猪流行性腹泻病毒分子生物学特征

猪流行性腹泻 (ｐｏｒｃｉｎｅｅｐｉｄｅｍｉｃｄｉａｒｒｈｅａ ,ＰＥＤ)是以水泻、呕吐和脱水为特征的一种急性病毒性腹泻。猪流行性腹泻现已成为世界范围内的猪病之一。猪流行性腹泻病毒 (Ｐｏｒｃｉｎｅｅｐｉｄｅｍｉｃｄｉａｒｒｈｅａｖｉｒｕｓ ,ＰＥＤＶ)是ＰＥＤ的致病因子 ,是导致类似猪传染性胃肠炎 (ｐｏｒｃｉｎｅｔｒａｎｓｍｉｓｓｉｂｌｅｇａｓｔｒｏｅｎｔｅｒｉｔｉｓ ,ＴＧＥ)临床症状的真正病原。迄今为止已发现ＰＥＤＶ与ＴＧＥＶ[1] 、ＰＥＤＶ与ＰＣＶ混合感染猪[2 ] 。已有用蛋黄ＩｇＹ预防ＰＥＤ效果的报道[3] …     

猪流行性腹泻病毒功能性受体的鉴定

为研究猪氨基肽酶(Porcine Aminopeptidase N,pAPN)是否作为猪流行性腹泻病毒(Porcine epidemic diarrhea virus,PEDV)的细胞感染受体,通过转染技术,使PEDV非容许性细胞MDCK表达pAPN,并用PEDV感染转染细胞。结果发现转染的MDCK细胞可以感染PEDV,并且该病毒可以在转染细胞中连续传代。免疫荧光法鉴定存在病毒抗原。进一步实验证实,抗pAPN血清可以抑制PEDV感染转染的MDCK细胞。这些结果展示转染的MDCK细胞、pAPN表达及PEDV病毒复制之间存在直接联系,证明pAPN是PEDV的细胞感染受体之一。     

猪流行性腹泻病毒nsp1蛋白对Ⅰ型干扰素应答的影响

猪流行性腹泻病毒 (PEDV) 能抑制宿主Ⅰ型干扰素及其诱导的细胞抗病毒免疫应答,但是PEDV抑制Ⅰ型干扰素应答的分子机制尚不明了,尤其是PEDV非结构蛋白 (Nonstructural proteins,nsps) 在Ⅰ型干扰素应答中的调控作用研究不多。为研究PEDV非结构蛋白1 (nsp1) 对细胞Ⅰ型干扰素应答的影响,构建了真核表达载体pCAGGS-nsp1,采用Western blotting和间接免疫荧光试验确定nsp1在细胞中的表达。通过报告基因法、ELISA以及病毒复制抑制试验评估nsp1对Ⅰ型IFN的影响。结果显示,nsp1在转染细胞和病毒感染细胞中均高效表达;双荧光报告基因试验结果表明,nsp1能显著抑制IFN-β启动子活性,且具有剂量依赖性。ELISA结果显示,nsp1能显著抑制IFN-β蛋白的表达。水泡性口炎病毒 (VSV) 复制抑制试验结果显示,nsp1明显抑制poly(I:C)介导的Ⅰ型IFN的抗病毒作用。结果提示,nsp1作为PEDV的保守蛋白,具有拮抗Ⅰ型干扰素启动子活性和应答的功能,为揭示PEDV逃逸宿主天然免疫应答的机制和研发新型高效抗PEDV疫苗奠定基础。     

