Phylogenetic Analysis of Cryptosporidium Parasites Based on the Small-Subunit rRNA Gene Locus

Biological data support the hypothesis that there are multiple species in the genus Cryptosporidium, but a recent analysis of the available genetic data suggested that there is insufficient evidence for species differentiation. In order to resolve the controversy in the taxonomy of this parasite genus, we characterized the small-subunit rRNA genes of Cryptosporidium parvum, Cryptosporidium baileyi, Cryptosporidium muris, and Cryptosporidium serpentis and performed a phylogenetic analysis of the genus Cryptosporidium. Our study revealed that the genus Cryptosporidium contains the phylogenetically distinct species C. parvum, C. muris, C. baileyi, and C. serpentis, which is consistent with the biological characteristics and host specificity data. The Cryptosporidium species formed two clades, with C. parvum and C. baileyi belonging to one clade and C. muris and C. serpentis belonging to the other clade. Within C. parvum, human genotype isolates and guinea pig isolates (known as Cryptosporidium wrairi) each differed from bovine genotype isolates by the nucleotide sequence in four regions. A C. muris isolate from cattle was also different from parasites isolated from a rock hyrax and a Bactrian camel. Minor differences were also detected between C. serpentis isolates from snakes and lizards. Based on the genetic information, a species- and strain-specific PCR-restriction fragment length polymorphism diagnostic tool was developed.     

重金属对HeLa细胞中热激蛋白70(HSP70)表达的影响

热激蛋白(HSPs)是受热等因素刺激后而诱导产生的蛋白质,是一类可以调节应激反应并且保护机体防止细胞损伤的蛋白质,在机体的应激反应中具有重要作用。它们作为一般标志物被广泛应用于环境监测中。CdCl2,Cu2+,Zn2+这三种重金属是普遍存在的环境污染物,对人体和动物的一些主要器官造成损伤。以HeLa细胞(子宫肿瘤细胞)为材料,采用不同浓度的CdCl2,Cu2+,Zn2+三种重金属物质诱导细胞,并利用免疫荧光染色(IFS),SDS-PAGE,Western blotting和RT-PCR四种手段分别从基因和蛋白质的水平来研究重金属对HSP70表达的影响。结果表明,三种金属对HSP70表达的影响程度为CdCl2>Zn2+>Cu2+,且HSP70的产生量与重金属的浓度呈正相关。通过研究,以建立一种对HSPs的表达更有效的检测手段用于以后的研究。     

Muscle-specific MicroRNA1 (miR1) Targets Heat Shock Protein 70 (HSP70) during Dexamethasone-mediated Atrophy

High doses of dexamethasone (Dex) or myostatin (Mstn) induce severe atrophy of skeletal muscle. Here we show a novel microRNA1 (miR1)-mediated mechanism through which Dex promotes skeletal muscle atrophy. Using both C2C12 myotubes and mouse models of Dex-induced atrophy we show that Dex induces miR1 expression through glucocorticoid receptor (GR). We further show that Mstn treatment facilitates GR nuclear translocation and thereby induces miR1 expression. Inhibition of miR1 in C2C12 myotubes attenuated the Dex-induced increase in atrophy-related proteins confirming a role for miR1 in atrophy. Analysis of miR1 targets revealed that HSP70 is regulated by miR1 during atrophy. Our results demonstrate that increased miR1 during atrophy reduced HSP70 levels, which resulted in decreased phosphorylation of AKT, as HSP70 binds to and protects phosphorylation of AKT. We further show that loss of pAKT leads to decreased phosphorylation, and thus, enhanced activation of FOXO3, up-regulation of MuRF1 and Atrogin-1, and progression of skeletal muscle atrophy. Based on these results, we propose a model whereby Dex- and Mstn-mediated atrophic signals are integrated through miR1, which then either directly or indirectly, inhibits the proteins involved in providing protection against atrophy.     

