汉滩病毒核蛋白与热休克蛋白GRP94、HSP27的相互作用

为研究汉滩病毒(Hantaan virus, HTNV)感染诱导乳鼠脑组织热休克蛋白GRP94、HSP27与病毒蛋白的相互关系,选出生2～3d的昆明乳鼠实验性感染汉滩病毒,取8d后发病乳鼠脑组织部分制石蜡切片,用免疫组化结合共聚焦显微镜检测组织中病毒抗原及GRP94、HSP27的表达,部分制匀浆液,用ELISA、免疫共沉淀方法分析病毒抗原和GRP94、HSP27的关系.结果示汉滩病毒感染诱导乳鼠脑组织神经细胞高表达GRP94且与细胞内病毒抗原有共定位关系,但未见HSP27诱导高表达;免疫共沉淀显示汉滩病毒核心抗原(HINV-NP)与GRP94、HSP27呈非共价复合物形式存在.该结果为进一步探讨HSPs在病毒感染复制中的作用以及抗病毒感染方面提供了有意义的实验资料.     

汉滩病毒核蛋白与热休克蛋白GRP94、HSP27的相互作用

为研究汉滩病毒(Hantaan virus,HTNV)感染诱导乳鼠脑组织热休克蛋白GRP94、HSP27与病毒蛋白的相互关系,选出生2—3d的昆明乳鼠实验性感染汉滩病毒,取8d后发病乳鼠脑组织部分制石蜡切片,用免疫组化结合共聚焦显微镜检测组织中病毒抗原及GRP94、HSP27的表达,部分制匀浆液,用ELISA、免疫共沉淀方法分析病毒抗原和GRP94、HSP27的关系。结果示汉滩病毒感染诱导乳鼠脑组织神经细胞高表达GRP94且与细胞内病毒抗原有共定位关系,但未见HSP27诱导高表达;免疫共沉淀显示汉滩病毒核心抗原(HINV—NP)与GRP94、HSP27呈非共价复合物形式存在。该结果为进一步探讨HSPs在病毒感染复制中的作用以及抗病毒感染方面提供了有意义的实验资料。     

葡萄糖调节蛋白78研究进展

葡萄糖调节蛋白78(glucose regulated protein 78kD, GRP78)又称免疫球蛋白重链结合蛋白(immunoglobulin heavy chain binding protein, Bip),是位于内质网上重要的分子伴侣,属热休克蛋白70家族的一员,GRP78分子及其DNA分子序列结构在许多生物物种中高度保守.GRP78在内质网中参与阻止内质网新生肽聚集、调节内质网钙稳态、抗内质网相关性细胞凋亡,以及启动未折叠蛋白反应等细胞生命过程.GRP78基因启动子上存在内质网应激反应元件(ERSE)和cAMP反应元件(CRE)等特殊的顺式作用元件,特异性转录因子ATF6等与GRP78启动子上顺式作用元件发生动态结合,从而调节GRP78基础性或诱导性转录表达.近年来发现,GRP78与脂肪肝、肿瘤和神经系统等疾病的发生发展密切相关,GRP78生物学功能的研究已经引起生物学家们的广泛重视.     

特异性下调GRP94对人大肠癌细胞生物学特性的影响

为观察GBP94对培养的人大肠癌细胞系CCL229生物学特性的影响,将特异性裂解GBP94 mRNA翻译起始区的核酶,用脂质体介导的转染方法导入培养的CCL229细胞中。在确定获得稳定转染株后,我们检测了细胞生物学特性的变化。结果为：(1)转染GRP94核酶的细胞在A23187诱导16h后,细胞生长率显降低。(2)核酶表达细胞诱导后的聚集能力明显下降。(3)核酶表达细胞在A23187诱导后,停滞在G0／G1期的比例明显升高。结论为GBP94与应激的大肠癌细胞的生长和侵袭能力密切相关;特异性下调GBP94能改变人大肠癌细胞系CCL29的一些生物学特性。实验结果为深入研究GRP94与肿瘤细胞发生、发展和转移的关系奠定了基础,在癌症的基因治疗上将具有一定意义。     

