Poliovirus 2b insertion into lipid monolayers and pore formation in vesicles modulated by anionic phospholipids

Enterovirus 2B viroporin has been involved in membrane permeabilization processes occurring late during cell infection. Even though 2B lacks an obvious signal sequence for translocation, the presence of a Lys-based amphipathic domain suggests that this product bears the intrinsic capacity for partitioning into negatively charged cytofacial membrane surfaces. Pore formation by poliovirus 2B attached to a maltose-binding protein (MBP) has been indeed demonstrated in pure lipid vesicles, a fact supporting spontaneous insertion into and direct permeabilization of membranes. Here, biochemical evidence is presented indicating that both processes are modulated by phosphatidylinositol and phosphatidylserine, the main anionic phospholipids existing in membranes of target organelles. Insertion into lipid monolayers and partitioning into phospholipid bilayers were sustained by both phospholipids. However, MBP-2B inserted into phosphatidylserine bilayers did not promote membrane permeabilization and addition of this lipid inhibited the leakage observed in phosphatidylinositol vesicles. Mathematical modelling of pore formation in membranes containing increasing phosphatidylserine percentages was consistent with its inhibitory effect arising from a higher reversibility of MBP-2B surface aggregation. These results support that 2B insertion and pore-opening are mechanistically distinguishable events modulated by the target membrane anionic phospholipids.     

新型病毒衣壳结合剂 哌嗪新衍生物抑制肠道病毒71型的复制

目的研究哌嗪新衍生物体外对肠道病毒71型(EV71)的抑制作用。方法培养EV71感染的人横纹肌肉瘤RD细胞,建立体外病毒感染模型,将哌嗪新衍生物作用于RD细胞,通过Western blot、Real-time PCR和病毒滴度检测细胞内EV71病毒蛋白和mRNA的表达水平及培养基上清中子代病毒颗粒的数量;并且观察细胞病变效应(CPE),采用CCK-8法检测哌嗪新衍生物对细胞活性的影响。结果哌嗪新衍生物VP1-4浓度为5μg/mL能够显著抑制RD细胞中EV71 VP1蛋白的表达,EV71 mRNA水平降低了(93.8±3.1)%,IC_(50)约为0.016μg/mL,培养基上清病毒滴度降低了(51.1±0.8)%;而且VP1-4能够减缓EV71病毒感染引起的CPE。此外,化合物VP1-4 CC_(50)200μg/mL,说明细胞毒性低,安全性较高。结论本研究证实VP1-4能有效抑制EV71的复制,可以作为先导化合物开展进一步研究。     

Towards broadly protective polyvalent vaccines against hand,foot and mouth disease

Hand, foot, and mouth disease (HFMD) caused by multiple enterovirus infections is a serious health threat to children in the Asia–Pacific region. This article reviews progresses in the development of vaccines for HFMD and discusses the need for polyvalent HFMD vaccines for conferring broad-spectrum protection.     

利用恒河婴猴模型对肠道病毒71型传播感染特征的生物学分析

本文在前期工作基础上,进一步对肠道病毒71型(EV71)从恒河婴猴的感染个体向其他未感染个体传播的可能性及相关生物学特性做了初步分析.通过喷雾形式经呼吸道感染1~2月龄恒河婴猴(A组);在观察临床症状同时,于感染后第7天,取该组动物粪便处理后,将上清液以喷雾形式经呼吸道感染新的婴猴个体(B组),随后对该次代感染个体进行...     

Design,synthesis, and evaluation of a novel macrocyclic anti-EV71 agent

We describe here the design, synthesis, and evaluation of a macrocyclic peptidomimetic as a potent agent targeting enterovirus A71 (EV71). The compound has a 15-membered macrocyclic ring in a defined conformation. Yamaguchi esterification reaction was used to close the 15-membered macrocycle instead of the typical Ru-catalyzed ring-closing olefin metathesis reaction. The crystallographic characterization of the complex between this compound and its target, 3C protease from EV71, validated the design and paved the way for the generation of a new series of anti-EV71 agents.     

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。     

Development of a sandwich ELISA for the quantification of enterovirus 71

Since 2008, enterovirus 71 (EV71) has been responsible for high-mortality seasonal epidemics of hand, foot and mouth disease in China. Currently many groups in the world are in the process of developing EV71 vaccines to combat this deadly disease. We have developed three EV71-specific monoclonal antibodies, and in this study we report the establishment of a fast and cost-effective sandwich ELISA kit for measurement of virus concentration in EV71 vaccines using a pair of mouse anti-EV71 monoclonal antibodies. The system is specific for EV71 virus, with no cross-reactivity to coxsackievirus A16, H1N1, rabies, and hepatitis A. Using a reference EV71 vaccine standard, the sensitivity of the assay kit was determined to be 0.82 U/ml, with a linear range between 3.75 and 120 U/ml.     

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.     

从我国成人手足口病患者疱液中首次分离出肠道病毒71型

本文报道了从我国手足口病(HFMD)患者疱液中肠道病毒71(E71)型H株的分离和鉴定。该株病毒可在原代人胚肺(HEL)细胞、MA104细胞、BSC细胞中生长繁殖,导致典型的肠道病毒CPE出现。将H株接种乳鼠后出现肢体麻痹、第6天开始死亡。电镜下可见感染H株的BSC细胞胞浆中出现大量的结晶状排列的成熟病毒颗粒,直径约25nm。患者双份血清中有对H株4倍增高的中和抗体存在。采用100抗体单位的抗Cox A5、7、9、16、E70、E71抗体和50抗体单位的LBM组合血清A-H以及抗E71BrCr株MeAb P27对H株进行中和试验时,H株可被抗E71血清和MeAb P27所中和。抗E71抗体对H株的最低有效中和作用为1.6抗体单位,MeAb P27对H株的有效中和作用是64抗体单位。其它血清则无此中和作用。然而,在鉴定过程中发现,高滴度的抗Cox A16抗体(200抗体单位以上)也显出有中和H株的作用,提示我们所分离的H株含有与Cox A16的型间共同抗原。     

Oh,SNAP! How enteroviruses redirect autophagic traffic away from degradation

Picornaviruses, one of the major causes of human diseases ranging from the common cold to acute flaccid paralysis, have a short cytosolic lifecycle that, in cultured cells, ends in cell lysis. For years, the prevailing model was that these viruses exit from cells exclusively through cell lysis. However, over the last several years it has become apparent that for some picornaviruses, a macroautophagy/autophagy-related pathway can result in release of virus particles wrapped in a membrane containing autophagic markers. It has been proposed that this enveloped release predominates within hosts, allowing cell-to-cell movement of virus while minimizing exposure to the immune system. One reason that picornaviruses induce the autophagy pathway is to provide membrane scaffolds for RNA replication complexes. Perhaps more importantly, acidified autophagosomes (known as amphisomes) provide havens for maturation of new viral particles into infectious viruses. In back-to-back papers recently published in Cell Reports, our labs investigated a basic question: if picornavirus particles are maturing inside amphisomes, then how are they avoiding the typical degradative fate of autophagic cargo and exiting the cell intact?