Phylogenetic relationships of Cryptosporidium parasites based on the 70-kilodalton heat shock protein (HSP70) gene

We have characterized the nucleotide sequences of the 70-kDa heat shock protein (HSP70) genes of Cryptosporidium baileyi, C. felis, C. meleagridis, C. muris, C. serpentis, C. wrairi, and C. parvum from various animals. Results of the phylogenetic analysis revealed the presence of several genetically distinct species in the genus Cryptosporidium and eight distinct genotypes within the species C. parvum. Some of the latter may represent cryptic species. The phylogenetic tree constructed from these sequences is in agreement with our previous results based on the small-subunit rRNA genes of Cryptosporidium parasites. The Cryptosporidium species formed two major clades: isolates of C. muris and C. serpentis formed the first major group, while isolates of C. felis, C. meleagridis, C. wrairi, and eight genotypes of C. parvum formed the second major group. Sequence variations were also observed between C. muris isolates from ruminants and rodents. The HSP70 gene provides another useful locus for phylogenetic analysis of the genus Cryptosporidium.     

不同缺氧时间对神经细胞中外源性HSP70表达的影响

目的:探讨不同缺氧时间刺激对神经细胞中外源性HSP70基因表达的影响.方法:采用重组腺病毒vAd-HSP70感染体外原代培养的神经细胞,48h后给予感染细胞不同缺氧时间(缺氧0h,0.5h,1h,2h,3h,4h)刺激,再复氧处理后,用RT-PCR和Westernblotting检测重组腺病毒介导的HSP70基因在神经元和胶质细胞中的转录表达.结果:重组腺病毒vAd-HSP70感染的神经细胞可检测到外源性HSP70基因的转录表达.经缺氧再复氧处理后,随着缺氧时间延长,HSP70转录水平和蛋白表达都增加,缺氧1h时最高(1.1539±0.0315,0.9699±0.0023),其次是缺氧2h时(1.0398±0.0723,0.9622±0.0026),随后依次降低,缺氧4h组(0.7477±0.0328,0.9335±0.0034)HSP70表达最低,与其他各组比较有统计学意义(P<0.05).结论:缺氧2h内给予神经细胞再复氧处理外源性HSP70表达水平较高,有利于神经细胞功能的恢复.     

Herpes Simplex Virus-Induced Expression of 70 kDa Heat Shock Protein (HSP70) Requires Early Protein Synthesis But Not Viral DNA Replication

The major 70 kDa heat shock protein (HSP70), which is scarcely expressed in unstressed rodent cells, was apparently induced by infection with herpes simplex virus (HSV). Infection with HSV types 1 and 2 elevated HSP70 mRNA levels within 4 hr post-infection. HSP70 synthesis and accumulation increased in HSV-infected cells. Irradiation of HSV with UV-light abolished the ability to induce HSP70 mRNA. Inhibitors of viral DNA synthesis did not affect the induction of HSP70 in infected cells. Protein synthesis within 2 hr after infection was necessary for HSP70 induction.     

人热休克蛋白70和热休克固有蛋白70的基因克隆和表达

目的:克隆人热休克蛋白70(HSP70)和热休克固有蛋白70(HSC70)基因,并在大肠杆茵中表达,获得重组蛋白.方法:用RT-PCR法从HepG2细胞中扩增HSP70及HSC70cDNA序列.测序后,将相应的cDNA插入pRSET-A表达载体,在大肠杆菌中表达,重组蛋白纯化后用SDS-PAGE及Western Blotting分析.结果:DNA序列结果显示.本研究所获得的HSP70及HSC70 cDNA序列与参考序列一致.将全长cDNA分别插入表达质粒后,转化BL21(DE3)细菌,在IPTG的诱导下,表达产物SDS-PAGE显示相应的分子量(70kDa)位置有明显的蛋白条带.Western Blotting结果证实了其为目的蛋白,经镍树脂柱纯化,获得了相应的重组多肽.结论:成功构建了原核表达重组质粒HSP70-pRSET-A和HSC70-pRSET-A,并获得了纯化的重组人HSP70和HSC70蛋白,为进一步研究这两种蛋白的结构、功能及临床应用奠定了基础.     

