用SARS冠状病毒全基因组芯片杂交方法分析SARS-CoV

为从临床样品中检测和分析SARSCoV病毒打基础,并为分析SARSCoV病毒的复制和转录等机理提供一种有效方法。以SARS冠状病毒TOR2株序列作为标准设计和制备一种覆盖SARS冠状病毒全基因组的寡聚核苷酸芯片,探针长度为70nt,每相邻的探针序列重复25nt,共660条。用该芯片分析了细胞培养的SARSCoV病毒总RNA、7个SARSCoV病毒的基因克隆片段。对RNA样品用随机引物进行反转录PCR获得cDNA。对DNA用随机引物扩增和dUTPcy3标记。结果用这种芯片杂交检测SARSCoV病毒RNA可见阳性信号呈全基因组分布,并且有多处连续的阳性信号点;用正常人的白细胞RNA为对照,杂交未出现明显阳性信号。检测7个SARSCoV病毒基因克隆片段,在该片段相应的探针区段出现连续阳性信号点。这种方法可有效地检测和分析样品中SARS冠状病毒全基因组的信息。     

SARS冠状病毒实时荧光RT-PCR定量检测

为建立一种快速、准确、特异的SARS病毒RNA定量检测方法,根据复合探针荧光定量分析原理,对SARS病毒核酸进行实时荧光定量RT-PCR检测.借助计算机辅助,对SARS病毒基因靶序列以及检测引物和探针进行了优化筛选;利用体外转录SARS病毒RNA靶序列,对RT-PCR反应的镁离子浓度参数进行了优化;比较Trizol法、磁珠法、Qiagen法、煮沸法等4种方法提取RNA的检测效果,建立了样本处理方法;通过对构建的体外转录靶序列模型的检测,对本方法的灵敏度、特异性、定量线性关系、精确度等进行了评价,并通过对42例临床标本的检测对本方法的检测效果进行了评估. 通过克隆SARS病毒核酸靶序列并进行体外转录,获得了长度约1.2 kb的体外转录RNA靶序列;经优化,荧光RT-PCR反应液中的Mg²⁺浓度以4.0 mmol/L为最好;RNA提取方法采用磁珠法效果较好;本方法的检测灵敏度最低可达5个拷贝的体外转录RNA分子,特异性100%,C_t值的CV值小于5%.对临床确诊的42份SARS病人血清和漱口水标本的检测结果表明,该方法的检出率为79%,与荧光抗体检测法的符合率为70%.上述结果表明,该方法建立的荧光定量RT-PCR技术能够快速准确、特异、敏感地对SARS病毒核酸进行定量分析,为临床SARS冠状病毒RNA的检测提供了新的,更为有效的检测方法.     

PCR条件对扩增SARS-CoV多聚酶部分基因的影响

目的：对该实验室已建立的检测SARS冠状病毒多聚酶基因的套式RT-PCR方法进行优化。方法：从SAPS病人的嗽口水标本中提取RNA,调整套式PCR的退火温度,扩增SARS冠状病毒多聚酶部分基因。扩增出的阳性片段连接入pGEM-T载体中,测序后比较其与已知SARS冠状病毒的同源性。结果：通过改变PCR条件,成功从一SARS病人的嗽口水中扩增出SARS冠状病毒多聚酶部分基因。结论：针对不同标本优化PCR反应条件非常重要。     

A real-time PCR for SARS-coronavirus incorporating target gene pre-amplification

An enhanced polymerase chain reaction (PCR) assay to detect the coronavirus associated with severe acute respiratory syndrome (SARS-CoV) was developed in which a target gene pre-amplification step preceded TaqMan real-time fluorescent PCR. Clinical samples were collected from 120 patients diagnosed as suspected or probable SARS cases and analyzed by conventional PCR followed by agarose gel electrophoresis, conventional TaqMan real-time PCR, and our enhanced TaqMan real-time PCR assays. An amplicon of the size expected from SARS-CoV was obtained from 28/120 samples using the enhanced real-time PCR method. Conventional PCR and real-time PCR alone identified fewer SARS-CoV positive cases. Results were confirmed by viral culture in 3/28 cases. The limit of detection of the enhanced real-time PCR method was 10(2)-fold higher than the standard real-time PCR assay and 10(7)-fold higher than conventional PCR methods. The increased sensitivity of the assay may help control the spread of the disease during future SARS outbreaks.     

