肠道病毒71型与天然免疫系统相互作用的研究进展

肠道病毒71型(enterovirus 71,EV71)为小RNA病毒科肠道病毒属成员,是引起手足口病的主要病原体之一。EV71流行广泛,其感染可引发中枢神经系统疾病,并造成重症手足口病,给公共卫生安全带来极大挑战。EV71的致病机制与病毒和宿主天然免疫系统的相互作用关系密切,涉及病毒逃逸干扰素反应、病毒抑制核因子κB(nuclear factorκB,NF-κB)信号通路及病毒与天然免疫细胞相互作用等多个环节。本文就近年来EV71与宿主天然免疫系统相互作用的研究进展进行综述。     

深圳地区2001～2004年肠道病毒71型部分VP1区基因分析

肠道病毒71型（Enterovirus type71,EV71）自1974年Sehmidt等人首次报道从美国加利福尼亚暴发的表现为中枢神经系统症状的患者标本中分离到后,世界上许多国家相继报道了EV71在不同地区的流行。近年来EV71在亚洲地区的流行呈上升趋势。目前已知EV71的感染可以导致手足口病、无菌性脑膜炎、脑炎和脊髓灰质炎样的麻痹性疾病等多种与神经系统相关的疾病。EV71已经取代脊髓灰质炎病毒成为肠道病毒中最受瞩目的成员。根据病毒衣壳蛋白VP1核苷酸序列的差异,可将EV71分为A、B、C3个基因型。     

用捕捉ELISA法检测类脊髓灰质炎患者血清中肠道病毒71型IgM抗体以进行早期诊断

以肠道病毒71型(EV71)感染Vero细胞制备的EV71抗原,用于IgM捕捉ELISA法检测类脊髓灰质炎(类脊灰)患者血清中EV71 IgM抗体,特异性高,敏感性及稳定性良好。154例脊髓灰质炎(脊灰)病毒IgM阴性的可疑脊灰患者血清中EV71 IgM抗体阳性检出率为14.9％(23/154)。病后第2天的标本即可测出EV71 IgM,5至12天者抗体滴度较高,病后第40天的标本尚可测出EV71 IgM。本法是EV71感染的早期快速诊断方法,可用于与脊灰的鉴别诊断。     

miR373和miR542-5p调控肠道病毒71型在人横纹肌肉瘤细胞中的复制

研究发现microRNAs(miRNAs)可以参与调控病毒在宿主细胞内感染和复制的过程。为了揭示miRNAs是否参与肠道病毒71型(Enterovirus 71,EV71)的感染与复制,研究了miRNAs对EV71病毒在宿主细胞内复制的影响。构建miRNAs靶基因筛选系统,在双荧光素酶报告体系的pMIR载体插入病毒基因,如果插入的基因序列能被细胞内的miRNAs靶向调控,报告基因的表达将发生变化。实验发现EV71病毒5′-UTR基因可能是miRNAs的作用靶标。随后利用miRNAs在线分析软件预测并验证可能作用于5′-UTR基因片段的miRNAs。为了研究miRNAs分子对5′-UTR基因的调控作用是否可以体现在EV71病毒的复制过程中,在人横纹肌肉瘤(Rhabdomyosarcoma,RD)细胞中转染miRNAs mimics,利用Western blotting和real-time PCR实验检验EV71病毒的复制和表达情况。实验结果表明,miR373和miR542-5p可以通过作用于EV71病毒5′-UTR基因从而抑制病毒在RD细胞中的复制和表达。细胞内miR373和miR542-5p可以调控EV71在宿主细胞中的复制过程。研究EV71病毒与宿主miRNAs的相互作用机制为进一步阐明EV71病毒感染与复制机理奠定了基础。     

肠道病毒71型分子流行病学研究进展

肠道病毒71型(Enterovirus type 71,EV71),自1974年首次报道以来,在世界范围内引起多次爆发与流行。EV71感染主要引起患者手足口病(hand,foot and mouth disease,HFMD),在临床上与柯萨奇病毒A16(Coxsakie A16,CA16)感染所引起的手足口病难以区别,但EV71还能够引起多种与神经系统相关的疾病。近年来,EV71病毒的流     