Transient Expression Analysis of Agave sisalana Heat Shock Protein Gene (AsHSP70) in Model Species (Nicotiana benthamiana) under Heat Stress

Biology Bulletin - This study is aimed at investigating whether overexpression of the heat shock protein gene (AsHSP70) isolated from Agave sisalana will improve the heat stress tolerance in...     

柞蚕热休克蛋白70基因的克隆和序列分析

HSP70蛋白是受热等因素刺激后而诱导产生的蛋白质,是热休克蛋白家族中最重要的一员。采用RT-PCR方法克隆了柞蚕(Antheraea pernyi)热休克蛋白70基因(HSP70)的ORF序列(GenBank登录号:GU945199),该片段的序列长度为1905bp。生物信息学分析表明,该序列共编码634个氨基酸,预测蛋白的等电点和分子量大小分别为5.62kD和69.5kD。具有HSP70的保守性结构特征,与天蚕(Antheraea yamamai)、家蚕(Bombyx mor)、甘蓝夜蛾(Mamestra brassicae)、棉铃虫(Heliothis viriplaca)、甜菜夜蛾(Spodoptera exigua)、烟草夜蛾(Manduca sexta1)、膜翅目寄生蜂(Cotesia rubecula)的同源性分别为95.7%、78.5%、76.1%、77.3%、76.6%、74.7%、65.9%。根据它们的一级结构构建了系统进化树,进一步确立了它们之间的亲缘关系。     

加热调控的溶瘤腺病毒载体构建及其特征研究

溶瘤腺病毒作为近年来新兴的肿瘤基因治疗策略,因具有“细胞溶解”和“旁观者效应”而备受关注．构建了受热休克蛋白70(heat shock protein 70, HSP70)基因启动子调控的溶瘤腺病毒载体Ad-HSP70p-E1A,观察该病毒与热疗联合应用对肺癌细胞生长的抑制作用和带动治疗基因在肺癌细胞中表达的效果．体外实验结果表明,Ad-HSP70p-E1A在肺癌细胞株A549内能较好地实现自身复制,并产生一定的溶瘤作用,在联合热疗后,Ad-HSP70p-E1A的自身复制能力和溶瘤效果分别增强了2～10倍和5倍以上．此外,Ad-HSP70p-E1A还可通过反式提供E1A蛋白而使10 moi用量的复制缺陷型腺病毒AdGFP、Ad-CMV-hGMCSF和Ad-CMV-mIL12的表达提升76.64倍、5倍和7倍．     

The 70-Kilodalton Heat Shock Cognate Can Act as a Molecular Chaperone during the Membrane Translocation of a Plant Secretory Protein Precursor

When a model secretory precursor was synthesized in vitro and analyzed by rate-zonal sedimentation, it appeared to be associated with other proteins present in a wheat germ extract. At least one of the associated proteins is a member of the 70-kD family of stress proteins. It was possible to immunoprecipitate the secretory precursor with anti-heat shock cognate 70 (Hsc70) antibodies in the absence but not in the presence of ATP, suggesting that the association was specific. ATP-sensitive association is one diagnostic characteristic of molecular chaperone-type proteins. Increasing incubation temperature decreased the amount of precursor associated with Hsc70. A method was developed for the removal of Hsc70 from a wheat germ in vitro translation mixture by immunoprecipitation. Cotranslational translocation and processing of the secretory precursor by maize endosperm microsomes were inefficient in the Hsc70-depleted system but were greatly stimulated by addition of purified preparations of various heat shock 70 proteins (Hsp70s). Cytosolic Hsc70 from maize endosperm was capable of autophosphorylation in vitro. Phosphorylated Hsc70 was much less efficient in promoting membrane translocation of the secretory precursor. These results suggest that chaperone function in vivo could be regulated by phosphorylation.     