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。     

血中检测SARS冠状病毒N蛋白在SARS实验室早期诊断中的作用

为明确严重急性呼吸综合症(SARS)冠状病毒N蛋白在SARS实验室早期诊断中的作用,通过微量中和试验及酶联免疫方法、间接免疫荧光法检测疑似病人恢复期血清(大于28天)中SARS-IgG抗体,确诊SARS患者。同时收集发病不同时期SARS及普通发热病人血清,利用酶联免疫方法检测SARS-CoVN蛋白,并与荧光定量PCR早期诊断方法相比较。共检测：广州地区2003年12月～2004．年1月新发4例确诊SARS患者不同时期的血液和咽漱液标本;恢复期血清SARS-CoV中和抗体阳性病人不同时期的血清46份;广州地区2003年1月～4月临床确诊SARS患者159例的血清和56例疑似患者血清;非SARS普通发热病人血清97份;正常人体检血清100份。结果：4例新发SARS患者的不同时期标本中,3例患者急性期血均检出N蛋白,优于常用的荧光定量PCR检测方法。46份SARS-CoV中和抗体阳性的血清标本,N蛋白检出率为100％。159例临床确诊病例中,发病早期5天以内SARS-CoVN蛋白的检出率为92．3％,随后呈现逐步下降的趋势,在发病第18天仍可检出。56例临床疑似患者发病早期也有23．2％检出率。而97例普通发热病人及100份正常人血清中均未能检测出SARS-CoVN蛋白。表明在血清中检测SARS冠状病毒N蛋白的方法敏感性和特异性都好,对SARS实验室早期诊断具有重要作用。     

Antisense downregulation of SARS-CoV gene expression in Vero E6 cells

BACKGROUND: Severe acute respiratory syndrome (SARS) is caused by a novel coronavirus (SARS-CoV). It is an enveloped, single-stranded, plus-sense RNA virus with a genome of approximately 30 kb. The structural proteins E, M and N of SARS-CoV play important roles during host cell entry and viral morphogenesis and release. Therefore, we have studied whether expression of these structural proteins can be down-regulated using an antisense technique. METHODS: Vero E6 cells were transfected with plasmid constructs containing exons of the SARS-CoV structural protein E, M or N genes or their exons in frame with the reporter protein EGFP. The transfected cell cultures were treated with antisense phosphorothioated oligonucleotides (antisense PS-ODN, 20mer) or a control oligonucleotide by addition to the culture medium. RESULTS: Among a total of 26 antisense PS-ODNs targeting E, M and N genes, we obtained six antisense PS-ODNs which could sequence-specifically reduce target genes expression by over 90% at the concentration of 50 microM in the cell culture medium tested by RT-PCR. The antisense effect was further proved by down-regulating the expression of the fusion proteins containing the structural proteins E, M or N in frame with the reporter protein EGFP. In Vero E6 cells, the antisense effect was dependent on the concentrations of the antisense PS-ODNs in a range of 0-10 microM or 0-30 microM. CONCLUSIONS: The antisense PS-ODNs are effective in downregulation of SARS. The findings indicate that antisense knockdown of SARS could be a useful strategy for treatment of SARS, and could also be suitable for studies of the pathological function of SARS genes in a cellular model system.     

