人肠道病毒71型动物模型研究进展

人肠道病毒71型是婴幼儿手足口病的致病原之一,其严重的并发症可导致神经系统疾病,甚至死亡,是近期威胁中国儿童健康的因素之一。目前尚无临床疫苗可以预防该病毒感染,而EV71的动物模型是进行致病机理、疫苗评价和药物等研究的基础。本文对EV71的两种常用动物模型：小鼠和猕猴（Macaca mulatta）模型进行了描述,并对其在研究中的应用给与概括,为研究者选择合适的动物模型提供了依据。     

肠道病毒71型致神经元病变的机制研究进展

中枢神经系统感染是由病原体侵犯中枢神经系统引起的一类具有较高的发病率和死亡率的疾病。病毒是引起中枢神经系统感染的重要病原体之一,其中肠道病毒71型在继发神经系统症状的重症手足口病患儿中较为常见。EV71致神经元病变是其感染中枢神经系统的基础,阐明肠道病毒71型致神经元病变的机制,不仅可以促进基础病毒学研究,也能为抗病毒药物的开发提供思路,对临床肠道病毒71型致中枢神经系统感染的治疗提供支持。本文主要从肠道病毒71型侵入神经元的受体途径、损伤神经元的线粒体途径、诱导凋亡与自噬、感染胶质细胞后对神经元的旁观者效应、免疫病理机制以及病毒自身因素等多个方面,对肠道病毒71型致神经元病变机制展开综述。     

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。     

肠道病毒71型研究进展

肠道病毒71型是一种具有较强致病性的肠道病毒,主要引起患者手足口病(Hand,foot and mouth disease,HFMD)。已在世界多个地区爆发和流行,主要症状是手、足、口、臀等部位皮疹或疱疹,少数患儿可以并发无菌性脑膜炎、脑炎、急性弛缓性麻痹等严重神经系统并发症,呼吸道感染和心肌炎等,可致残、致死。2007—2008年中国多个地区均有较大规模流行,危害十分严重。近四十年的多次流行中,EV71病毒的基因不断进化,研究其基因变化特点对早期诊断、分型以及了解基因与流行、致病的关系等有着重要的意义。对EV71感染尚缺乏有效的抗病毒药物,研制有效的预防性疫苗迫在眉睫,目前有灭活疫苗、减毒疫苗、多肽或蛋白疫苗、DNA疫苗等多种尝试,但至今尚无EV71疫苗上市。本文对EV71基因、实验室诊断和疫苗方面的研究进展进行了综述。     

肠道病毒71型致神经源性肺水肿发病机制研究进展

肠道病毒71型(EV71)是人类肠道病毒的一种,近30年来,EV71感染在亚太地区广泛流行,是手足口病重症病例的主要病原体之一.EV71感染最严重的并发症为中枢神经系统和呼吸系统受累,其中神经源性肺水肿病程进展迅速、治疗困难、病死率高,近年来受到人们的广泛关注,但其发病机制目前尚不十分清楚.本研究对EV71感染导致的神经源性肺水肿的发病机制从脑干脑炎、全身炎症反应及免疫等方面的研究进展作一综述.     

肠道病毒71型疫苗质量控制研究进展

手足口病(Hand foot and mouth disease,HFMD)已成为西太平洋区严重的公共卫生问题之一,肠道病毒71型(Enterovirus 71,EV71)是引起HFMD的主要病原体,研发疫苗是控制HFMD流行的有效手段。目前世界范围已有5个EV71全病毒灭活疫苗进入临床试验,其中中国研制的3种EV71疫苗已分别完成III期临床试验,结果表明3种疫苗都具有良好的安全性和保护效果。在EV71疫苗研发中,抗原质控的方法和标准是研发的瓶颈,其中抗原活性测定是工序工艺优化、免疫原性评价和剂量确定的关键指标。综述了EV71疫苗抗原质控的研究进展。     

肠道病毒71型感染患儿血中炎症因子mRNA的表达

目的探讨肠道病毒71型(EV71)感染患儿血中炎症因子mRNA的表达。方法用Real-time PCR方法检测EV71感染轻症、重症患儿和正常儿童的血中肿瘤坏死因子α(TNF-α),干扰素(IFN)-α、IFN-β,白细胞介素-6(IL-6)、IL-8、IL-12的mRNA表达。结果EV71感染患儿血中IFN-α、IL-6、IL-8、IL-12mRNA的表达增加(28±182.07 vs 5.5±0.79;30±103.30 vs 6±4.21;34±169.60 vs6.2±4.16;33.33±229.70 vs 2.6±0.92)。轻症组与重症组间比较,IFN-α、IL-12mRNA表达显著升高(40±275.86 vs 28±182.07;46.67±46.04 vs 33.33±229.7),IL-6、IL-8mRNA的表达差异无统计学意义(30±103.3 vs 32±110.5;34±169.6 vs 36.67±195.4)。结论细胞因子IFN-α、IL-6、IL-8、IL-12参与抗EV71感染过程,其中IFN-α和IL-12可能是促进EV71感染发展为重症的关键因子。     

