopathic complications, warranting large‐scale proteomic studies of global cardiac changes for the identification of new protein markers of dystrophinopathy. The aged heart from the X‐linked dystrophic mdx mouse has been shown to exhibit distinct pathological aspects of cardiomyopathy. In order to establish age‐related alterations in the proteome of dystrophin‐deficient hearts, cardiomyopathic tissue from young versus aged mdx mice was examined by label‐free LC‐MS/MS. Significant age‐dependent alterations were established for 67 proteins, of which 28 proteins were shown to exhibit a lower abundance and 39 proteins were found to be increased in their expression levels. Drastic changes were demonstrated for 17 proteins, including increases in Ig chains and transferrin, and drastic decreases in laminin, nidogen and annexin. An immunblotting survey of young and old wild‐type versus mdx hearts confirmed these proteomic findings and illustrated the effects of natural aging versus dystrophin deficiency. These proteome‐wide alterations suggest a disintegration of the basal lamina structure and cytoskeletal network in dystrophin‐deficient cardiac fibres, increased levels of antibodies in a potential autoimmune reaction of the degenerating heart, compensatory binding of excess iron and a general perturbation of metabolic pathways in dystrophy‐associated cardiomyopathy.     

番茄热激蛋白90的全基因组鉴定及分析

热激蛋白90(Heat shock protein 90,Hsp90)是植物应对不良环境胁迫产生的一类特定的抗逆蛋白。文章以番茄(Solanum lycopersicum L.)基因组数据为平台,借助生物信息学方法对Hsp90基因家族进行鉴定与分析。结果表明,番茄至少含有7个Hsp90基因,不均匀分布在6条染色体上,氨基酸序列长度为267~794aa,内含子数目为2~19;共线性分析发现两对基因(Hsp90-1和Hsp90-3,Hsp90-5和Hsp90-7)以片段重复形式存在。MEME(Multiple Em for Motif Elicitation)分析显示,番茄Hsp90基因编码的氨基酸序列具有多个保守基序;聚类分析揭示番茄、水稻(Oryza sativa L.)和拟南芥(Arabidopsis thaliana L.)Hsp90基因可以分为5组,存在3对直系同源基因和4对旁系同源基因;基于RNA-seq数据库表达分析发现,3个基因(Hsp90-5、Hsp90-6和Hsp90-7)在营养器官和生殖器官中表达量较高,4个基因(Hsp90-1、Hsp90-2、Hsp90-3和Hsp90-4)除在番茄转色后10 d的果实中表达量较高外,其余组织中表达量均较低;对Hsp90基因启动子序列进行分析,发现了多个参与植物对逆境胁迫的顺式作用元件,如HSE、CCAAT-box。此外,qRT-PCR检测结果表明,在叶片热胁迫条件下,番茄Hsp90基因的表达量均存在增强趋势,表明这些基因参与了番茄叶片应对高温胁迫的反应。研究结果为鉴定番茄Hsp90基因的功能和进化起源奠定了基础。     

Proteome analysis of rat liver mitochondria reveals a possible compensatory response to endotoxic shock

Organ failure induced by endotoxic shock has recently been associated with affected mitochondrial function. In this study, effects of in vivo lipopolysaccharide-challenge on protein patterns of rat liver mitochondria in treated animals versus controls were studied by two-dimensional electrophoresis (differential image gel electrophoresis). Significant upregulation was found for ATP-synthase alpha chain and superoxide dismutase [Mn]. Our data suggest that endotoxic shock mediated changes in the mitochondrial proteome contribute to a compensatory reaction (adaptation to endotoxic shock) rather than to a mechanism of cell damage.     

Contribution of small heat shock proteins to muscle development and function

Investigations undertaken over the past years have led scientists to introduce the concept of protein quality control (PQC) systems, which are responsible for polypeptide processing. The PQC system monitors proteostasis and involves activity of different chaperones such as small heat shock proteins (sHSPs). These proteins act during normal conditions as housekeeping proteins regulating cellular processes, and during stress conditions. They also mediate the removal of toxic misfolded polypeptides and thereby prevent development of pathogenic states. It is postulated that sHSPs are involved in muscle development. They could act via modulation of myogenesis or by maintenance of the structural integrity of signaling complexes. Moreover, mutations in genes coding for sHSPs lead to pathological states affecting muscular tissue functioning.     