Toll样受体和细胞因子在肠道病毒71型感染的SW620细胞中的表达分析

目的观察肠道病毒71型(EV71)感染人结肠癌SW620细胞中Toll样受体(TLRs)和细胞因子的表达,为EV71感染机制研究提供依据。方法用荧光定量RT-PCR检测EV71感染人结肠癌SW620细胞后24、48和72 h TLR3、TLR7、白细胞介素-6(IL-6)、IL-8、IL-12 mRNA表达量。结果接种EV71后72 h TLR7mRNA表达量增加,TLR3 mRNA表达无变化。IL-6、IL-8和IL-12分别在接种EV71后24、48和72 h开始表达增加,IL-6、IL-8随着时间延长表达量持续增加。结论 TLR7参与介导了抗EV71感染过程,除TLR7外还有其他TLRs参与其中。IL-6、IL-8和IL-12有序地被活化参与抗EV71免疫反应。     

肠道病毒71型感染小鼠IL-6,TNF-α和脑细胞凋亡的影响

目的:观察肠道病毒71型(EV71)感染小鼠外周血IL-6,TNF-α平的变化及脑细胞凋亡情况,以探讨EV71中枢损害可能的发病机制.方法:建立小鼠EV71感染模型,小鼠根据不同处理因素分为对照组和实验组,用RT-PCR检测感染1天、3天、5天、7天的小鼠脑组织的EV71RNA;分别收集外周血,用ELISA法检测血清细胞因子IL-6,TNF-α含量;制备单细胞悬液,采用Annexin V/PI双染结合流式细胞术(FcM)测定小鼠脑细胞的凋亡情况.应用方差分析进行统计学处理.结果(1)实验组于感染第5天和第7天在脑组织中可检测到病毒RNA,对照组脑组织未检测到病毒RNA.(2)实验组血清IL-6,TNF-α平明显高于对照组(P<0.05),并于24-72h达高峰,此后逐渐下降,于第7天时基本降至正常.(3)实验组小鼠于感染第3天开始出现脑细胞凋亡,于第5天达高峰,第7天时脑细胞凋亡反而降低.结论:EV71具有嗜神经性,EV71感染能促进单核-巨噬细胞分泌IL-6.TNF-α介早全身炎症反应,EV71感染过程中存在脑细胞凋亡现象,可能是其中枢损害的机制之一.     

肠道病毒71型分子流行病学研究进展

肠道病毒71型(Enterovirus type71,EV71),自1974年首次报道以来,在世界范围内引起多次爆发与流行[1].EV71感染主要引起患者手足口病(hand,foot and mouth disease,HFMD),在临床上与柯萨奇病毒A16(Coxsakie A16,CA16)感染所引起的手足口病难以区别,但EV71还能够引起多种与神经系统相关的疾病[2].近年来,EV71病毒的流行在亚太地区呈上升趋势[3～5],其中最令人关注的是在该地区的EV71感染引起越来越严重的中枢神经系统症状.     

EV71感染抗病毒药物及疫苗研究进展

手足口病在世界多个地区,尤其是亚洲爆发并流行,且其感染率和死亡率逐年增高,危害十分严重。肠道病毒71(Enterovirus 71,EV71)是手足口病(Hand,foot,andmouth disease,HFMD)的主要病原体,以感染婴幼儿为主,其感染常伴随神经系统并发症,严重可导致儿童死亡。近年来,分子生物学和抗病毒研究方面取得的进展为EV71感染的预防及治疗提供了新的途径。本文对EV71病毒学特点及抗EV71药物的筛选、疫苗开发、RNA干扰等进行了综述,以期为相关研究提供参考。     

肠道病毒71型的研究进展

肠道病毒71型(enterovirus71,EV71)是小RNA病毒科(Picornaviridae)肠道病毒属(Enterovirus)成员,其感染主要引起患者手足口病(hand-foot-and-mouth disease,HFMD).通常情况下,EV71感染引起的HFMD在临床症状等方面与柯萨奇病毒A16(Coxsackie A16,CA16)引起的手足口病难以区别,但EV71感染除了引起HFMD以外,还能够引起无菌性脑膜炎(aseptic meningitis)、脑干脑炎(brainstem encephalitis)和脊髓灰质炎样的麻痹(poliomyelitis-like paralysis)等多种与神经系统相关的疾病[1].自1974年首次报道[2]以来,EV71已在世界范围内引起十多次爆发与流行[3-6].近年来,EV71病毒的流行在亚太地区呈上升趋势[7-9].根据病毒衣壳蛋白VP1核苷酸序列的差异,可将EV71分为A、B、C 3个基因型,其中,B型和C型又进一步分为B1、B2、B3、B4以及C1和C2亚型[10-12].     