葡萄糖调节蛋白78研究进展

葡萄糖调节蛋白78（glucose regulated protein 78kD,GRP78）又称免疫球蛋白重链结合蛋白（immunoglobulin heavy chain binding protein,Bip）,是位于内质网上重要的分子伴侣,属热休克蛋白70家族的一员,GRP78分子及其DNA分子序列结构在许多生物物种中高度保守。GRP78在内质网中参与阻止内质网新生肽聚集、调节内质网钙稳态、抗内质网相关性细胞凋亡,以及启动未折叠蛋白反应等细胞生命过程。GRP78基因启动子上存在内质网应激反应元件（ERSE）和cAMP反应元件（CRE）等特殊的顺式作用元件,特异性转录因子ATF6等与GRP78启魂子上顺式作用元件发生动态结合,从而调节GRP78基础性或诱导性转录表达。近年来发现,GRP78与脂肪肝、肿瘤和神经系统等疾病的发生发展密切相关,GRP78生物学功能的研究已经引起生物学家们的广泛重视。     

葡萄糖调节蛋白GRP78和GRP94在小鼠脑发育过程中的差异表达

为探讨葡萄糖调节蛋白GRP78和GRP94在小鼠脑发育过程中的生物学意义,利用蛋白质免疫印迹、免疫荧光及RNA印迹技术,检测了发育不同时期小鼠脑组织中GRP78、GRP94的表达及分布情况.结果显示:小鼠脑发育过程中GRP78、GRP94的表达在时间和空间上呈现出显著差异,在脑发育的早中期GRP78表达水平高于GRP94,随发育的进程GRP78不断下降而GRP94逐渐升高,至胚胎发育晚期GRP94表达水平高于GRP78.在E16.5的不同脑区,GRP78的表达呈现出从端脑到后脑逐渐递减的“浓度梯度”分布,而GRP94在不同脑区中表达相同.小鼠出生后,二者作为应激蛋白在脑组织中的表达没有明显的差异性.免疫荧光结果显示,GRP78和GRP94在大脑组织中的分布基本相同,神经细胞和神经胶质细胞的细胞质均有分布.这些观察得到的结果提示,GRP78和GRP94与神经细胞分化和脑的形态建成有关,它们分别在脑发育的不同时期起作用.     

CD1d分子的结构与功能

CD1d是CD1家族中的一员,其结构类似MHII类分子,主要表达于抗原提呈细胞、肝细胞和肠道上皮细胞等细胞表面.CD1d分子提呈糖脂抗原,在抗原装载、胞内运输及其加工处理等方面独具特色,并在感染性疾病、自身免疫性疾病和肿瘤等疾病的发生发展过程中具有重要作用.     

钙网蛋白及其与肿瘤的关系

钙网蛋白（calreticulin,CRT）是一种普遍存在且高度保守的内质网钙结合蛋白,具有调节钙平衡、协助蛋白质的折叠和加工、参与抗原提呈、血管发生及凋亡的调节等多种生物学功能。最近研究发现,CRT与肿瘤的发生发展、诊断、预后判断以及治疗密切相关。该文介绍钙网蛋白的结构、生物学功能及其与肿瘤的关系。     