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。     

Evidence that TMPRSS2 activates the severe acute respiratory syndrome coronavirus spike protein for membrane fusion and reduces viral control by the humoral immune response

The spike (S) protein of the severe acute respiratory syndrome coronavirus (SARS-CoV) can be proteolytically activated by cathepsins B and L upon viral uptake into target cell endosomes. In contrast, it is largely unknown whether host cell proteases located in the secretory pathway of infected cells and/or on the surface of target cells can cleave SARS S. We along with others could previously show that the type II transmembrane protease TMPRSS2 activates the influenza virus hemagglutinin and the human metapneumovirus F protein by cleavage. Here, we assessed whether SARS S is proteolytically processed by TMPRSS2. Western blot analysis revealed that SARS S was cleaved into several fragments upon coexpression of TMPRSS2 (cis-cleavage) and upon contact between SARS S-expressing cells and TMPRSS2-positive cells (trans-cleavage). cis-cleavage resulted in release of SARS S fragments into the cellular supernatant and in inhibition of antibody-mediated neutralization, most likely because SARS S fragments function as antibody decoys. trans-cleavage activated SARS S on effector cells for fusion with target cells and allowed efficient SARS S-driven viral entry into targets treated with a lysosomotropic agent or a cathepsin inhibitor. Finally, ACE2, the cellular receptor for SARS-CoV, and TMPRSS2 were found to be coexpressed by type II pneumocytes, which represent important viral target cells, suggesting that SARS S is cleaved by TMPRSS2 in the lung of SARS-CoV-infected individuals. In summary, we show that TMPRSS2 might promote viral spread and pathogenesis by diminishing viral recognition by neutralizing antibodies and by activating SARS S for cell-cell and virus-cell fusion.     

An efficient RNA-cleaving DNA enzyme can specifically target the 5'-untranslated region of severe acute respiratory syndrome associated coronavirus (SARS-CoV)

BACKGROUND: The worldwide epidemic of severe acute respiratory syndrome (SARS) in 2003 was caused by a novel coronavirus called SARS-CoV. We report the use of DNAzyme (catalytic DNA) to target the 5'-untranslated region (5'UTR) of a highly conserved fragment in the SARS genome as an approach to suppression of SARS-CoV replication. A mono-DNA enzyme (Dz-104) possessing the 10-23 catalytic motif was synthesized and tested both in vitro and in cell culture. MATERIALS AND METHODS: SARS-CoV total RNA was isolated, extracted from the SARS-CoV-WHU strain and converted into cDNA. We designed a RNA-cleaving 10-23 DNAzyme targeting at the loop region of the 5'UTR of SARS-CoV. The designed DNAzyme, Dz-104, and its mutant version, Dz-104 (mut), as a control consist of 9 + 9 arm sequences with a 10-23 catalytic core. In vitro cleavage was performed using an in vitro transcribed 5'UTR RNA substrate. A vector containing a fused 5'UTR and enhanced green fluorescent protein (eGFP) was co-transfected with the DNAzyme into E6 cells and the cells expressing eGFP were visualized with fluorescence microscopy and analyzed by fluorescence-activated cell sorting (FACS). RESULTS AND CONCLUSIONS: Our results demonstrated that this DNAzyme could efficiently cleave the SARS-CoV RNA substrate in vitro and inhibit the expression of the SARS-CoV 5'UTR-eGFP fusion RNA in mammalian cells. This work presents a model system to rapidly screen effective DNAzymes targeting SARS and provides a basis for potential therapeutic use of DNA enzymes to combat the SARS infection.     

Potent and selective inhibition of SARS coronavirus replication by aurintricarboxylic acid

The severe acute respiratory syndrome virus (SARS) is a coronavirus that instigated regional epidemics in Canada and several Asian countries in 2003. The newly identified SARS coronavirus (SARS-CoV) can be transmitted among humans and cause severe or even fatal illnesses. As preventive vaccine development takes years to complete and adverse reactions have been reported to some veterinary coronaviral vaccines, anti-viral compounds must be relentlessly pursued. In this study, we analyzed the effect of aurintricarboxylic acid (ATA) on SARS-CoV replication in cell culture, and found that ATA could drastically inhibit SARS-CoV replication, with viral production being 1000-fold less than that in the untreated control. Importantly, when compared with IFNs alpha and beta, viral production was inhibited by more than 1000-fold as compared with the untreated control. In addition, when compared with IFNs alpha and beta, ATA was approximately 10 times more potent than IFN alpha and 100 times more than interferon beta at their highest concentrations reported in the literature previously. Our data indicated that ATA should be considered as a candidate anti-SARS compound for future clinical evaluation.     