Annexin II binds to capsid protein VP1 of enterovirus 71 and enhances viral infectivity

Enterovirus type 71 (EV71) causes hand, foot, and mouth disease (HFMD), which is mostly self-limited but may be complicated with a severe to fatal neurological syndrome in some children. Understanding the molecular basis of virus-host interactions might help clarify the largely unknown neuropathogenic mechanisms of EV71. In this study, we showed that human annexin II (Anx2) protein could bind to the EV71 virion via the capsid protein VP1. Either pretreatment of EV71 with soluble recombinant Anx2 or pretreatment of host cells with an anti-Anx2 antibody could result in reduced viral attachment to the cell surface and a reduction of the subsequent virus yield in vitro. HepG2 cells, which do not express Anx2, remained permissive to EV71 infection, though the virus yield was lower than that for a cognate lineage expressing Anx2. Stable transfection of plasmids expressing Anx2 protein into HepG2 cells (HepG2-Anx2 cells) could enhance EV71 infectivity, with an increased virus yield, especially at a low infective dose, and the enhanced infectivity could be reversed by pretreating HepG2-Anx2 cells with an anti-Anx2 antibody. The Anx2-interacting domain was mapped by yeast two-hybrid analysis to VP1 amino acids 40 to 100, a region different from the known receptor binding domain on the surface of the picornavirus virion. Our data suggest that binding of EV71 to Anx2 on the cell surface can enhance viral entry and infectivity, especially at a low infective dose.     

Recent Progress on Functional Genomics Research of Enterovirus 71

Enterovirus 71(EV71) is one of the main pathogens that causes hand-foot-and-mouth disease(HFMD). HFMD caused by EV71 infection is mostly self-limited; however, some infections can cause severe neurological diseases, such as aseptic meningitis, brain stem encephalitis, and even death. There are still no effective clinical drugs used for the prevention and treatment of HFMD. Studying EV71 protein function is essential for elucidating the EV71 replication process and developing anti-EV71 drugs and vaccines. In this review, we summarized the recent progress in the studies of EV71 noncoding regions(50 UTR and 30 UTR) and all structural and nonstructural proteins, especially the key motifs involving in viral infection, replication, and immune regulation. This review will promote our understanding of EV71 virus replication and pathogenesis, and will facilitate the development of novel drugs or vaccines to treat EV71.     

Purification and characterization of enterovirus 71 viral particles produced from vero cells grown in a serum-free microcarrier bioreactor system

Background

Enterovirus 71 (EV71) infections manifest most commonly as a childhood exanthema known as hand-foot-and-mouth disease (HFMD) and can cause neurological disease during acute infection.

Principal Finding

In this study, we describe the production, purification and characterization of EV71 virus produced from Vero cells grown in a five-liter serum-free bioreactor system containing 5 g/L Cytodex 1 microcarrier. The viral titer was >10⁶ TCID₅₀/mL by 6 days post infection when a MOI of 10⁻⁵ was used at the initial infection. Two EV71 virus fractions were separated and detected when the harvested EV71 virus concentrate was purified by sucrose gradient zonal ultracentrifugation. The EV71 viral particles detected in the 24–28% sucrose fractions had an icosahedral structure 30–31 nm in diameter and had low viral infectivity and RNA content. Three major viral proteins (VP0, VP1 and VP3) were observed by SDS-PAGE. The EV71 viral particles detected in the fractions containing 35–38% sucrose were 33–35 nm in size, had high viral infectivity and RNA content, and were composed of four viral proteins (VP1, VP2, VP3 and VP4), as shown by SDS-PAGE analyses. The two virus fractions were formalin-inactivated and induced high virus neutralizing antibody responses in mouse immunogenicity studies. Both mouse antisera recognized the immunodominant linear neutralization epitope of VP1 (residues 211–225).

Conclusion

These results provide important information for cell-based EV71 vaccine development, particularly for the preparation of working standards for viral antigen quantification.     

MA104 Cell line presents characteristics suitable for enterovirus A71 isolation and proliferation

Enterovirus A71 (EV‐A71), one of the most important causative agents of hand, foot and mouth disease (HFMD) in children, can lead to severe clinical outcomes, even death. However, the infection spectrum of EV‐A71 in different cell lines remains unknown. Therefore, in this study, the biological characteristics of EV‐A71 Subgroup C4 in different cell lines were investigated. To this end, the infectivity of EV‐A71Jinan1002 isolated from children with severe HFMD was assessed in 18 different host cell lines. It was found that the MA104 cell line displayed biological characteristics suitable for EV‐A71 Subgroup C4 strain isolation and proliferation; indeed, it was found that a broad spectrum of cell lines can be infected by EV‐A71Jinan1002. Among the screened cells, four cell lines (HEK293, RD, MA104 and Marc145) produced high 50% tissue culture infective dose (TCID₅₀) values calculated in viral proliferations (ranged from 10^7.6 to 10^7.8); the TCID₅₀ being negatively associated with the time to appearance of CPE. Proliferation curves demonstrated that EV‐A71Jinan1002 amplifies more efficiently in MA104, Hep‐2 and RD cells. Remarkably, the virus isolation rate was much higher in MA104 cells than in RD cells. Thus this study, to our knowledge, is for the first to explore the infection spectrum of EV‐A71 subgroup C4 in such a large number of different cell lines. Our data provide useful reference data for facilitating further study of EV‐A71.     