肠道病毒71型(EV-A71)感染ICR小鼠模型的建立

为研究肠道病毒71型(Enterovirus 71,EV-A71)经不同攻毒方式感染不同日龄ICR乳鼠的感染情况,了解EV-A71在小鼠体内的动态分布和感染机制,为建立EV-A71感染动物模型,本研究采用分离自重症手足口患儿的EV-A71毒株,分别通过肌肉注射(Intramuscular injection,IM)、腹腔注射(Intraperitoneal injection,IP)以及脑内注射(Intracerebral injection,IC)的方式感染3日、5日和9日龄ICR乳鼠,感染后定期采集血液和各组织,通过Realtime PCR追踪各组织中病毒载量变化,并且通过切片制作和免疫组化对感染乳鼠进行病原学和病理学分析。结果显示:对于低日龄(≤5日龄)乳鼠,注射剂量在104.5 TCID50/g·体重时IM、IP及IC均为较好的感染方式,都会出现神经症状,且有极高的致死率。随着日龄增长,感染后症状有所减轻,但IM和IP感染途径对大日龄乳鼠仍具有良好的致病性,且IM和IP死亡率显著高于IC死亡率。经IM、IP和IC注射感染病毒的3日龄乳鼠在6dpi体重相对于各对照组分别下降了1.54g(31.43%)、1.31g(15.06%)和2.52g(44.28%),而经IM和IP感染的5日龄乳鼠6dpi体重相对于各对照组分别下降了0.605g(8.95%)、0.886g(15.51%),经IC感染的5日龄乳鼠6dpi体重相对于对照组上升了0.904g(14.70%),感染组体重均显著低于对应的同期对照组(P0.05)。经IM、IP和IC感染病毒的3日龄乳鼠9dpi均死亡,而5日龄乳鼠9dpi存活率分别为42.8%、25%和87.5,14dpi存活率分别为0%、0%和25%,9日龄乳鼠9dpi存活率分别为70%、84.62%和100%。病理学及免疫组化检查显示EV-A71病毒具有强烈的嗜神经性及嗜骨骼肌的特性,可导致病毒血症、脑神经元及骨骼肌坏死、心肌间质水肿及多脏器炎症反应。我们系统地研究了不同攻毒方式感染不同日龄的ICR乳鼠后的病毒动态分布及免疫病理损伤,发现经肌肉注射或腹腔注射5日龄乳鼠能够建立理想的EV-A71感染动物模型。     

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].     

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     

Immunity to avirulent enterovirus 71 and coxsackie A16 virus protects against enterovirus 71 infection in mice

In this study, we sought to determine whether intratypic and intertypic cross-reactivity protected against enterovirus 71 (EV71) infection in a murine infection model. We demonstrate that active immunization of 1-day-old mice with avirulent EV71 strain or coxsackie A16 virus (CA16) by the oral route developed anti-EV71 antibodies with neutralizing activity (1:16 and 1:2, respectively). Splenocytes from both EV71- and CA16-immunized mice proliferated upon EV71 or CA16, but not coxsackie B3 virus (CB3), antigen stimulation. Immunized mice became more resistant to virulent EV71 strain challenge than nonimmunized mice. There was an increase in the percentage of activated splenic T cells and B cells in the immunized mice 2 days after EV71 challenge. The CA16 immune serum reacted with EV71 antigens in an enzyme-linked immunosorbent assay and neutralized EV71 but not CB3 or poliovirus at a titer of 1:4. Passive immunization with the CA16 immune serum reduced the clinical score, diminished the organ viral load, and increased the survival rate of mice upon EV71 challenge. CB3 neither shared in vitro cross-reactivity with EV71 nor provided in vivo protection after both active and passive immunization. These results illustrated that live vaccine is feasible for EV71 and that intertypic cross-reactivity of enteroviruses may provide a way to determine the prevalence of EV71.     