肿瘤细胞混合肽诱导特异性抗肿瘤免疫应答

采用细胞冻融、加热沉淀及酸处理等基本生化技术, 从肿瘤细胞中获取混合 肽; 将热休克蛋白70与肽体外结合, 观察热休克蛋白70-肽复合物对小鼠脾淋巴细胞的激活增殖作用以及增殖的淋巴细胞对瘤细胞的特异性杀伤作用, 并运用流式细胞仪分析增殖的淋巴细胞类型; 分别通过对腹腔和腿部肌肉接种了H22肝癌细胞的BALB/c小鼠进行热休克蛋白70-H22抗原肽复合物免疫注射, 观察小鼠肿瘤的抑制和荷瘤小鼠的生存期情况. 另外, 对免疫的小鼠采血进行肝、肾功能检测. 结果显示, 获取的混合肽中含有肿瘤特异的抗原肽, 其经热休克蛋白提呈后, 体外可刺激淋巴细胞活化增殖, 增殖的淋巴细胞为T淋巴细胞, 对肿瘤细胞有特异性细胞毒效应, 体内对腹水型和实体瘤型肿瘤的生长均可产生显著抑制作用, 同时延长荷瘤小鼠的生存期, 并且这种体内免疫对小鼠肝肾功能不产生影响, 不会引发自身免疫反应.     

GRP94 生物学特点与肿瘤的关系的研究进展

葡萄糖调节蛋白94又叫做内质网蛋白99,是一种内质网分子伴侣蛋白,与HSP90有50%的同源性。GRP94蛋白可以和Ca2+结合具有蛋白伴侣特性,能协助新合成的多肽转位、折叠、寡聚体的组装、降解,抑制错误折叠蛋白的分泌;GRP94还具有抗原呈递的作用,可以作为肿瘤细胞的伴侣蛋白,参与肿瘤细胞的新陈代谢,保护肿瘤细胞免受有害因素的侵害。GRP94可能与人类多种肿瘤的发生有关,其表达的增高可能是肿瘤发生发展的一个重要因素。GRP94在肿瘤组织中高表达提示相关研究者,应用基因手段抑制GRP94的表达可能能够抑制肿瘤细胞的生长、侵袭和转移、增加肿瘤细胞对化疗药物的敏感性等,并且利用GRP94作为一种新的肿瘤治疗的靶分子或介质可能为肿瘤的基因治疗带来更广泛的应用前景。     

Up-regulation of 94-kDa glucose-regulated protein by hypoxia-inducible factor-1 in human endothelial cells in response to hypoxia

Hypoxic environment in solid tumor is known to favor cell survival and to initiate the formation of new capillaries. In this work, we identified by 2D gel analysis 94-kDa glucose-regulated protein (GRP94) as being upregulated in human endothelial cells in response to hypoxia. Three putative hypoxia responsive elements (HRE) were found in the GRP94 promoter. Competition experiments of HIF-1 DNA binding using specific probes containing each HRE sequence of the GRP94 promoter clearly evidenced that HIF-1 binds these sequences with high affinity. The human GRP94 promoter was then cloned upstream of the luciferase gene and showed enhanced activity in hypoxic conditions. Mutation of two of the three HREs present in this promoter completely inhibited the hypoxia-induced increase in luciferase activity.     

GRP94/gp96 elicits ERK activation in murine macrophages. A role for endotoxin contamination in NF-kappa B activation and nitric oxide production

Vaccination of mice with GRP94/gp96, the endoplasmic reticulum Hsp90, elicits a variety of immune responses sufficient for tumor rejection and the suppression of metastatic tumor progression. Macrophages are a prominent GRP94/gp96 target, with GRP94/gp96 reported to activate macrophage NF-kappa B signaling and nitric oxide production, as well as the MAP kinase p38, JNK, and ERK signaling cascades. However, recent studies report that heat shock protein elicited macrophage activation is due, in large part, to contaminating endotoxin. To examine the generality of this finding, we have investigated the role of endotoxin in GRP94/gp96-elicited macrophage activation. We report that GRP94/gp96 binds endotoxin in a high-affinity, saturable, and specific manner. Low endotoxin calreticulin and GRP94/gp96 were purified, the latter using a novel method of depyrogenation; this resulted in GRP94/gp96 and calreticulin preparations with endotoxin levels substantially lower than those of previously reported preparations. Low endotoxin GRP94/gp96 retained its native conformation, ligand binding activity, and in vitro chaperone function, yet did not activate macrophage NF-kappa B signaling, nitric oxide production or inducible nitric-oxide synthase production. Low endotoxin GRP94/gp96 and calreticulin did, however, elicit a marked increase in ERK phosphorylation at protein concentrations as low as 2 microg/ml. These results are discussed with respect to current understanding of the contributions of endotoxin and heat shock/chaperone proteins to the stimulation of innate immune responses.     