Identification of Mixed Lineage Leukemia 1(MLL1) Protein as a Coactivator of Heat Shock Factor 1(HSF1) Protein in Response to Heat Shock Protein 90 (HSP90) Inhibition

Heat shock protein 90 (HSP90) inhibition inhibits cancer cell proliferation through depleting client oncoproteins and shutting down multiple oncogenic pathways. Therefore, it is an attractive strategy for targeting human cancers. Several HSP90 inhibitors, including AUY922 and STA9090, show promising effects in clinical trials. However, the efficacy of HSP90 inhibitors may be limited by heat shock factor 1 (HSF1)-mediated feedback mechanisms. Here, we identify, through an siRNA screen, that the histone H3 lysine 4 methyltransferase MLL1 functions as a coactivator of HSF1 in response to HSP90 inhibition. MLL1 is recruited to the promoters of HSF1 target genes and regulates their expression in response to HSP90 inhibition. In addition, a striking combination effect is observed when MLL1 depletion is combined with HSP90 inhibition in various human cancer cell lines and tumor models. Thus, targeting MLL1 may block a HSF1-mediated feedback mechanism induced by HSP90 inhibition and provide a new avenue to enhance HSP90 inhibitor activity in human cancers.     

热休克蛋白70的主要功能和应用前景

热休克蛋白70(HSP70)是生物体在各种应激条件下产生的蛋白之一,具有维持细胞自身稳定等多种生物学功能.随着研究的深入,在生物学的功能不断被发现的同时,HSP70的应用前景也变得越来越广泛.     

Apoptosis Versus Cell Differentiation: Role of Heat Shock Proteins HSP90, HSP70 and HSP27

Heat shock proteins HSP27, HSP70 and HSP90 are molecular chaperones whose expression is increased after many different types of stress. They have a protective function helping the cell to cope with lethal conditions. The cytoprotective function of HSPs is largely explained by their anti-apoptotic function. HSPs have been shown to interact with different key apoptotic proteins. As a result, HSPs can block essentially all apoptotic pathways, most of them involving the activation of cystein proteases called caspases. Apoptosis and differentiation are physiological processes that share many common features, for instance, chromatin condensation and the activation of caspases are frequently observed. It is, therefore, not surprising that many recent reports imply HSPs in the differentiation process. This review will comment on the role of HSP90, HSP70 and HSP27 in apoptosis and cell differentiation. HSPs may determine de fate of the cells by orchestrating the decision of apoptosis versus differentiation.Key Words: apoptosis, differentiation, heat shock proteins, chaperones, cancer cells, anticancer drugs     

The Inhibition of Heat Shock Protein 90 Facilitates the Degradation of Poly-Alanine Expanded Poly (A) Binding Protein Nuclear 1 via the Carboxyl Terminus of Heat Shock Protein 70-Interacting Protein

Background

Since the identification of poly-alanine expanded poly(A) binding protein nuclear 1 (PABPN1) as the genetic cause of oculopharyngeal muscular dystrophy (OPMD), considerable progress has been made in our understanding of the pathogenesis of the disease. However, the molecular mechanisms that regulate the onset and progression of the disease remain unclear.

Results

In this study, we show that PABPN1 interacts with and is stabilized by heat shock protein 90 (HSP90). Treatment with the HSP90 inhibitor 17-AAG disrupted the interaction of mutant PABPN1 with HSP90 and reduced the formation of intranuclear inclusions (INIs). Furthermore, mutant PABPN1 was preferentially degraded in the presence of 17-AAG compared with wild-type PABPN1 in vitro and in vivo. The effect of 17-AAG was mediated through an increase in the interaction of PABPN1 with the carboxyl terminus of heat shock protein 70-interacting protein (CHIP). The overexpression of CHIP suppressed the aggregation of mutant PABPN1 in transfected cells.

Conclusions

Our results demonstrate that the HSP90 molecular chaperone system plays a crucial role in the selective elimination of abnormal PABPN1 proteins and also suggest a potential therapeutic application of the HSP90 inhibitor 17-AAG for the treatment of OPMD.     

Multifaceted Role of Heat Shock Protein 70 in Neurons

Heat shock protein 70 (Hsp70) plays important roles in neural protection from stress by assisting cellular protein folding. In this review we discuss the current understanding of inducible and constitutive Hsp70 in maintaining and protecting neuronal synaptic function under normal and stressed conditions.