Neural pathogenesis of enterovirus 71 infection

Enterovirus 71 (EV71) is a neurotropic pathogen that can cause severe neural diseases and complications on infected patients. Clinical observations showed that EV71-induced immune responses may be associated with virus induced neurogenic pulmonary edema. Here reviewed studies that discovered several host molecules as potential factors for EV71 virulence.     

lncRNA expression signatures in response to enterovirus 71 infection

Outbreaks of hand, foot, and mouth disease caused by enterovirus 71 (EV71) have become considerable threats to the health of infants and young children. To identify the cellular long noncoding RNAs (lncRNAs) involved in the host response to EV71 infection, we performed comprehensive lncRNA and mRNA profiling in EV71-infected rhabdomyosarcoma cells through microarray. We observed the differential expression of more than 4800 lncRNAs during infection. Further analysis showed 160 regulated enhancer-like lncRNA and nearby mRNA pairs, as well as 313 regulated Rinn’s lncRNA [M. Guttman I. Amit, M. Garber, C. French, M.F. Lin, D. Feldser, M. Huarte, O. Zuk, B.W. Carey, J.P. Cassady, M.N. Cabili, R. Jaenisch, T.S. Mikkelsen, T. Jacks, N. Hacohen, B.E. Bernstein, M. Kellis, A. Regev, J.L. Rinn, E.S. Lander. Chromatin signature reveals over a thousand highly conserved large non-coding RNAs in mammals. Nature 458 (2009) 223–227, A.M. Khalil, M. Guttman, M. Huarte, M. Garber, A. Raj, D. Rivea Morales, K. Thomas, A. Presser, B.E. Bernstein, A. van Oudenaarden, A. Regev, E.S. Lander, J.L. Rinn. Many human large intergenic noncoding RNAs associate with chromatin-modifying complexes and affect gene expression. Proc. Natl. Acad. Sci. USA 106 (2009) 11667–11672] and nearby mRNA pairs. The results provided information for further research on the prevention and treatment of EV71 infection, as well as on distinguishing severe and mild EV71 cases.     

Recent developments in antiviral agents against enterovirus 71 infection

Enterovirus 71 (EV-71) is the main etiological agent of hand, foot and mouth disease (HFMD). Recent EV-71 outbreaks in Asia-Pacific were not limited to mild HFMD, but were associated with severe neurological complications such as aseptic meningitis and brainstem encephalitis, which may lead to cardiopulmonary failure and death. The absence of licensed therapeutics for clinical use has intensified research into anti-EV-71 development. This review highlights the potential antiviral agents targeting EV-71 attachment, entry, uncoating, translation, polyprotein processing, virus-induced formation of membranous RNA replication complexes, and RNA-dependent RNA polymerase. The strategies for antiviral development include target-based synthetic compounds, anti-rhinovirus and poliovirus libraries screening, and natural compound libraries screening. Growing knowledge of the EV-71 life cycle will lead to successful development of antivirals. The continued effort to develop antiviral agents for treatment is crucial in the absence of a vaccine. The coupling of antivirals with an effective vaccine will accelerate eradication of the disease.     

肠道病毒71型感染动物模型的应用与局限

肠道病毒71型(enterovirus 71,EV71)是一种被忽视的热带传染病——手足口病的主要病原体之一,过去15年在亚太地区引起了多次手足口病暴发。由于脊髓灰质炎病毒的有效控制,EV71已成为最重要的嗜神经肠道病毒,其严重的神经系统并发症威胁着儿童健康。合适的动物模型可帮助更好地了解EV71神经致病机制,并有利于开发有效的疫苗和治疗药物。本文就EV71已建立的3类主要动物模型(非人灵长类动物模型、小鼠适应性模型及转基因小鼠模型)的特征、应用与局限进行综述。     

A mouse-adapted enterovirus 71 strain causes neurological disease in mice after oral infection

A mouse-adapted enterovirus 71 (EV71) strain with increased virulence in mice, MP4, was generated after four serial passages of the parental EV71 strain 4643 in mice. Strain MP4 exhibited a larger plaque size, grew more rapidly, and was more cytotoxic in vitro than strain 4643. Although strains 4643 and MP4 both induced apoptosis of SK-N-SH human neuroblastoma cells, MP4 was more virulent than 4643 in 1-day-old mice (50% lethal doses, 10(2) and 10(4) PFU/mouse, respectively). Strain MP4 (5 x 10(6) PFU/mouse), but not 4643, could orally infect 7-day-old mice, resulting in rear-limb paralysis followed by death 5 to 9 days after inoculation with the virus. Histopathologically, neuronal loss and apoptosis were evident in the spinal cords as well as the brain stems of the infected mice. The limb muscles displayed massive necrosis. There was early and transient virus replication in the intestines, whereas the spinal cord, brain, and muscle became the sites of viral replication during the late phase of the infection. Virus transmission occurred among infected and noninfected cagemates, as demonstrated by the occurrence of seroconversion and the presence of viable viruses in the stool samples of the latter. Protection against EV71 challenge was demonstrated following administration of hyperimmune serum 1 day after inoculation with the virus. Nucleotide sequence analysis of the genome of EV71 strain MP4 revealed four nucleotide changes on the 5' untranslated region, three on the VP2 region, and eight on the 2C region, resulting in one and four amino acid substitutions in the VP2 and 2C proteins, respectively.     