Overexpression of GRP78 and GRP94 is involved in colorectal carcinogenesis

Glucose-related proteins (GRPs) are ubiquitously expressed in the endoplasmic reticulum and assist in protein folding and assembly, consequently considered to be molecular chaperones. GRP78 and GRP94 expression was induced by glucose starvation and up-regulated in samples taken from several different malignant tissues. To clarify the roles of both molecules in tumorigenesis and progression of colorectal carcinomas, immunohistochemistry (IHC) was performed on tissue microarrays containing colorectal carcinomas, adenomas and the non-neoplastic mucosa (NNM) using antibodies against GRP78 and GRP94. Their expression was correlated with the clinicopathological parameters of carcinomas. Both proteins were also studied in colorectal carcinoma cell lines (DLD-1, HCT-15, SW480 and WiDr) by IHC and Western blot. There was a gradually increased GRP78 expression from colorectal NNMs, carcinomas, to low-grade and high-grade adenomas (P<0.05), while up-regulated GRP94 expression from NNM, low-grade adenoma, high-grade adenoma, to carcinoma (P<0.05). The expression was similar in all the carcinoma cell lines. GRP78 expression was negatively correlated with lymphatic invasion or low GRP94 expression of the carcinomas (P<0.05), while there was no correlation of GRP94 expression with other parameters of carcinomas (P>0.05). Multivariate analysis showed that venous invasion, lymph node metastasis and UICC staging (P<0.05), but not age, sex, tumor size, differentiation, depth of invasion, lymphatic invasion, GRP78 and GRP94 expression (P>0.05), were independent prognostic factors for carcinomas. It is suggested that up-regulated expression of GRP78 and GRP94 could possibly be involved in the pathogenesis of colorectal carcinomas.     

Glucose-regulated protein 94/glycoprotein 96 elicits bystander activation of CD4+ T cell Th1 cytokine production in vivo

Glucose-regulated protein 94 (GRP94/gp96), the endoplasmic reticulum heat shock protein 90 paralog, elicits both innate and adaptive immune responses. Regarding the former, GRP94/gp96 stimulates APC cytokine expression and dendritic cell maturation. The adaptive component of GRP94/gp96 function reflects a proposed peptide-binding activity and, consequently, a role for native GRP94/gp96-peptide complexes in cross-presentation. It is by this mechanism that tumor-derived GRP94/gp96 is thought to suppress tumor growth and metastasis. Recent data have demonstrated that GRP94/gp96-elicited innate immune responses can be sufficient to suppress tumor growth and metastasis. However, the immunological processes activated in response to tumor Ag-negative sources of GRP94/gp96 are currently unknown. We have examined the in vivo immunological response to nontumor sources of GRP94/gp96 and report that administration of syngeneic GRP94/gp96- or GRP94/gp96-N-terminal domain-secreting KBALB fibroblasts to BALB/c mice stimulates CD11b(+) and CD11c(+) APC function and promotes bystander activation of CD4(+) T cell Th1 cytokine production. Only modest activation of CD8(+) T cell or NK cell cytolytic function was observed. The GRP94/gp96-dependent induction of CD4(+) T cell cytokine production was markedly inhibited by carrageenan, indicating an essential role for APC in this response. These results identify the bystander activation of CD4(+) T lymphocytes as a previously unappreciated immunological consequence of GRP94/gp96 administration and demonstrate that GRP94/gp96-elicited alterations in the in vivo cytokine environment influence the development of CD4(+) T cell effector functions, independently of its proposed function as a peptide chaperone.     