Proteomic DIGE analysis of the mitochondria‐enriched fraction from aged rat skeletal muscle

Skeletal muscle aging is associated with a loss in tissue mass and contractile strength, as well as fiber type shifting and bioenergetic adaptation processes. Since mitochondria represent the primary site for energy generation via oxidative phosphorylation, we investigated potential changes in the expression pattern of the mitochondrial proteome using the highly sensitive DIGE approach. The comparative analysis of the mitochondria‐enriched fraction from young adult versus aged muscle revealed an age‐related change in abundance for 39 protein species. MS technology identified the majority of altered proteins as constituents of muscle mitochondria. An age‐dependent increase was observed for NADH dehydrogenase, the mitochondrial inner membrane protein mitofilin, peroxiredoxin isoform PRX‐III, ATPase synthase, succinate dehydrogenase, mitochondrial fission protein Fis1, succinate‐coenzyme A ligase, acyl‐coenzyme A dehydrogenase, porin isoform VDAC2, ubiquinol‐cytochrome c reductase core I protein and prohibitin. Immunoblotting, enzyme testing and confocal microscopy were used to validate proteomic findings. The DIGE‐identified increase in key mitochondrial elements during aging agrees with the concept that sarcopenia is associated with a shift to a slower contractile phenotype and more pronounced aerobic‐oxidative metabolism. This suggests that mitochondrial markers are reliable candidates that should be included in the future establishment of a biomarker signature of skeletal muscle aging.     

热休克蛋白在宫颈癌和癌前病变中的表达

目的：研究几种主要热休克蛋白（HSPs）在宫颈癌和癌前病变组织中的表达。方法：根据病理诊断,把478例宫颈活检标本分为宫颈癌组（63例）、宫颈上皮内瘤（cervical intraepithelial neoplasia,CIN）组（106例）、宫颈炎组（293例）及正常宫颈组（16例）。采用以特异性复合cRNA为内参照的定量RT-PCR法,检测各组标本的HSP70、HSP90α和HSP90β mRNA的表达。结果：①HSP70、HSP90α和HSP90βmRNA在宫颈浸润癌、CIN、宫颈炎及正常宫颈组织中的表达量均呈现阶梯式下降．差异均有极显著意义（P〈0．01）。②HSP90βmRNA在晚期（FIGOⅡb-Ⅳ）宫颈癌中的表达比早期（FIGOⅠ-Ⅱa）表达高（P〈0．05）。③HSP70和HSP90βmRNA在低分化宫颈癌中的表达比高分化表达高（P〈0．05）。④HSP70、HSP90α和HSP90βmRNA在不同组织类型宫颈癌中的表达均无显著性差异（P〉0．05）。结论：热休克蛋白在宫颈癌的发生和发展中起着重要的协同作用。HSP70和HSP90α与宫颈癌细胞的转化和增殖密切相关,HSP90β可能参与细胞的分化。     

Proteomics analysis of two heat shock proteins in insects

Heat shock proteins (HSPs) are found in all living organisms, from bacteria to humans, are expressed under stress. In this study, characterization of two families of HSP including HSP60 and HSP70 protein was compared in different insect species from different orders. According to the conserved motifs analysis, none of the motifs were shared by all insects of two protein families but each family had their own common motifs. Functional and structural analyses were carried out on seven different insect species from each protein family as the representative samples. These analyses were performed via ExPASy database tools. The tertiary structure of Drosophila melanogater as the sample of each protein family were predicted by the Phyre2 and TM-score servers then their qualities were verified by SuperPose and PROCHECK. The tertiary structures were predicted through the “c4pj1E” model (PDB Accession Code: 4pj1) in HSP60 family and “c3d2fC” model (PDB Accession Code: 3d2f) in HSP70 family. The protein phylogenetic tree was constructed using the Neighbor-joining (NJ) method by Molecular Evolutionary Genetic Analysis (MEGA) 6.06. According to the results, there was a high identity of HSP60 and HSP70 families so that they should be derived from a common ancestor however they belonged to separate groups. In protein–protein interaction analysis by STRING 10.0, 10 common enriched pathways of biological process, molecular function and Kyoto Encyclopedia of Genes and Genomes (KEGG) were identified in D. melanogaster in both families. The obtained data provide a background for bioinformatic studies of the function and evolution of insects and other organisms.

