SARS冠状病毒的分离培养与鉴定

采集急性期病人的咽拭子或漱口液,用Vero 、Vero E6、MDCK、Hela 、Hep-2等传代细胞,人胚肺二倍体细胞(HEL)和人胚肺(HP)细胞分离培养严重急性呼吸系统综合症(SARS)的病原体.结果用Vero、Vero E6、MDCK和HP细胞从标本中分离到一株病毒.间接免疫荧光试验发现,恢复期病人血清可与所分离的病毒起反应,在胞膜和胞浆中出现翠绿色荧光;中和试验结果表明,恢复期病人血清能中和病毒对细胞的致细胞病变作用;电镜下可观察到冠状病毒样颗粒;RT-PCR法可扩增到冠状病毒特异性基因片段,且其核苷酸序列与国内外发表的SARS冠状病毒(SARS-Cov)相应的基因序列相符,同源性达到100%.从传染性非典型肺炎病人的漱口液中分离到SARS冠状病毒,这种病毒与传染性非典型肺炎密切相关.     

冠状病毒是引起广州地区严重急性呼吸综合征(SARS)的主要病因

为查找引起广州地区流行的严重急性呼吸综合征(SARS)的病原体,采集患者漱口液及尸解标本,用组织培养法接种人胚肺细胞、MDCK细胞、Hep-2细胞和鸡胚分离病毒,用间接免疫荧光法检测患者恢复期血清lgG抗体,确定分离的病原是SARS的主要病因,再用套式RT—PCR、免疫电镜法鉴定病原。结果用人胚肺、Hep-2细胞在75份漱口液和3例尸解组织中分离出13株病原体,经套式RT—PCR扩增出110bp的特异产物,经测序证实为冠状病毒。制备冠状病毒的抗原,检测30份SARS病人恢复期血,其中26份血清lgG抗体阳性。同时检测30份普通发热病人血清作对照,IgG抗体全部阴性。由此证明,经组织培养分离到的病原体是引起SARS的致病因子,用分子生物学方法测序后证实为冠状病毒。     

严重急性呼吸综合征(SARS)患者不同组织中冠状病毒的分离和鉴定

严重急性呼吸综合征(SARS)自2002年11月在中国广东爆发后,已迅速蔓延成为全球性传染疾患。为了了解SARS冠状病毒的特征,对先前SARS冠状病毒PCR检测呈阳性的来自广东的3份尸检肺组织标本、2份尸检脾组织标本：来自北京的2份咽拭子标本和1份血清标本,利用10种不同的细胞系分离病毒。结果显示,上述标本在感染细胞后,分别可在293、Vero—E6、Vero、RD和HeLa细胞系中产生细胞病变(CPE)。不同标本在上述细胞系中致CPE的能力不同,但CPE出现的时间和病变形态学特征无显著性差异。以恢复期SARS病人血清为抗体,用间接免疫荧光法对感染后细胞培养的检测,冠状病毒RT-_PCR对感染后细胞RNA的检测,初步证明分离的病毒为冠状病毒。结果再次证明冠状病毒为SARS的病原,它具有较广泛的器官分布和细胞感染能力。血清中SARS冠状病毒的分离,高度提示在SARS发病过程中存在有病毒血症。     

SARS冠状病毒分离培养和鉴定的实验研究

建立严重急性呼吸综合征(SARS)冠状病毒分离、培养方法,为SARS冠状病毒动物模型的建立提供实验依据,并根据病毒在体内存活的时间确定检测指标。选用已鉴定为SARS冠状病毒的毒株,经过鼻腔接种感染恒河猴。定期采集咽拭子标本,分离血清或血浆,用Vero细胞进行病毒培养、分离。结果显示,在SARS冠状病毒感染恒河猴后2、5、7天,可以从拭子中分离到病毒,5～15天可在猴肺、脾、肝、肾和淋巴组织中分离到病毒,并用免疫荧光法和RT-PCR方法进行了确定。首次实验证实了SARS冠状病毒可在恒河猴体内复制。SARS病毒的成功分离是SARS冠状病毒动物模型建立的主要依据,在进行疫苗安全性和药效评价等工作中,病毒分离可作为药物筛选、疫苗评价的重要指标。     

在传染性非典型肺炎患者组织和血液中发现冠状病毒

用RT-PCR从广东两例传染性非典型肺炎(非典型肺炎)死亡病例的肺和脾标本中,以及北京、辽宁和宁夏非典型肺炎患者血清中,扩增出冠状病毒核苷酸序列。这些PCR产物为冠状病毒RNA聚合酶基因部分片段,所有测定的序列和国内外SARS病毒序列相同。这些发现提示,冠状病毒和非典型肺炎关系密切,有助于确定我国非典型肺炎的病因。所建立的套式PCR方法可以用于检测临床标本。由于血液中存在SARS病毒,进行血清操作时需要注意安全保护。     