The case for gastrin-releasing peptide acting as a morphogen when it and its receptor are aberrantly expressed in cancer

Gastrin-releasing peptide (GRP) and its receptor (GRP-R) are frequently expressed by cancers of the gastrointestinal tract, breast, lung, and prostate. Most studies have found that GRP and its amphibian homologue bombesin act to increase tumor cell proliferation, leading to the hypothesis that this peptide hormone is a mitogen important for the growth of various cancers. Yet GRP/GRP-R co-expression in cancer promotes the development of a well-differentiated phenotype; while multiple studies suggest that the presence of these 2 proteins confer a survival advantage. Along with recent reports showing that GRP and its receptor critically regulate aspects of colon and lung organogenesis, we argue that these proteins do not function primarily as mitogens when aberrantly expressed in cancer. Rather, we postulate that GRP/GRP-R are onco-fetal antigens that function as morphogens, with their effect on tumor cell proliferation being a component property of their ability to regulate differentiation. Thus aberrant GRP/GRP-R expression in cancer recapitulates, albeit in a dysfunctional manner, their normal role in development.     

Basolateral expression of GRP94 in parietal cells of gastric mucosa

GRP94 is a member of the heat shock protein family normally confined to the endoplasmic reticulum that sometimes escapes the KDEL-mediated retention system. It is overexpressed in some gastric and other gastrointestinal carcinomas, but little is known about the physiological role of GRP94 in gastric mucosa. We investigated the membrane presence of GRP94 in parietal cells, which secrete acid into the gastric lumen, using subcellular fractionation, selective solubilization of membrane proteins, Western blotting, and radio-ligand binding and provided evidence of functional GRP94 expression at the surface of gastric mucosa parietal cells anchored to the basolateral domain. Our results show that GRP94 is not an integral membrane protein since 50 mM Na₂CO₃ treatment dissociates part of it from the membrane. However, 100 mM Na₂CO₃ treatment did not extract all GRP94 from the membrane, which indicates that it is strongly associated with it. The presence of GRP94 in isolated plasma membrane was demonstrated by Western blotting and its functionality by radio-lig- and binding experiments. Both the K _D value obtained in saturation experiments with N-ethylcarboxamido-[³H]adenosine at 4°C, at the nanomolar range, and the inhibition constant of its binding by radicicol, the most specific GRP94 inhibitor, indicate that active receptor regions are exposed at the membrane surface. Western blotting of plasma membrane subfractions showed that GRP94 is mainly expressed in the basolateral membrane of gastric parietal cells, while its presence in the apical domain is negligible, thereby inferring a role for GRP94 in processes operating in this membrane domain.     

Leishmania infantum: gene cloning of the GRP94 homologue, its expression as recombinant protein, and analysis of antigenicity

The complete nucleotide sequence for the Leishmania infantum homologue to the glucose-regulated protein 94 (GRP94) gene was determined from the isolation and characterization of a genomic clone. Like the mammalian and plant GRP94s, the L. infantum GRP94 sequence possesses both an N-terminal signal peptide and a putative endoplasmic reticulum retention signal, consisting of the C-terminal tetrapeptide EDDL. Thus, L. infantum is the first protozoan organism in which GRP94 has been identified. Southern blot analysis has indicated that this protein is encoded by a single-copy gene. The L. infantum GRP94 gene was expressed in Escherichia coli and the recombinant protein used to evaluate its antigenicity and immunogenicity. Eighty-four percent of sera from dogs with visceral leishmaniasis reacted with the protein, indicating that GRP94 is a potent immunogen during Leishmania infection. Given the immunogenic and antigenic properties shown by the L. infantum GRP94, we think that this protein constitutes a valuable molecule for diagnostic purposes and a potential candidate for studies of protective immunogenicity.