Communicated by Ramaswamy H. Sarma     

Induced thermotolerance in bovine two-cell embryos and the role of heat shock protein 70 in embryonic development

Induced thermotolerance is a phenomenon whereby exposure to a mild heat shock can induce heat shock proteins (HSP) and other cellular changes to make cells more resistant to a subsequent, more severe heat shock. Given that the 2-cell bovine embryo is very sensitive to heat shock, but can also produce HSP70 in response to elevated temperature, experiments were conducted to test whether 2-cell embryos could be made to undergo induced thermotolerance. Another objective was to test the role of the heat-inducible form of heat shock protein 70 (HSP70i) in development and sensitivity of bovine embryos to heat shock. To test for induced thermotolerance, 2-cell bovine embryos were first exposed to a mild heat shock (40 degrees C for 1 hr, or 41 degrees C or 42 degrees C for 80 min), allowed to recover at 38.5 degrees C and 5% (v/v) CO2 for 2 hr, and then exposed to a severe heat shock (41 degrees C for 4.5, 6, or 12 hr). Regardless of the conditions, previous exposure to mild heat shock did not reduce the deleterious effect of heat shock on development of embryos to the blastocyst stage. The role of HSP70i in embryonic development was tested in two experiments by culturing embryos with a monoclonal antibody to the inducible form of HSP70. At both 38.5 degrees C and 41 degrees C, the proportion of 2-cell embryos that developed to blastocyst was reduced (P < 0.05) by addition of anti-HSP70i to the culture medium. In contrast, sensitivity to heat shock was not generally increased by addition of antibody. In conclusion, bovine 2-cell embryos appear incapable of induced thermotolerance. Lack of capacity for induced thermotolerance could explain in part the increased sensitivity of 2-cell embryos to heat shock as compared to embryos at later stages of development. Results also implicate a role for HSP70i in normal development of bovine embryos.     

Aging skeletal muscle shows a drastic increase in the small heat shock proteins alphaB-crystallin/HspB5 and cvHsp/HspB7

Most heat shock proteins operate as molecular chaperones and play a central role in the maintenance of normal cellular function. In skeletal muscle, members of the alpha-crystallin domain-containing family of small heat shock proteins are believed to form a cohort of essential stress proteins. Since alphaB-crystallin (alphaBC/HspB5) and the cardiovascular heat shock protein (cvHsp/HspB7) are both implicated in the molecular response to fibre transformation and muscle wasting, it was of interest to investigate the fate of these stress proteins in young adult versus aged muscle. The age-related loss of skeletal muscle mass and strength, now generally referred to as sarcopenia, is one of the most striking features of the senescent organism. In order to better understand the molecular pathogenesis of age-related muscle wasting, we have performed a two-dimensional gel electrophoretic analysis, immunoblotting and confocal microscopy study of aged rat gastrocnemius muscle. Fluorescent labelling of the electrophoretically separated soluble muscle proteome revealed an overall relatively comparable protein expression pattern of young adult versus aged fibres, but clearly an up-regulation of alphaBC and cvHsp. This was confirmed by immunofluorescence microscopy and immunoblot analysis, which showed a dramatic age-induced increase in these small heat shock proteins. Immunodecoration of other major stress proteins showed that they were not affected or less drastically changed in their expression in aged muscle. These findings indicate that the increase in muscle-specific small heat shock proteins constitutes an essential cellular response to fibre aging and might therefore be a novel therapeutic option to treat sarcopenia of old age.     