猪流行性腹泻病毒与宿主抗病毒天然免疫抑制

猪流行性腹泻病毒(porcine epidemic diarrhea virus,PEDV)能引起猪腹泻等肠道疾病,属于α属冠状病毒,它的爆发给很多国家养猪业造成了严重的经济损失。2010年以来,PEDV感染在中国出现大规模爆发,一种突变型PEDV也于2013年在美国出现并迅速传播。 RNA病毒能够通过Toll样受体通路3（TLR3）和RIG-I样受体通路（RLR）诱导I型干扰素的产生。但以往的研究表明,PEDV感染能抑制I型干扰素的合成。近年来有关PEDV调节宿主天然免疫应答的研究取得了很大进展。PEDV主要通过编码作为干扰素拮抗剂的病毒蛋白以及隐藏病毒自身病原相关分子模式（PAMP）等两种方式逃逸宿主天然免疫应答。目前已报道,PEDV非结构蛋白1可通过降解CBP阻碍干扰素调节因子3(IRF-3)组装成增强子复合体;木瓜蛋白酶样蛋白酶可通过其去泛素化酶活性阻断天然免疫信号通路传递;3C样蛋白酶可通过剪切NEMO发挥干扰素拮抗剂活性;核衣壳蛋白通过结合TBK1抑制I型干扰素产生。PEDV也可通过合成加帽酶隐藏其病原相关分子dsRNA来避免激活天然免疫通路。PEDV抗病毒天然免疫机制阐明为研究PEDV感染免疫和致病机制提供了重要的理论依据,为研发抗PEDV新型疫苗和药物提供了基础。     

猪流行性腹泻病毒逃逸宿主天然免疫的研究进展

猪流行性腹泻病毒(Porcine epidemic diarrhea virus,PEDV)是一种肠道α冠状病毒,靶向猪小肠上皮细胞,使得小肠上皮组织被破坏,肠道充血,肿胀,引起猪群水样腹泻,导致育肥猪厌食和体型消瘦。其中哺乳仔猪死亡率高。2010年后,随着新的PEDV变异毒株出现,PED再一次在全球暴发,特别是亚洲国家,造成了严重的经济损失。机体的先天免疫并不能完全抵抗PEDV对机体的侵害,因此了解PEDV通过影响干扰素(Interferon,IFN)的产生来逃逸先天性免疫的途径十分必要,同时也为治疗PEDV感染以及研发PEDV疫苗提供了思路。     

猪流行性腹泻病毒单克隆抗体及其抗原表位的研究进展

猪流行性腹泻(Porcine epidemic diarrhea,PED)是由猪流行性腹泻病毒(PED virus,PEDV)引起的一种严重危害养猪生产的常见疫病。近年来,由于新的PEDV变异毒株的出现,许多国家的养猪业遭受了巨大的经济损失。PEDV也因此受到更多关注,关于PEDV的研究报道也日渐增多。基于国内外有关PEDV的最新研究进展,本文系统归纳和分析了PEDV结构蛋白和非结构蛋白单克隆抗体以及单克隆抗体识别的特异性抗原表位,以期为开发鉴别诊断方法和表位疫苗等提供信息。     

猪流行性腹泻病毒反向遗传操作技术及其应用

猪流行性腹泻病毒(PEDV)是引起猪(特别是新生仔猪)急性、高度传染性消化道疾病的主要病原之一;2010年底以来,猪流行性腹泻(PED)的再次暴发给我国乃至全球养猪业造成了巨大经济损失。最近,研究者已先后建立了基于靶向RNA重组技术、细菌人工染色体(BAC)载体系统和体外连接技术的PEDV反向遗传学操作技术,为PEDV编码的蛋白质的功能、致病机制以及新型疫苗的研发开辟了新的思路。本文对PEDV反向遗传操作技术的研究进展及其在PEDV胰酶依赖性、S蛋白和ORF3蛋白的功能以及新一代疫苗研制等方面的应用现状进行了综述与展望。     