SARS-CoV动物模型研究之中国现状

目的综合对比SARS-CoV感染的恒河猴、布氏田鼠及Lewis大鼠的病理学、免疫学以及病毒的复制与外排情况的变化,来探讨此三种动物在建立SARS模型上的特点。方法SARS病毒感染8只恒河猴、9只Lewis大鼠和20只布氏田鼠,在感染后不同时间安乐死动物,应用光镜对动物的各脏器进行病理观察研究;用病毒分离和RT-PCR方法检测病毒外排与复制的情况;用ELISA法检测动物产生特异性抗体情况。结果在SARS-CoV感染恒河猴、Lewis大鼠和布氏田鼠后,肺组织均出现一定的与人类SARS疾病相似的病理改变,在动物体内均可检测到活病毒或病毒核酸,并可检测到特异性IgG抗体的存在。在病死率上布氏田鼠最高;在病毒的复制与外排方面恒河猴的检出率最高,持续时间最长;在抗体产生情况上恒河猴与Lewis大鼠基本相似;在病理变化上恒河猴病变最重且最为复杂,与人类SARS疾病的病理变化最为接近。结论布氏田鼠,Lewis大鼠,特别是恒河猴动物模型可以用于SARS发病机制、疫苗和药物的研发,恒河猴动物模型是目前研究SARS疾病最理想的动物模型。     

SARS冠状病毒感染恒河猴的病毒、血清学检测研究

[目的]对感染SARS-CoV的恒河猴进行病毒、血清学等指标检测及研究,确定模型动物成功感染,并为SARS发病机制,疫苗评价,药物筛选确定参考指标。[方法]SARSCo-V经鼻腔接种8只恒河猴,在感染的第1天开始到5、7、10、15、20、30和60天分别安乐死时,不同时间取咽拭子、血液和脏器,进行病毒分离,RT-PCR检测和抗体测定。[结果]用巢式RT-PCR在感染后每天提取的咽拭子标本中检测SARS-CoV的RNA,以细胞培养冠状病毒为阳性对照,以正常恒河猴咽拭子为阴性对照,在8只动物病毒接种第5天开始可检测到大小为797bp的目的条带,阳性检出最长可持续到第15天。进一步用病毒分离实验对PCR结果进行确证,8只动物中的5只恒河猴接种5天的咽拭子标本中,经Vero细胞培养,细胞产生了典型细胞病变(CPE),提示SARS冠状病毒能感染恒河猴并有病毒的复制和排毒。IFA方法证实为SRAS-CoV抗原存在。SARS-CoV感染恒河猴后,可以检测出免疫反应。在SARS冠状病毒接种前和接种后第5、8、11、15、19、23、26、30、34、每隔4-7天以及安乐死时采血,制备血清测定抗体,8只恒河猴接种病毒前均血清中SARS冠状病毒特异性抗体IgG为阴性,10天后安乐处死的5只感染猴在11-15天开始,至安乐死时,均为阳性。IgG阳性的5只恒河猴均有一定的中和抗体产生,且对SARS病毒感染细胞有一定的保护性。感染SARS病毒猴后与正常猴比较,其细胞杀伤效应明显增强。感染SARS-CoV的恒河猴不仅出现与SARS患者类似的临床和病理学改变,也在一定时期内排毒,出现特异免疫反应,这些指标均可作为药物筛选、疫苗评价等方面的重要参数。     

Mice transgenic for human angiotensin-converting enzyme 2 provide a model for SARS coronavirus infection