Virucidal activity and the antiviral mechanism of acidic polysaccharides against Enterovirus 71 infection in vitro

Enterovirus 71 (EV71) is the predominant pathogen for severe hand, foot, and mouth disease (HFMD) in children younger than 5 years, and currently no effective drugs are available for EV71. Thus, there is an urgent need to develop new drugs for the control of EV71 infection. In this study, LJ04 was extracted from Laminaria japonica using diethylaminoethyl cellulose-52 with 0.4 mol/l NaCl as the eluent, and its virucidal activity was evaluated based on its cytopathic effects on a microplate. LJ04 is composed of fucose, galactose, and mannose and mainly showed good virucidal activity against EV71. The antiviral mechanisms of LJ04 were the direct inactivation of the virus, the blockage of virus binding, disruptions to viral entry, and weak inhibitory activity against the nonstructural protein 3C. The two most important findings from this study were that LJ04 inhibited EV71 proliferation in HM1900 cells, which are a human microglia cell line, and that LJ04 can directly inactivate EV71 within 2 hr at 37°C. This study demonstrates for the first time the ability of a polysaccharide from L. japonica to inhibit viral and 3C activity; importantly, the inhibition of 3C might have a minor effect on the antiviral effect of LJ04. Consequently, our results identify LJ04 as a potential drug candidate for the control of severe EV71 infection in clinical settings.     

Enterovirus71 (EV71) Utilise Host microRNAs to Mediate Host Immune System Enhancing Survival during Infection

Hand, Foot and Mouth Disease (HFMD) is a self-limiting viral disease that mainly affects infants and children. In contrast with other HFMD causing enteroviruses, Enterovirus71 (EV71) has commonly been associated with severe clinical manifestation leading to death. Currently, due to a lack in understanding of EV71 pathogenesis, there is no antiviral therapeutics for the treatment of HFMD patients. Therefore the need to better understand the mechanism of EV71 pathogenesis is warranted. We have previously reported a human colorectal adenocarcinoma cell line (HT29) based model to study the pathogenesis of EV71. Using this system, we showed that knockdown of DGCR8, an essential cofactor for microRNAs biogenesis resulted in a reduction of EV71 replication. We also demonstrated that there are miRNAs changes during EV71 pathogenesis and EV71 utilise host miRNAs to attenuate antiviral pathways during infection. Together, data from this study provide critical information on the role of miRNAs during EV71 infection.     

siRNA Targeting the 2Apro Genomic Region Prevents Enterovirus 71 Replication In Vitro

Enterovirus 71 (EV71) is the most important etiological agent of hand, foot, and mouth disease (HFMD) in young children, which is associated with severe neurological complications and has caused significant mortalities in recent HFMD outbreaks in Asia. However, there is no effective antiviral therapy against EV71. In this study, RNA interference (RNAi) was used as an antiviral strategy to inhibit EV71 replication. Three small interfering RNAs (siRNAs) targeting the 2A^pro region of the EV71 genome were designed and synthesized. All the siRNAs were transfected individually into rhabdomyosarcoma (RD) cells, which were then infected with strain EV71-2006-52-9. The cytopathic effects (CPEs) in the infected RD cells, cell viability, viral titer, and viral RNA and protein expression were examined to evaluate the specific viral inhibition by the siRNAs. The results of cytopathogenicity and MTT tests indicated that the RD cells transfected with the three siRNAs showed slight CPEs and significantly high viability. The 50% tissue culture infective dose (TCID₅₀) values demonstrated that the viral titer of the groups treated with three siRNAs were lower than those of the control groups. qRT–PCR and western blotting revealed that the levels of viral RNA and protein in the RD cells treated with the three siRNAs were lower than those in the controls. When RD cells transfected with siRNAs were also infected with strain EV71-2008-43-16, the expression of the VP1 protein was significantly inhibited. The levels of interferon α (IFN-α) and IFN-β did not differ significantly in any group. These results suggest that siRNAs targeting the 2A^pro region of the EV71 genome exerted antiviral effects in vitro.     