猪流行性腹泻病毒经其附属蛋白抑制细胞凋亡

【背景】orf3位于猪流行性腹泻病毒(porcine epidemic diarrhea virus,PEDV) s基因与e基因之间,是目前发现的PEDV唯一一个附属基因,编码附属蛋白(ORF3蛋白)。我们前期研究初步发现ORF3蛋白对PEDV诱导的细胞凋亡有影响。【目的】研究ORF3蛋白在PEDV侵染复制过程中的毒力作用机制。【方法】实验用3种PEDV:rDR13att-?ORF3 (orf3基因全部敲除)、DR13-ORF3att (携带有C端截短orf3)、rDR13att-ORF3wt(携带全长orf3基因)感染Vero细胞,观察病变情况,再用活细胞成像仪、流式细胞仪、 DNA断裂的原位末端标记法[terminaldeoxynucleotidyltransferase(TDT)-mediated dUTP nick end labeling,TUNEL]等方法检测不同感染时间点的细胞凋亡情况,然后用蛋白质印迹方法分析PEDV感染宿主细胞中主要凋亡相关蛋白(如Caspase-3)的活化或裂解,最后进行转录组测序研究病毒感染细胞中差异基因的表达情况,再用荧光定量PCR验证转录组结果。【结果】rDR13att-?ORF3引起较多的细胞病变,活细胞成像仪的动态观察结果显示,3种病毒侵染的细胞凋亡水平随着时间的延长均高于正常阴性细胞,但敲除orf3的病毒感染细胞后细胞凋亡率比其他两种病毒更高;敲除orf3病毒感染细胞凋亡率显著高于其他两种病毒;病毒rDR13att-?ORF3感染细胞后TUNEL阳性细胞数比DR13-ORF3att和rDR13att-ORF3wt更多;表达ORF3蛋白的重组PEDV可以抑制Caspase-3的活化;ORF3蛋白对受感染细胞Heat shock 70 kD protein 1B (HSP70)基因转录有促进作用,荧光定量PCR结果表明rDR13att-ORF3wt感染细胞的HSP70表达量高于rDR13att-?ORF3感染细胞。【结论】PEDV通过ORF3蛋白抑制细胞凋亡,而且这种作用可能是通过抑制Caspase-3的活化或增加HSP70的产生来完成的。     

猪乳外泌体对猪流行性腹泻病毒的抑制作用

本文旨在探索猪乳外泌体(exosome)对仔猪小肠上皮细胞(IPEC-J2)中PEDV的抑制作用.试验采用结晶紫染色及MTT方法分别测定细胞活性,qRT-PCR和Western blot分别测定病毒及细胞相关基因和蛋白的表达水平.结果显示,猪乳exosome显著抑制PEDV病毒对IPEC-J2细胞的感染力,细胞存活率和...     

猪流行性腹泻病毒免疫及疫苗研制

猪流行性腹泻(Porcine epidemic diarrhea,PED)是严重危害我国和世界养猪业的重要动物疫病,其致病原为猪流行性腹泻病毒(Porcine epidemic diarrhea virus,PEDV),属冠状病毒科α冠状病毒属.文中综述分为5个部分.前两部分在介绍该病病原及其流行病学的基础上先概括了初...     

Molecular biology of bovine viral diarrhea virus

Bovine viral diarrhea viruses (BVDV) are arguably the most important viral pathogen of ruminants worldwide and can cause severe economic loss. Clinical symptoms of the disease caused by BVDV range from subclinical to severe acute hemorrhagic syndrome, with the severity of disease being strain dependent. These viruses are classified as members of the Pestivirus genus of the Flaviviridae. BVDV are considered primarily a pathogen of cattle but can infect most ruminant species. The virus particle consists of a lipid bilayer membrane surrounding the encapsidated genomic RNA. Inserted in the outer membrane are two virus-encoded glycoproteins that contain the major antigenic determinants of the virus as well as receptor binding and cell fusion functions. A third glycoprotein is weakly associated with the virion, but also possesses unique features that play important roles in suppression of innate immunity. The viral proteins are encoded in a single, large open reading frame. The viral proteins are proteolytically cleaved from the polyprotein by different proteases. The structural proteins are processed by cellular signal peptidases while the processing of the nonstructural proteins is by the viral serine protease. The virus is assembled and matures in the endoplasmic reticulum and golgi bodies of the cell. The virus is released via exocytosis, where viral proteins are not exposed on the surface of the cell.     