To establish a small animal model of severe acute respiratory syndrome (SARS), we developed a mouse model of human severe acute respiratory syndrome coronavirus (SARS-CoV) infection by introducing the human gene for angiotensin-converting enzyme 2 (hACE2) (the cellular receptor of SARS-CoV), driven by the mouse ACE2 promoter, into the mouse genome. The hACE2 gene was expressed in lung, heart, kidney, and intestine. We also evaluated the responses of wild-type and transgenic mice to SARS-CoV inoculation. At days 3 and 7 postinoculation, SARS-CoV replicated more efficiently in the lungs of transgenic mice than in those of wild-type mice. In addition, transgenic mice had more severe pulmonary lesions, including interstitial hyperemia and hemorrhage, monocytic and lymphocytic infiltration, protein exudation, and alveolar epithelial cell proliferation and desquamation. Other pathologic changes, including vasculitis, degeneration, and necrosis, were found in the extrapulmonary organs of transgenic mice, and viral antigen was found in brain. Therefore, transgenic mice were more susceptible to SARS-CoV than were wild-type mice, and susceptibility was associated with severe pathologic changes that resembled human SARS infection. These mice will be valuable for testing potential vaccine and antiviral drug therapies and for furthering our understanding of SARS pathogenesis.     

Civets are equally susceptible to experimental infection by two different severe acute respiratory syndrome coronavirus isolates

Severe acute respiratory syndrome (SARS) was caused by a novel virus now known as SARS coronavirus (SARS-CoV). The discovery of SARS-CoV-like viruses in masked palm civets (Paguma larvata) raises the possibility that civets play a role in SARS-CoV transmission. To test the susceptibility of civets to experimental infection by different SARS-CoV isolates, 10 civets were inoculated with two human isolates of SARS-CoV, BJ01 (with a 29-nucleotide deletion) and GZ01 (without the 29-nucleotide deletion). All inoculated animals displayed clinical symptoms, such as fever, lethargy, and loss of aggressiveness, and the infection was confirmed by virus isolation, detection of viral genomic RNA, and serum-neutralizing antibodies. Our data show that civets were equally susceptible to SARS-CoV isolates GZ01 and BJ01.     

人ACE2转基因小鼠对SARS-CoV的易感性

目的建立敏感的SARS小动物模型。方法通过显微注射技术,将编码SARS-CoV细胞受体的人血管紧张素转换酶(hACE2)基因导入小鼠的基因组中制备了hACE2转基因小鼠,在小鼠ACE2(mACE2)启动子的调控下,hACE2蛋白在转基因小鼠的肺脏、心脏、肾脏和小肠表达。我们观察了野生型和转基因小鼠在SARS冠状病毒接种后病原学和病理学方面的反应。结果在接种后第3天和第7天,病毒能够更有效地在转基因小鼠的肺脏复制,而且转基因小鼠出现更严重的肺损伤。肺组织的损伤包括肺间质充血、出血,单核细胞、淋巴细胞浸润及血浆蛋白的渗出,肺泡上皮细胞增生、脱落,此外,在转基因小鼠的某些器官还发现了血管炎、变性和坏死等病理变化。在转基因小鼠的肺上皮细胞、血管内皮细胞和脑神经细胞检测到病毒抗原。结论转基因小鼠比野生型小鼠对SARS病毒更易感,而且表现出更接近SARS患者的病理变化。     

SARS 冠状病毒非结构蛋白质NSP3突变体构建及其对类泛素分子DUB活性

SARS冠状病毒(SARS-CoV) 非结构蛋白NSP3编码的木瓜蛋白酶样蛋白酶(PLpro)对泛素样分子(Ubl) 具有去泛素化酶(DUB)活性,但目前有关NSP3 DUB活性研究的报道甚少. 本研究构建包含Nsp3基因 N末端不同结构域的突变体,并检测NSP3及其一系列突变体对类泛素分子ISG15和SUMO所修饰蛋白质分子的作用特性. 实验结果表明,NSP3及其突变体NSP3AD,NSP3AE,NSP3AF具有一定的去ISG15活性,而其突变体NSP3AC则没有去ISG15 (DeISGylation) 活性. 研究结果提示,SARS NSP3具有一定的体内去ISG15活性,并且这种活性主要依赖于Nsp3基因编码的PLpro. 但SARS NSP3及其突变体NSP3AC,NSP3AD,NSP3AE和NSP3AF并不具有去SUMO (DeSUMOylation) 活性. SARS冠状病毒NSP3对类泛素样分子作用特性的研究为后续NSP3的生物学特性及其对干扰素通路的调控研究奠定了基础.