Broad neutralizing human monoclonal antibodies against influenza virus from vaccinated healthy donors

Human monoclonal antibodies (HuMAbs) prepared from patients with viral infections could provide information on human epitopes important for the development of vaccines as well as potential therapeutic applications. Through the fusion of peripheral blood mononuclear cells from a total of five influenza-vaccinated volunteers, with newly developed murine-human chimera fusion partner cells, named SPYMEG, we obtained 10 hybridoma clones stably producing anti-influenza virus antibodies: one for influenza A H1N1, four for influenza A H3N2 and five for influenza B. Surprisingly, most of the HuMAbs showed broad reactivity within subtype and four (two for H3N2 and two for B) showed broad neutralizing ability. Importantly, epitope mapping revealed that the two broad neutralizing antibodies to H3N2 derived from different donors recognized the same epitope located underneath the receptor-binding site of the hemagglutinin globular region that is highly conserved among H3N2 strains.     

A human monoclonal antibody derived from a vaccinated volunteer recognizes heterosubtypically a novel epitope on the hemagglutinin globular head of H1 and H9 influenza A viruses

Most neutralizing antibodies elicited during influenza virus infection or by vaccination have a narrow spectrum because they usually target variable epitopes in the globular head region of hemagglutinin (HA). In this study, we describe a human monoclonal antibody (HuMAb), 5D7, that was prepared from the peripheral blood lymphocytes of a vaccinated volunteer using the fusion method. The HuMAb heterosubtypically neutralizes group 1 influenza A viruses, including seasonal H1N1, 2009 pandemic H1N1 (H1N1pdm) and avian H9N2, with a strong hemagglutinin inhibition activity. Selection of an escape mutant showed that the HuMAb targets a novel conformational epitope that is located in the HA head region but is distinct from the receptor binding site. Furthermore, Phe114Ile substitution in the epitope made the HA unrecognizable by the HuMAb. Amino acid residues in the predicted epitope region are also highly conserved in the HAs of H1N1 and H9N2. The HuMAb reported here may be a potential candidate for the development of therapeutic/prophylactic antibodies against H1 and H9 influenza viruses.     

Diagnosis of influenza viruses with special reference to novel H1N1 2009 influenza virus

On 15 April and 17 April 2009, novel swineorigin influenza A (H1N1) virus was identifi ed in specimens obtained from two epidemiologically unlinked patients in the United States. The ongoing outbreak of novel H1N1 2009 influenza (swine influenza) has caused more than 3,99,232 laboratory confi rmed cases of pandemic influenza H1N1 and over 4735 deaths globally. This novel 2009 influenza virus designated as H1N1 A/swine/California/04/2009 virus is not zoonotic swine flu and is transmitted from person to person and has higher transmissibility then that of seasonal influenza viruses. In India the novel H1N1 virus infection has been reported from all over the country. A total of 68,919 samples from clinically suspected persons have been tested for influenza A H1N1 across the country and 13,330 (18.9%) of them have been found positive with 427 deaths. At the All India Institute of Medical Sciences, New Delhi India, we tested 1096 clinical samples for the presence of novel H1N1 influenza virus and seasonal influenza viruses. Of these 1096 samples, 194 samples (17.7%) were positive for novel H1N1 influenza virus and 197 samples (18%) were positive for seasonal influenza viruses. During outbreaks of emerging infectious diseases accurate and rapid diagnosis is critical for minimizing further spread through timely implementation of appropriate vaccines and antiviral treatment. Since the symptoms of novel H1N1 influenza infection are not specifi c, laboratory confi rmation of suspected cases is of prime importance.     

Isolation and characterization of novel human monoclonal antibodies possessing neutralizing ability against rabies virus

Rabies is a fatal viral encephalitis which is transmitted by exposure to the bite of rabid animals. Human and equine rabies immunoglobulins are indispensable pharmacological agents for severe bite exposure, as is vaccine. However, several disadvantages, including limited supply, adverse reactions, and high cost, hamper their wide application in developing countries. In the present study, two novel huMabs which neutralize rabies virus were established from vaccinated hyperimmune volunteers using the Epstein‐Barr virus transformation method. One MAb (No. 254), which was subclass IgG3, effectively neutralized fixed rabies viruses of CVS, ERA, HEP‐Flury, and Nishigahara strains and recognized a well‐conserved epitope located in antigenic site II of the rabies virus glycoprotein. No. 254 possessed 68 ng/ml of FRNT₅₀ activity against CVS, 3.7 × 10^?7 M of the Kd value, and the enhancing effect of complement‐dependent virolysis. In addition, No. 254 showed effective neutralization potency in vivo in the mouse challenge test. The other MAb, 4D4, was subclass IgM and showed neutralizing activity against CVS and Nishigahara strains. 4D4 recognized a novel antigenic site which is associated with the neurovirulence of rabies, a glycoprotein located between antigenic site I and VI. Both human MAbs against rabies are expected to be utilized as a tool for future post‐exposure prophylaxis.     