浙江省SARS冠状病毒分离与系统进化树分析

从浙江省3例SARS患者中收集含漱液标本,经处理后接种Vero、RD、VeroE6和Hep-2细胞进行病毒分离,培养3d后在Vero和RD细胞中可观察到细胞病变。从细胞培养上清中提取病毒核酸,用SARS冠状病毒特异性引物进行RT-PCR,并经测序证实从3份临床样本中分离到2株SARS冠状病毒株。对其中1株病毒的基因组进行了全序列测定并作系统进化树分析显示浙汀省SARS冠状病毒株与新加坡2774株和台湾TW1株最为接近。     

浙江省SARS冠状病毒分离与系统进化树分析

从浙江省3例SARS患者中收集含漱液标本,经处理后接种Vero、RD、VeroE6和Hep-2细胞进行病毒分离,培养3d后在Vero和RD细胞中可观察到细胞病变.从细胞培养上清中提取病毒核酸,用SARS冠状病毒特异性引物进行RT-PCR,并经测序证实从3份临床样本中分离到2株SARS冠状病毒株.对其中1株病毒的基因组进行了全序列测定并作系统进化树分析显示浙江省SARS冠状病毒株与新加坡2774株和台湾TW1株最为接近.     

从SARS患者血清发现双相型深部真菌的报告

目的从临床诊断的SARS病人血清中分离病原微生物。方法采用SARS患者血清通过NIH小鼠腹腔、脑和鸡胚卵黄囊和尿囊接种、人胚肺细胞呼吸道病毒培养和系列细菌培养分离病原体,所获微生物经形态学、血清学、生化学和法国梅里埃(Vitek)全自动微生物系统鉴定,复制动物模型和病理学检查。结果从SARS病人血清分离的微生物,检定结果为一种双相型深部嗜肺性真菌,属流行性肺组织胞浆菌(球状酵母菌)。结论分离的肺组织胞浆菌(球状酵母菌)是呼吸系统深部真菌。     

中药活性物质的提纯及抗SARS病毒的研究

首次利用逆流色谱,对黄芩、甘草和金银花等中药中的生物活性物质进行提取、纯化,黄芩甙、甘草甜素和绿原酸的纯度分别为96．5％,95．2％和94．8％,通过对10个SAILS冠状病毒临床分离株在胎体恒河猴腰4细胞和Vero—E6细胞的中和试验和斑块缩小试验,研究三种纯品在培养48和72h的抗SARS病毒活性。结果表明黄芩甙抑制SARS病毒活性效果明显,甘草甜素具有一定的效果,而绿原酸的效果较差。     

非典型肺炎病例标本中新型冠状病毒的分离与鉴定

目的对非典型肺炎的病原体进行分离鉴定,为该病的诊断、预防和治疗提供依据。方法采用细胞培养和乳鼠接种法,从非典型肺炎病例标本中分离致病病原体,通过电镜形态学、血清学和动物致病性观察及RTPCR扩增与部分基因序列分析,对分离的病原体进行鉴定。结果成功地从死亡病例尸解的肺组织标本和患者鼻咽拭子标本中采用细胞培养法分离出病原体。通过电镜在病变细胞及其培养上清中观察到大量冠状病毒样颗粒。免疫荧光染色检测非典型肺炎患者血清,表明分离的病毒与此次流行的非典型肺炎密切相关。分离的病毒可对乳鼠致病,并在发病乳鼠的肺组织标本中通过电镜同样观察到冠状病毒样颗粒。从非典型肺炎病例尸解肺组织、传代发病小鼠肺组织及分离物感染的细胞培养物中,通过RTPCR可分别扩增出冠状病毒的cDNA片段,测序结果显示其核苷酸序列与已知冠状病毒的同源性在60%左右。结论从非典型肺炎病例标本中已成功分离出一种新的冠状病毒,它与此次流行的非典型肺炎密切相关,很可能是此次流行的非典型肺炎的主要病原体 。     

