呼吸道合胞病毒感染不同气道上皮细胞的病变特点及易感性分析

为了比较几种不同气道上皮细胞对呼吸道合胞病毒（Respiratory syncytial virus,RSV）感染后病变特点及易感性。采用RSV A2株感染Hep-2、A549、16HBE、BEAS-2B细胞后,奥林巴斯倒置免疫荧光显微镜观察细胞病变效应,免疫荧光检测RSV N蛋白表达及空斑实验测定细胞培养上清液中病毒滴度。结果显示RSV A2株感染Hep-2细胞后最早形成典型的合胞病变,A549细胞次之,16HBE及BEAS-2B形成病变的时间最晚。免疫荧光检测到RSV N蛋白表达特点与细胞病变特点一致。RSV A2在Hep-2上产生的病毒滴度最高,A549细胞次之,在16HBE上产生的病毒滴度最低。提示Hep-2、A549细胞对RSV具有高度易感性,以Hep-2最为敏感。而16HBE、BEAS-2B细胞对RSV感染不敏感,其中16HBE最不敏感。本研究可为选择合适的上皮细胞进行RSV相关研究奠定基础。     

Roflumilast Inhibits Respiratory Syncytial Virus Infection in Human Differentiated Bronchial Epithelial Cells

Respiratory syncytial virus (RSV) causes acute exacerbations in COPD and asthma. RSV infects bronchial epithelial cells (HBE) that trigger RSV associated lung pathology. This study explores whether the phosphodiesterase 4 (PDE4) inhibitor Roflumilast N-oxide (RNO), alters RSV infection of well-differentiated HBE (WD-HBE) in vitro. WD-HBE were RSV infected in the presence or absence of RNO (0.1-100 nM). Viral infection (staining of F and G proteins, nucleoprotein RNA level), mRNA of ICAM-1, ciliated cell markers (digital high speed videomicroscopy, β-tubulin immunofluorescence, Foxj1 and Dnai2 mRNA), Goblet cells (PAS), mRNA of MUC5AC and CLCA1, mRNA and protein level of IL-13, IL-6, IL-8, TNFα, formation of H₂O₂ and the anti-oxidative armamentarium (mRNA of Nrf2, HO-1, GPx; total antioxidant capacity (TAC) were measured at day 10 or 15 post infection. RNO inhibited RSV infection of WD-HBE, prevented the loss of ciliated cells and markers, reduced the increase of MUC5AC and CLCA1 and inhibited the increase of IL-13, IL-6, IL-8, TNFα and ICAM-1. Additionally RNO reversed the reduction of Nrf2, HO-1 and GPx mRNA levels and consequently restored the TAC and reduced the H₂O₂ formation. RNO inhibits RSV infection of WD-HBE cultures and mitigates the cytopathological changes associated to this virus.     

Respiratory Syncytial Virus G Protein CX3C Motif Impairs Human Airway Epithelial and Immune Cell Responses

Respiratory syncytial virus (RSV) is a major cause of severe lower respiratory infection in infants and young children and causes disease in the elderly and persons with compromised cardiac, pulmonary, or immune systems. Despite the high morbidity rates of RSV infection, no highly effective treatment or vaccine is yet available. The RSV G protein is an important contributor to the disease process. A conserved CX3C chemokine-like motif in G likely contributes to the pathogenesis of disease. Through this motif, G protein binds to CX3CR1 present on various immune cells and affects immune responses to RSV, as has been shown in the mouse model of RSV infection. However, very little is known of the role of RSV CX3C-CX3CR1 interactions in human disease. In this study, we use an in vitro model of human RSV infection comprised of human peripheral blood mononuclear cells (PBMCs) separated by a permeable membrane from human airway epithelial cells (A549) infected with RSV with either an intact CX3C motif (CX3C) or a mutated motif (CX4C). We show that the CX4C virus induces higher levels of type I/III interferon (IFN) in A549 cells, increased IFN-α and tumor necrosis factor alpha (TNF-α) production by human plasmacytoid dendritic cells (pDCs) and monocytes, and increased IFN-γ production in effector/memory T cell subpopulations. Treatment of CX3C virus-infected cells with the F(ab′)₂ form of an anti-G monoclonal antibody (MAb) that blocks binding to CX3CR1 gave results similar to those with the CX4C virus. Our data suggest that the RSV G protein CX3C motif impairs innate and adaptive human immune responses and may be important to vaccine and antiviral drug development.     