Animal models of enterovirus 71 infection: applications and limitations

Human enterovirus 71 (EV71) has emerged as a neuroinvasive virus that is responsible for several outbreaks in the Asia-Pacific region over the past 15 years. Appropriate animal models are needed to understand EV71 neuropathogenesis better and to facilitate the development of effective vaccines and drugs. Non-human primate models have been used to characterize and evaluate the neurovirulence of EV71 after the early outbreaks in late 1990s. However, these models were not suitable for assessing the neurovirulence level of the virus and were associated with ethical and economic difficulties in terms of broad application. Several strategies have been applied to develop mouse models of EV71 infection, including strategies that employ virus adaption and immunodeficient hosts. Although these mouse models do not closely mimic human disease, they have been applied to determine the pathogenesis of and treatment and prevention of the disease. EV71 receptor-transgenic mouse models have recently been developed and have significantly advanced our understanding of the biological features of the virus and the host-parasite interactions. Overall, each of these models has advantages and disadvantages, and these models are differentially suited for studies of EV71 pathogenesis and/or the pre-clinical testing of antiviral drugs and vaccines. In this paper, we review the characteristics, applications and limitation of these EV71 animal models, including non-human primate and mouse models.     

A non-mouse-adapted enterovirus 71 (EV71) strain exhibits neurotropism, causing neurological manifestations in a novel mouse model of EV71 infection

Enterovirus 71 (EV71) is a neurotropic pathogen that has been consistently associated with the severe neurological forms of hand, foot, and mouth disease. The lack of a relevant animal model has hampered our understanding of EV71 pathogenesis, in particular the route and mode of viral dissemination. It has also hindered the development of effective prophylactic and therapeutic approaches, making EV71 one of the most pressing public health concerns in Southeast Asia. Here we report a novel mouse model of EV71 infection. We demonstrate that 2-week-old and younger immunodeficient AG129 mice, which lack type I and II interferon receptors, are susceptible to infection with a non-mouse-adapted EV71 strain via both the intraperitoneal (i.p.) and oral routes of inoculation. The infected mice displayed progressive limb paralysis prior to death. The dissemination of the virus was dependent on the route of inoculation but eventually resulted in virus accumulation in the central nervous systems of both animal groups, indicating a clear neurotropism of the virus. Histopathological examination revealed massive damage in the limb muscles, brainstem, and anterior horn areas. However, the minute amount of infectious viral particles in the limbs from orally infected animals argues against a direct viral cytopathic effect in this tissue and suggests that limb paralysis is a consequence of EV71 neuroinvasion. Together, our observations support that young AG129 mice display polio-like neuropathogenesis upon infection with a non-mouse-adapted EV71 strain, making this mouse model relevant for EV71 pathogenesis studies and an attractive platform for EV71 vaccine and drug testing.     

Host factors in enterovirus 71 replication

Enterovirus 71 (EV71) infections continue to remain an important public health problem around the world, especially in the Asia-Pacific region. There is a significant mortality rate following such infections, and there is neither any proven therapy nor a vaccine for EV71. This has spurred much fundamental research into the replication of the virus. In this review, we discuss recent work identifying host cell factors which regulate the synthesis of EV71 RNA and proteins. Three of these proteins, heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1), far-upstream element-binding protein 2 (FBP2), and FBP1 are nuclear proteins which in EV71-infected cells are relocalized to the cytoplasm, and they influence EV71 internal ribosome entry site (IRES) activity. hnRNP A1 stimulates IRES activity but can be replaced by hnRNP A2. FBP2 is a negative regulatory factor with respect to EV71 IRES activity, whereas FBP1 has the opposite effect. Two other proteins, hnRNP K and reticulon 3, are required for the efficient synthesis of viral RNA. The cleavage stimulation factor 64K subunit (CstF-64) is a host protein that is involved in the 3' polyadenylation of cellular pre-mRNAs, and recent work suggests that in EV71-infected cells, it may be cleaved by the EV71 3C protease. Such a cleavage would impair the processing of pre-mRNA to mature mRNAs. Host cell proteins play an important role in the replication of EV71, but much work remains to be done in order to understand how they act.     

肠道病毒71型2A蛋白的研究进展

肠道病毒71(enterovirus 71,EV71)是手足口病(hand,foot and mouth disease,HFMD)主要致病原之一。手足口病临床上常表现为发热,手掌、脚掌及口腔黏膜皮疹或疱疹。然而,EV71感染导致的手足口病易伴随神经系统并发症,甚至死亡。EV71非结构蛋白2A作为蛋白酶和转录激活因子,在EV71生命周期中发挥重要作用。本文对2A的结构与功能研究进展进行综述,揭示2A的双重功能如何促进病毒复制和调控靶细胞,为进一步研究靶向2A的抗病毒疫苗和药物提供理论基础。