SARS—CoV感染Vero E6细胞诱导细胞凋亡

为了确定SARS冠状病毒(SARS—CoV)感染Vero E6是否引起细胞凋亡,我们利用细胞DNA琼脂糖电泳,感染细胞的间接荧光染色和Hoechst 33258细胞核染色,以及流式细胞仪分析等方法证明了SARS-CoV感染的Veto E6具有典型的凋亡细胞学和生物化学特征。实验证明具有细胞凋亡特征的所有细胞均为处于感染晚期的细胞。表现明显细胞病变(CPE)的细胞大多已经出现核质凝缩或形成凋亡小体进入细胞凋亡的过程。可以断定SARS-CoV感染Vero E6细胞诱发了细胞凋亡。     

Cell type-specific cleavage of nucleocapsid protein by effector caspases during SARS coronavirus infection

The epidemic outbreak of severe acute respiratory syndrome (SARS) in 2003 was caused by a novel coronavirus (CoV), designated SARS-CoV. The RNA genome of SARS-CoV is complexed by the nucleocapsid protein (N) to form a helical nucleocapsid. Besides this primary function, N seems to be involved in apoptotic scenarios. We show that upon infection of Vero E6 cells with SARS-CoV, which elicits a pronounced cytopathic effect and a high viral titer, N is cleaved by caspases. In contrast, in SARS-CoV-infected Caco-2 cells, which show a moderate cytopathic effect and a low viral titer, this processing of N was not observed. To further verify these observations, we transiently expressed N in different cell lines. Caco-2 and N2a cells served as models for persistent SARS-CoV infection, whereas Vero E6 and A549 cells did as prototype cell lines lytically infected by SARS-CoV. The experiments revealed that N induces the intrinsic apoptotic pathway, resulting in processing of N at residues 400 and 403 by caspase-6 and/or caspase-3. Of note, caspase activation is highly cell type specific in SARS-CoV-infected as well as transiently transfected cells. In Caco-2 and N2a cells, almost no N-processing was detectable. In Vero E6 and A549 cells, a high proportion of N was cleaved by caspases. Moreover, we examined the subcellular localization of SARS-CoV N in these cell lines. In transfected Vero E6 and A549 cells, SARS-CoV N was localized both in the cytoplasm and nucleus, whereas in Caco-2 and N2a cells, nearly no nuclear localization was observed. In addition, our studies indicate that the nuclear localization of N is essential for its caspase-6-mediated cleavage. These data suggest a correlation among the replication cycle of SARS-CoV, subcellular localization of N, induction of apoptosis, and the subsequent activation of caspases leading to cleavage of N.     

Establishment of Vero E6 cell clones persistently infected with severe acute respiratory syndrome coronavirus

Little information is available on persistent infection of severe acute respiratory syndrome (SARS) coronavirus (CoV). In this study, we established persistent infection of SARS-CoV in the Vero E6 cell line. Acute infection of Vero E6 with SARS-CoV produced a lytic infection with characteristic rounding cytopathic effects (CPE) and the production of a large number of infectious particles in the culture fluid within 3 days post-infection. Upon subsequent culturing of the remaining adherent cells, the cells gradually proliferated and recovered normal morphology similar to that of the parental cells, and continued to produce large numbers of infectious viral particles during the observation period of 5 months. Among a total of 87 cell clones obtained from the persistently infected Vero E6, only four cell clones (named #13, #18, #21, and #34) were positive for viral RNA. Clones #13, #18, and #34 shifted to viral RNA-negative during subsequent cultures, while #21 continuously produced infectious particles at a high rate. The SARS-CoV receptor, angiotensin-converting enzyme 2, was almost completely down regulated from the cell surface of persistently infected cells. Western blot analysis as well as electron microscopy indicated that the ratios of spike to nucleocapsid protein in clone #21 as well as its parental persistently infected cells were lower than that in the cells in the acute phase of infection. These Vero E6 cells persistently infected with SARS-CoV may be useful for clarifying the mechanism of the persistent infection and also for elucidating the possible pathophysiologic significance of such long-term maintenance of this virus.     

siRNA对SARS冠状病毒复制的抑制作用

为探讨siRNA在哺乳动物细胞中对SARS冠状病毒复制的抑制作用,针对BJ0 1株SARS冠状病毒复制酶基因(Pol)和刺突蛋白基因(S) ,设计4个siRNA ,并构建相应的siRNA表达载体及克隆细胞系.利用间接免疫荧光法及实时定量反转录PCR法,检测所设计的siRNA对SARS冠状病毒复制的抑制作用.结果表明,针对Pol基因的siRNA(psOe)在Vero细胞中可阻断BJ0 1株SARS病毒RNA的复制及其蛋白的表达.该结果为深入阐明SARS冠状病毒的致病机理及探讨SARS病毒防治新途径奠定了基础.     