Respiratory Syncytial Virus Uses CX3CR1 as a Receptor on Primary Human Airway Epithelial Cultures

Respiratory syncytial virus (RSV) is the most frequent cause of lower respiratory disease in infants, but no vaccine or effective therapy is available. The initiation of RSV infection of immortalized cells is largely dependent on cell surface heparan sulfate (HS), a receptor for the RSV attachment (G) glycoprotein in immortalized cells. However, RSV infects the ciliated cells in primary well differentiated human airway epithelial (HAE) cultures via the apical surface, but HS is not detectable on this surface. Here we show that soluble HS inhibits infection of immortalized cells, but not HAE cultures, confirming that HS is not the receptor on HAE cultures. Conversely, a “non-neutralizing” monoclonal antibody against the G protein that does not block RSV infection of immortalized cells, does inhibit infection of HAE cultures. This antibody was previously shown to block the interaction between the G protein and the chemokine receptor CX3CR1 and we have mapped the binding site for this antibody to the CX3C motif and its surrounding region in the G protein. We show that CX3CR1 is present on the apical surface of ciliated cells in HAE cultures and especially on the cilia. RSV infection of HAE cultures is reduced by an antibody against CX3CR1 and by mutations in the G protein CX3C motif. Additionally, mice lacking CX3CR1 are less susceptible to RSV infection. These findings demonstrate that RSV uses CX3CR1 as a cellular receptor on HAE cultures and highlight the importance of using a physiologically relevant model to study virus entry and antibody neutralization.     

Respiratory Syncytial Virus Induced Type I IFN Production by pDC Is Regulated by RSV-Infected Airway Epithelial Cells,RSV-Exposed Monocytes and Virus Specific Antibodies

Innate immune responses elicited upon virus exposure are crucial for the effective eradication of viruses, the onset of adaptive immune responses and for establishing proper immune memory. Respiratory syncytial virus (RSV) is responsible for a high disease burden in neonates and immune compromised individuals, causing severe lower respiratory tract infections. During primary infections exuberant innate immune responses may contribute to disease severity. Furthermore, immune memory is often insufficient to protect during RSV re-exposure, which results in frequent symptomatic reinfections. Therefore, identifying the cell types and pattern recognition receptors (PRRs) involved in RSV-specific innate immune responses is necessary to understand incomplete immunity against RSV. We investigated the innate cellular response triggered upon infection of epithelial cells and peripheral blood mononuclear cells. We show that CD14⁺ myeloid cells and epithelial cells are the major source of IL-8 and inflammatory cytokines, IL-6 and TNF-α, when exposed to live RSV Three routes of RSV-induced IFN-α production can be distinguished that depend on the cross-talk of different cell types and the presence or absence of virus specific antibodies, whereby pDC are the ultimate source of IFN-α. RSV-specific antibodies facilitate direct TLR7 access into endosomal compartments, while in the absence of antibodies, infection of monocytes or epithelial cells is necessary to provide an early source of type I interferons, required to engage the IFN-α,β receptor (IFNAR)-mediated pathway of IFN-α production by pDC. However, at high pDC density infection with RSV causes IFN-α production without the need for a second party cell. Our study shows that cellular context and immune status are factors affecting innate immune responses to RSV. These issues should therefore be addressed during the process of vaccine development and other interventions for RSV disease.     

人呼吸道合胞病毒活疫苗研究进展

人呼吸道合胞病毒是引起婴幼儿支气管炎和肺炎的主要原因,也可导致免疫缺陷病人及老年人群显著发病和死亡.人呼吸道合胞病毒疫苗已被世界卫生组织(World Health Organization,WHO)列为全球最优先发展的疫苗之一.经过50多年的研究,尤其是随着重组技术和反向遗传学的出现,对RSV疫苗的研究取得了重要进展,...     

呼吸道合胞病毒感染人肺上皮细胞一氧化氮的产生及其作用

本文探讨呼吸道合胞病毒(RSV)感染人肺上皮细胞(A549细胞)后, 一氧化氮(NO)的水平变化及其在RSV感染中的氧化损伤和抗病毒作用。RSV以不同时间感染A549细胞, 并给予NO合成的抑制剂氨基胍(AG)处理。收集细胞培养上清, 分别用硝酸还原酶法和硫代巴比妥酸法检测NO和丙二醛(MDA)含量, 化学法检测羟自由基(OH·)与超氧阴离子(O2.—)水平, 空斑形成试验测定病毒复制滴度(PFU)。结果显示在RSV感染4 h后即上调NO、OH·、O2.—和MDA的表达水平。当RSV感染中给予AG处理以抑制iNOS合成NO时, 则降低OH·、O2.—和MDA含量, 但病毒PFU升高。各指标的变化与相应时间点的感染组相比, 差异均有显著性。提示RSV感染肺上皮细胞诱导生成的NO与细胞内自由基水平升高和加重细胞的自由基损伤程度有关; 但在一定程度上可抑制病毒的增殖水平。     