Opposite pathobiochemical fate of pyruvate kinase and adenylate kinase in aged rat skeletal muscle as revealed by proteomic DIGE analysis

Sarcopenia is the drastic loss of skeletal muscle mass and strength during ageing. In order to better understand the molecular pathogenesis of age-related muscle wasting, we have performed a DIGE analysis of young adult versus old rat skeletal muscle. Proteomic profiling revealed that out of 2493 separated 2-D spots, 69 proteins exhibited a drastically changed expression. Age-dependent alterations in protein abundance indicated dramatic changes in metabolism, contractile activity, myofibrillar remodelling and stress response. In contrast to decreased levels of pyruvate kinase (PK), enolase and phosphofructokinase, the mitochondrial ATP synthase, succinate dehydrogenase, malate dehydrogenase, isocitrate dehydrogenase and adenylate kinase (AK) were increased in senescent fibres. Higher expression levels of myoglobin and fatty acid binding-protein indicated a shift to more aerobic-oxidative metabolism in a slower-twitching aged fibre population. The drastic increase in alphaB-crystallin and myotilin demonstrated substantial filament remodelling during ageing. An immunoblotting survey of selected muscle proteins confirmed the pathobiochemical transition process in aged muscle metabolism. The proteomic analysis of aged muscle has identified a large cohort of new biomarkers of sarcopenia including opposite changes in PK and AK, which might be useful for the design of improved diagnostic procedures and/or therapeutic strategies to counteract ageing-induced muscle degeneration.     

Specific induction of heat shock protein 27 by glucocorticoid in osteoblasts

It is generally recognized that osteoporosis is a common complication of patients with glucocorticoid excess and that glucocorticoid receptor is associated with heat shock protein (HSP) 70 and HSP90 in a heterocomplex. In the present study, we investigated whether glucocorticoid induces HSP27, HSP70, and HSP90 in osteoblast-like MC3T3-E1 cells. Dexamethasone time-dependently increased the levels of HSP27, while having no effect on the levels of HSP70 or HSP90. The effect of dexamethasone was dose-dependent in the range between 0.1 nM and 0.1 microM. Dexamethasone induced an increase of the levels of mRNA for HSP27. Dexamethasone induced the phosphorylation of p38 mitogen-activated protein (MAP) kinase. SB203580 and PD169316, inhibitors of p38 MAP kinase, suppressed the HSP27 accumulation by dexamethasone. In addition, SB203580 reduced the dexamethasone-stimulated increase of the mRNA levels for HSP27. The dexamethasone-induced phosphorylation of p38 MAP kinase was reduced by SB203580. These results strongly suggest that glucocorticoid stimulates the induction of neither HSP70 nor HSP90, but HSP27 in osteoblasts, and that p38 MAP kinase is involved in the induction of HSP27.     

A specific heat shock protein enhances the expression of mammalian olfactory receptor proteins

Multiple trials failed to express significant amounts of olfactory receptors in heterologous cells as they are typically retained in the endoplasmic reticulum (ER). Evidence is accumulating that cell-type-specific accessory proteins regulate the folding of olfactory receptors, their exit from the ER, and the trafficking to the plasma membrane of the olfactory cilia where the receptors gain access to odorants. We found Hsc70t, a testis-enriched variant of the Hsp70 family of heat shock proteins which is specifically expressed in post-meiotic germ cells, in the olfactory epithelium of mouse and human. Cotransfected HEK293 cells with Hsc70t and different green fluorescent protein-tagged odorant receptors (ORs) from mouse and man showed a significantly enhanced OR expression. Hsc70t expression also changed the amount of cells functionally expressing olfactory receptors at the cell surface as the number of cells responding to odorants in Ca2+-imaging experiments significantly increased. Our results show that Hsc70t helps expression of ORs in heterologous cell systems and helped the characterization of an "orphan" human olfactory receptor.