Antiviral effects of two Ganoderma lucidum triterpenoids against enterovirus 71 infection

Enterovirus 71 (EV71) is a major causative agent for hand, foot and mouth disease (HFMD), and fatal neurological and systemic complications in children. However, there is currently no clinical approved antiviral drug available for the prevention and treatment of the viral infection. Here, we evaluated the antiviral activities of two Ganoderma lucidum triterpenoids (GLTs), Lanosta-7,9(11),24-trien-3-one,15;26-dihydroxy (GLTA) and Ganoderic acid Y (GLTB), against EV71 infection. The results showed that the two natural compounds display significant anti-EV71 activities without cytotoxicity in human rhabdomyosarcoma (RD) cells as evaluated by 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) cell proliferation assay. The mechanisms by which the two compounds affect EV71 infection were further elucidated by three action modes using Ribavirin, a common antiviral drug, as a positive control. The results suggested that GLTA and GLTB prevent EV71 infection through interacting with the viral particle to block the adsorption of virus to the cells. In addition, the interactions between EV71 virion and the compounds were predicated by computer molecular docking, which illustrated that GLTA and GLTB may bind to the viral capsid protein at a hydrophobic pocket (F site), and thus may block uncoating of EV71. Moreover, we demonstrated that GLTA and GLTB significantly inhibit the replication of the viral RNA (vRNA) of EV71 replication through blocking EV71 uncoating. Thus, GLTA and GLTB may represent two potential therapeutic agents to control and treat EV71 infection.     

肠道病毒71型感染诱导细胞程序性死亡形态学及分子生物学特征的初步研究

肠道病毒 71型(enterovirus type 71,EV71)感染常可引起婴幼儿手足口病(hand,foot and mouth disease,HFMD),还可引起中枢神经系统并发症等重症,甚至死亡。研究认为,EV71诱发重症的原因主要与病毒感染诱导细胞程序性死亡(programmed cell death,PCD)及诱导细胞产生大量炎症因子有关。病毒感染可通过激活不同的信号通路触发细胞程序性死亡,主要包括含半胱氨酸的天冬氨酸蛋白水解酶(cysteinyl aspartate specific proteinase,caspase)依赖的细胞凋亡、细胞焦亡,以及非caspase依赖的细胞坏死性凋亡。本研究旨在探讨EV71感染诱导细胞程序性死亡的形态学和分子生物学特征,利用显微镜和免疫荧光技术检测EV71感染后细胞形态变化,JC-1染色检测感染后细胞线粒体膜电位变化,流式细胞术及Annexin V-FITC/PI双染法、乳酸脱氢酶释放量法检测感染细胞的细胞膜损伤程度,结合蛋白免疫印迹法检测病毒感染后细胞中多聚ADP核糖聚合酶[poly(ADP-ribose) polymerase,PARP]、caspase-9、caspase-3等凋亡因子,以及细胞焦亡关键效应蛋白Gasdermin D、坏死性凋亡效应蛋白MLKL的磷酸化情况。结果显示,EV71感染后细胞主要呈现凋亡特征,并伴随少量细胞坏死。与细胞凋亡相关的PARP被剪切,caspase-9和caspase-3等相关因子被激活。经泛caspase抑制剂处理后,细胞程序性死亡被抑制,但仍有部分细胞坏死。结果提示,EV71感染以细胞凋亡为主,也可能存在非caspase依赖的细胞程序性死亡。     

Studies on Inhibition of Proliferation of Enterovirus-71 by Compound YZ-LY-0

In recent years, hand-foot-and-mouth disease (HFMD), which is caused by Enteroviruses, has emerged as a serious illness. It affects mainly children under the age of five and results in high fatality rates. Enterovirus 71 (EV71) is the main causative agent of HFMD in China and currently there are no effective anti-viral drugs available to treat HFMD. In the present study, we screened compounds for inhibition of proliferation of EV71. Compound YZ-LY-0 stalled the life cycle of EV71. The inhibitor exhibited EC₅₀ value of 0.29 μm against SK-EV006 strain of EV71. Notably, YZ-LY-0 had low cytotoxicity (CC₅₀ > 100 μM) and a high selectivity index (over 300) in Vero and RD cells. YZ-LY-0 in combination with an EV71 RdRp inhibitor or an entry inhibitor showed an antagonistic effect at very low concentrations. However, at higher concentrations the inhibitors exhibited a synergistic effect in inhibiting viral replication. Preliminary results on investigation of the mechanism of inhibition indicate that YZ-LY-0 does not block the entry of the virus in the host cell, but instead inhibits an early stage of EV71 replication. Our studies provide a potential clinical therapeutic option against EV71 infections and suggest that a combined application of YZ-LY-0 with other inhibitors could be more effective in the treatment of HFMD.