细胞间接触是EB病毒自发感染人类上皮细胞的有效途径

选用产EB病毒的绒猴淋巴细胞B95-8系和补体受体2型(complement receptor 2,CR2)与多聚免疫球蛋白受体(polymeric immunoglobulin receptor,plgR)表达阴性的人水生化上皮细胞Hacat系共培养,进行细胞接触感染实验。一周后去除B95-8细胞,仅留Hacat细胞,并以自行改进的方法鉴定前者是否得以彻底去除。在证实没有．B95-8残留后,PCR和原位杂交分别检验剩余Hacat细胞中EB病毒的感染结果。实验结果表明：改进的方法能够灵敏和简便地判断B95-8细胞的污染与否,并且与．B95-8细胞接触共培养的Hacat细胞能被EB病毒有效地感染,后者暗示了EB病毒对上皮细胞可能存在细胞融合和CR2或plgR介导之外新的感染途径。本研究在一定程度上简化了前人的细胞接触感染方法,也为建立天然的EB病毒自发有效地感染上皮细胞的模型奠定了基础。     

miR-455-5p靶向SOCS3抑制RSV感染致气道上皮炎症反应的机制研究

摘要 目的：揭示miR-455-5p对呼吸道合胞病毒（RSV）感染致气道上皮细胞炎症反应的作用机制。方法：qRT-PCR检测30例健康体检儿童（健康组）、RSV感染轻症组（n=41）和重症组（n=31）患儿血清miR-455-5p水平。将16HBE细胞分为Control组、NC-agomir组、miR-455-5p-agomir组、NC-antagomir组、miR-455-5p-antagomir组。使用Lipofectamine 3000转染16HBE细胞后培养48 h后,分为Blank组、NC组（转染了NC-agomir的细胞）、RSV+NC-agomir组、RSV+miR-455-5p-agomir组,用RSV病毒液感染RSV+NC-agomir组和RSV+miR-455-5p-agomir组16HBE细胞,Blank组和NC组16HBE细胞正常培养。用CCK-8法和EdU法检测细胞增殖、TUNEL法检测细胞凋亡、ELISA法检测上清液中TNF-α、IL-6、IL-8水平,qRT-PCR检测miR-455-5p和SOCS3的mRNA水平,Western blot检测SOCS3、IFN-α、STAT1、STAT2、p-STAT1和p-STAT2的蛋白水平。结果：与健康组相比,轻症组和重症组患儿的血清miR-455-5p水平降低（P<0.05）。与轻症组相比,重症组的血清miR-455-5p水平降低（P<0.05）。与Control组和NC-agomir组相比,miR-455-5p-agomir组16HBE细胞的miR-455-5p水平、相对细胞活力和EdU阳性率升高（P<0.05）,TUNEL阳性率降低（P<0.05）,上清液中的TNF-α、IL-6和IL-8水平降低（P<0.05）,SOCS3 mRNA和蛋白水平降低（P<0.05）,IFN-α蛋白、STAT1和STAT2磷酸化水平升高（P<0.05）。与Control组和NC-antagomir组相比,miR-455-5p-antagomir组16HBE细胞的miR-455-5p水平、相对细胞活力和EdU阳性率降低（P<0.05）,TUNEL阳性率升高（P<0.05）,上清液中的TNF-α、IL-6和IL-8水平升高（P<0.05）,SOCS3 mRNA和蛋白水平升高（P<0.05）,IFN-α蛋白、STAT1和STAT2磷酸化水平降低（P<0.05）。与Blank组和NC组相比,RSV+NC-agomir组16HBE细胞的miR-455-5p水平、相对细胞活力和EdU阳性率降低（P<0.05）,TUNEL阳性率升高（P<0.05）,上清液中的TNF-α、IL-6和IL-8水平升高（P<0.05）,SOCS3 mRNA和蛋白水平升高（P<0.05）,IFN-α蛋白、STAT1和STAT2磷酸化水平降低（P<0.05）。与RSV+NC-agomir组相比,RSV+miR-455-5p-agomir组的miR-455-5p水平、相对细胞活力和EdU阳性率升高（P<0.05）,TUNEL阳性率降低（P<0.05）,上清液中的TNF-α、IL-6和IL-8水平降低（P<0.05）,SOCS3 mRNA和蛋白水平降低（P<0.05）,IFN-α蛋白、STAT1和STAT2磷酸化水平升高（P<0.05）。结论：miR-455-5p在RSV感染患儿血清中下调,上调miR-455-5p通过抑制SOCS3的转录和表达从而激活RSV感染的16HBE细胞中IFN-α介导的抗病毒反应。