The putative protein 6 of the severe acute respiratory syndrome-associated coronavirus: expression and functional characterization

The SARS-CoV open reading frame 6 (ORF6) is transcribed into mRNA6 and encodes a putative 7.5 kDa accessory protein, SARS 6, with unknown function. In this study, we have confirmed the SARS 6 protein expression in lung and intestine tissues of the SARS patients and in SARS-CoV infected Vero E6 cells by immunohistochemistry. Further studies by immunoblot and confocal microscopy analyses revealed the expression and the endoplasmic reticulum (ER) localization of the recombinant SARS 6 protein in mammalian cells. Expression of SARS 6 protein in mammalian cells elicits biological activity of stimulating cellular DNA synthesis.     

Susceptibility of human and rat neural cell lines to infection by SARS-coronavirus

Pathological characterization of autopsied tissues from patients with SARS revealed severe damage in restricted tissues, such as lung, with no apparent cell damage in other tissues, such as intestine and brain. Here, we examined the susceptibility of neural cell lines of human (OL) and rat (C6) origins to SARS-associated coronavirus. Both of the neural cell lines showed no apparent cytopathic effects (CPE) by infection but produced virus with infectivity of 10(2-5) per ml, in sharp contrast to the production by infected Vero E6 cells of >10(9) per ml that showed a lytic infection with characteristic rounding CPE. Interestingly, the infection of intestinal cell line CaCo-2 also induced no apparent CPE, with production of the virus at a slightly lower level as that of the Vero E6 cell culture. Notably, the cellular receptor for the virus, angiotensin-converting enzyme 2 was expressed at similar levels on Vero E6 and CaCo-2 cells, but at undetectable levels on OL and C6 cells.     

Persistent replication of severe acute respiratory syndrome coronavirus in human tubular kidney cells selects for adaptive mutations in the membrane protein

Severe acute respiratory syndrome (SARS) is a systemic disease characterized by both lung pathology and widespread extrapulmonary virus dissemination causing multiple organ injuries. In this regard, renal dysfunction is an ominous sign in patients with SARS. Indeed, clusters of SARS coronavirus (SARS-CoV) particles have been detected in the cytoplasm of renal tubular epithelial cells in postmortem studies, explaining the presence of infectious virus in the urine of SARS patients. In order to investigate the potential SARS-CoV kidney tropism, we have evaluated the susceptibility of human renal cells of tubular and glomerular origin to in vitro SARS-CoV infection. Immortalized cultures of differentiated proximal tubular epithelial cells (PTEC), glomerular mesangial cells (MC), and glomerular epithelial cells (podocytes) were found to express the SARS-CoV receptor angiotensin-converting enzyme 2 on their surface. Productive infection, however, occurred only in PTEC but not in glomerular cells. A transient infection with poor virus production was observed in MC, whereas podocytes were not permissive to SARS-CoV infection. In contrast to the cytopathic infection of the Vero E6 cell line, SARS-CoV did not cause overt cytopathic effects in PTEC or MC. Of interest, PTEC, but not MC, maintained stable levels of SARS-CoV production in serial subcultures, suggesting a persistent state of infection. In this regard, a SARS-CoV variant with increased replication capacity in PTEC was selected after four serial subculture passages. This SARS-CoV variant acquired a single nonconservative amino acid change from glutamic acid (E) to alanine (A) at position 11 in the viral membrane (M) protein. The E11A point mutation was sufficient for enhanced SARS-CoV replication and persistence in PTEC when introduced in a SARS-CoV recombinant infectious clone. These findings indicate that human PTEC may represent a site of SARS-CoV productive and persistent replication favoring the emergence of viral variants with increased replication capacity, at least in these kidney cells.     

Expression cloning of functional receptor used by SARS coronavirus

We have expressed a series of truncated spike (S) glycoproteins of SARS-CoV and found that the N-terminus 14-502 residuals were sufficient to bind to SARS-CoV susceptible Vero E6 cells. With this soluble S protein fragment as an affinity ligand, we screened HeLa cells transduced with retroviral cDNA library from Vero E6 cells and obtained a HeLa cell clone which could bind with the S protein. This cell clone was susceptible to HIV/SARS pseudovirus infection and the presence of a functional receptor for S protein in this cell clone was confirmed by the cell-cell fusion assay. Further studies showed the susceptibility of this cell was due to the expression of endogenous angiotensin-converting enzyme 2 (ACE2) which was activated by inserted LTR from retroviral vector used for expression cloning. When human ACE2 cDNA was transduced into NIH3T3 cells, the ACE2 expressing NIH3T3 cells could be infected with HIV/SARS pseudovirus. These data clearly demonstrated that ACE2 was the functional receptor for SARS-CoV.