Complete genome sequence of a porcine epidemic diarrhea virus variant

In 2011, outbreaks of viral diarrhea were observed on most swine-breeding farms in most of the provinces of China. The disease is characterized by vomiting, severe diarrhea, and a high mortality rate (82.3%) in newborn piglets. The clinical appearance was similar to that of porcine epidemic diarrhea virus (PEDV) infection. PEDVs were detected in samples (feces or small intestines) from most farms. In order to investigate whether there is a PEDV variant circulating in China, we sequenced and analyzed the complete genome of the recently identified field strain, CH/FJND-3/2011. The sequence data indicate that this PEDV variant prevails in China.     

Development of a porcine epidemic diarrhea virus M protein-based ELISA for virus detection

A membrane (M), protein-based ELISA was developed to detect porcine epidemic diarrhea virus (PEDV). The M gene of PEDV was expressed in Escherichia coli. The purified recombinant M protein was used to immunize rabbits to generate a polyclonal antibody. Immunofluorescence analysis indicated that the anti-PEDV-M antibody reacted with PEDV-infected cells. The antibody was utilized to develop an indirect ELISA to detect PEDV. Other viruses, porcine transmissible gastroenteritis coronavirus, avian infectious bronchitis coronavirus, porcine reproductive and respiratory syndrome virus, classic swine fever virus and porcine pseudorabies virus, were unreactive.     

猪流行性腹泻病毒诱导的猪肠道-乳腺-sIgA轴以及免疫机制探讨

猪的“肠道-乳腺-sIgA轴”免疫通路是指侵染猪的胃肠道病原通过胃肠道免疫可以激发乳腺产生sIgA;sIgA被初生仔猪摄取可以获得针对胃肠道病原的被动免疫保护。该免疫通路的反应动力模式涉及病原侵染、抗原提呈、淋巴细胞活化、淋巴细胞的肠道和乳腺归巢以及抗体分泌等诸多环节,受到病原毒力、母猪的妊娠阶段及免疫生理状态等众多因素影响。目前,猪流行性腹泻病毒（Porcine Epidemic Diarrhea Virus,PEDV）诱发的“肠道-乳腺-sIgA轴”的理论可以解释自然感染状态下哺乳仔猪获得的被动免疫保护,但根据这一概念所设计的疫苗和免疫方案并未取得满意效果。本文综述了PEDV感染和宿主免疫各个环节的研究现状,分析了影响PEDV免疫和肠道-乳腺-sIgA轴系反应的关键病原和宿主因素,提出了在轴系理论基础上应重视PEDV灭活疫苗以及特异IgG作用的建议。     

Expression of neutralizing epitope of porcine epidemic diarrhea virus in potato plants

Transgenic plants expressing recombinant proteins from pathogenic microorganisms provide an inexpensive edible vaccine for induction of local immunity. A neutralizing epitope of porcine epidemic diarrhea virus (PEDV) gene containing SEKDEL was expressed in potato using Agrobacterium-mediated transformation system. Putative transgenic plants were regenerated, and genomic PCR confirmed the presence of PEDV epitope gene in the potato plants. Based on the ELISA results, epitope of PEDV protein made up approximately 0.1% of the total soluble tuber protein.     

Complete genome sequence of a Chinese virulent porcine epidemic diarrhea virus strain

CH/S is a virulent porcine epidemic diarrhea virus (PEDV) strain and is used as the virulent strain to evaluate the protection rates of vaccines against PEDV infection in China. Here, we report the complete genome sequence of strain CH/S, which may aid in understanding the molecular characteristics of this strain.     

The propagation of a porcine epidemic diarrhea virus in swine cell lines

A strain of porcine epidemic diarrhea virus (PEDV), P-5V, utilized as a live virus vaccine in Japan was infected to a swine cell lines, KSEK6 and IB-RS-2 cells. Clear CPE, characterized by cellular destruction, started to appear in the infected cells on 2-3 days post infection (DPI) and affected cells was completely degenerated on 4 DPI. The virus was serially passaged in the cells even without addition of trypsin. Small but clear plaques were formed under an agar overlay medium on the cells. The infective titer in the order of 10(7.00-7.50) TCID50 per ml was obtained at usual incubation temperature.