一株针对H7N9亚型禽流感病毒血凝素蛋白茎部的单克隆抗体的表征

流感病毒血凝素蛋白(hemagglutinin,HA)的茎部区相对保守,是广谱疫苗、抗体与病毒检测制剂的重要靶点.前期研究获得了一株与H7N9亚型禽流感病毒HA蛋白茎部多肽(aa 428-452)反应的单克隆抗体(5D3-1B5).为系统评价其生物学特性,本研究测定了5D3-1B5的抗体效价(IgG、血凝抑制与病毒中和...     

埃博拉病毒NP蛋白的单克隆抗体制备及抗原肽的定位

埃博拉病毒(Ebola virus,EBOV)是一种能导致人类及脊椎动物出血热的致死性病毒,对公共卫生具有较严重的危害。EBOV的NP蛋白在病毒复制中具有重要作用,也是诊断该病重要的靶蛋白。文中原核表达重组扎伊尔型EBOV的NP蛋白,重组蛋白免疫bal/c小鼠,制备了一株小鼠抗EBOV-NP的单克隆抗体。利用Western blotting方法,该抗体能特异识别真核表达和原核表达的重组EBOV-NP,并能同莱斯顿型(RestonEbola virus,REBOV)、科特迪瓦型(Cote-d’Ivoire Ebola virus,CIEBOV)和本迪布焦型(Bundibugyo Ebola virus,BEBOV)埃博拉病毒产生交叉反应,而不与苏丹型(the Sudan Ebola virus,SEBOV)和马堡型(the Marburgvirus,MARV)埃博拉病毒产生反应。利用突变PCR和Western blotting方法,定位了该抗体识别的抗原决定簇序列,该序列(PPLESD)位于EBOV-NP蛋白的C端583-588aa。生物信息学研究表明,该序列在已经公布的ZEBOV、CIEBOV、BEBOV共16个型和REBOV的4个型中高度保守。研究结果为建立以上各型埃博拉病毒的检测方法提供了工具,也为研究埃博拉病毒复制及致病机理提供了基础。     

引发2009年流感暴发的H1N1新型流感病毒的研究进展

引起流感世界性大流行的主要原因与流感病毒表面抗原血凝素(HA)和神经氨酸酶(NA)频发的变异有很大关系,抗原的变异使得流感病毒可以逃逸机体的免疫防御,而且使许多应用中的疫苗失去防御效果。综述2009年世界暴发的H1N1新型流感病毒的结构在进化过程中发生的变异,有助于增加人们对流感病毒的了解,从而有效的治疗和预防流感大流行。     

Reassortant swine influenza viruses isolated in Japan contain genes from pandemic A(H1N1) 2009

In 2013, three reassortant swine influenza viruses (SIVs)—two H1N2 and one H3N2—were isolated from symptomatic pigs in Japan; each contained genes from the pandemic A(H1N1) 2009 virus and endemic SIVs. Phylogenetic analysis revealed that the two H1N2 viruses, A/swine/Gunma/1/2013 and A/swine/Ibaraki/1/2013, were reassortants that contain genes from the following three distinct lineages: (i) H1 and nucleoprotein (NP) genes derived from a classical swine H1 HA lineage uniquely circulating among Japanese SIVs; (ii) neuraminidase (NA) genes from human‐like H1N2 swine viruses; and (iii) other genes from pandemic A(H1N1) 2009 viruses. The H3N2 virus, A/swine/Miyazaki/2/2013, comprised genes from two sources: (i) hemagglutinin (HA) and NA genes derived from human and human‐like H3N2 swine viruses and (ii) other genes from pandemic A(H1N1) 2009 viruses. Phylogenetic analysis also indicated that each of the reassortants may have arisen independently in Japanese pigs. A/swine/Miyazaki/2/2013 were found to have strong antigenic reactivities with antisera generated for some seasonal human‐lineage viruses isolated during or before 2003, whereas A/swine/Miyazaki/2/2013 reactivities with antisera against viruses isolated after 2004 were clearly weaker. In addition, antisera against some strains of seasonal human‐lineage H1 viruses did not react with either A/swine/Gunma/1/2013 or A/swine/Ibaraki/1/2013. These findings indicate that emergence and spread of these reassortant SIVs is a potential public health risk.     

抗人类免疫缺陷病毒1型广谱中和抗体的研究进展

现行抗反转录病毒治疗药物的联合应用可有效抑制艾滋病进程并显著延长患者寿命,但由于人类免疫缺陷病毒1型(human immunodeficiency virus type 1,HIV-1)潜伏库的存在,艾滋病迄今尚无法治愈。近年发现抗HIV广谱中和抗体能有效降低患者体内病毒载量并延缓疾病进程,为研发艾滋病疫苗和治愈策略带来了曙光,尤其是序贯免疫策略的使用极大推进了广谱中和抗体的开发和应用进程。2018年,美国食品药品管理局(Food and Drug Administration,FDA)批准了第1个临床应用的广谱中性单克隆和抗体,无疑为抗HIV单克隆抗体药物的研发注入了一支强心剂。本文围绕近年来抗HIV广谱中和抗体的研究进展进行综述,探讨未来广谱中和抗体研发面临的挑战。     

Characterization of monoclonal antibodies identifying type and strain-specific epitopes of human immunodeficiency virus type 1

Summary Several hybridoma cell lines were raised against the highly cytopathic Zairian isolate of Human Immunodeficiency Virus (HIV), HIV1-NDK.The specificity of the secreted monoclonal antibodies (mAb) was demonstrated by immunoblotting, radioimmunoprecipitation and immunofluorescence. Two hybridoma cell lines secreted mAb reacting with independent epitopes of the NDK p17 capsid protein and its precursors. One, RL16.24.5, is specific for the NDK isolate whereas the other, RL16.45.1, along with anti-p25 RL16.30.1 mAb, bind all HIV1 isolates but not HIV2. Together with the previously described mAb RL4.72.1 those reagents define lentivirus subfamily (HIV1, HIV2, SIV) type/subtype (HIV1) and strain (HIVI-NDK) specific epitopes expressed on HIVl-NDK core proteins. The last mAb RL16.76.1 binds the env gene products gp160 and gp120.     

Selective recognition of oncogene promoter G-quadruplexes by Mg2+

The epitope sequences within the hemagglutinin (HA) of influenza A virus H3N2 at amino acid residues 173-181 and 227-239 that forms anti-parallel β-sheet structure are similarly recognized by human monoclonal antibodies (HuMAbs), B-1 and D-1 that we recently obtained using the peripheral blood lymphocytes from two influenza-vaccinated volunteers. Both HuMAbs showed strong global neutralization of H3N2 strains. Here we show the significant conservation of the β-sheet region consisting of the above-mentioned two epitope regions in H3N2. In addition, we also identified the corresponding regions with similar structure in other subtypes such as H1N1 and H5N1. These two regions are similarly located underneath the receptor-binding sites of individual subtypes. Analysis of those regions using sequences available from the Influenza Virus Resource at the National Center for Biotechnology Information revealed that compared with those in the known neutralizing epitopes A-E, those sequences were fairly conserved in human H3N2 (n = 7955), swine H1N1 (n = 360) and swine H3N2 (n = 235); and highly conserved in human H1N1 (n = 2722), swine-origin pandemic H1N1 (n = 1474), human H5N1 (n = 319) and avian H5N1 (n = 2349). Phylogenetic tree for these regions formed clearly separable clusters for H1N1, H3N2 and H5N1, irrespective of different host origin. These data may suggest a possible significance of those regions for development of alternative vaccine that could induce neutralizing antibodies reactive against wide-range of influenza virus strains.     

登革病毒血清型特异单克隆抗体的制备和鉴定

登革病毒 (Dengue virus,DENV) 是全球传播最为广泛的虫媒病毒,由于缺乏快速鉴别感染病毒血清型的诊断技术,导致异型交叉感染引起重症登革出血热病例居高不下。为实现免疫学方法快速鉴别诊断不同血清型DENV感染,本研究采用哺乳动物细胞293T表达并纯化了4种DENV血清型NS1蛋白,免疫小鼠后通过杂交瘤技术制备了针对NS1蛋白的单克隆抗体。利用酶联免疫吸附方法 (Enzyme-linked immunosorbent assay,ELISA)、间接免疫荧光法 (Indirect immunofluorescence assay,IFA)、免疫斑点杂交试验 (Dot blotting) 以及蛋白质免疫印迹试验 (Western blotting) 确认所制备的单克隆抗体能够有效识别天然病毒NS1以及重组NS1蛋白。获得的单克隆抗体包含2株可识别1–4型DENV NS1蛋白的通用型抗体及3株分别针对DENV-1、DENV-2和DENV-4的血清型特异抗体。以所制备的DENV NS1抗体为基础,采用双抗体夹心ELISA可快速鉴别不同血清型DENV。DENV血清型特异单克隆抗体的制备和甄别DENV血清型ELISA方法的建立为快速鉴别感染DENV血清型的临床诊断奠定了基础。     

Characterization of monoclonal lipid A antibodies with synthetic lipid A analogues

Abstract The specificity of monoclonal antibodies directed against the Salmonella minnesota R595 lipid A and the structural requirements of lipid A epitopes were studied with chemically synthesized lipid A analogues by enzyme-linked immunosorbent assay and its inhibition test. The results suggest that lipid A has specific and common epitopes, in which the specificities are derived from the chemical and conformational structures of the backbone and/or acyl groups.     

禽网状内皮组织增殖病病毒gp90蛋白单克隆抗体的制备及其识别区分析

为了制备禽网状内皮组织增殖病病毒(REV)gp90蛋白的单克隆抗体,应用His-gp90融合蛋白免疫BALB/c小鼠,取免疫鼠的脾细胞与骨髓瘤细胞(SP2/0)进行融合,经过筛选、3次亚克隆后获得3株稳定分泌抗REV-gp90蛋白的单克隆抗体杂交瘤细胞株,分别命名为3G5-B8、3G5-A10和1G12。经间接ELISA(Enzyme-linked immunosorbent assay)方法检测,单克隆抗体的亲和力解离常数(Kd)分别为6.483×10–10、4.844×10–10和9.330×10–10,3株单抗的亚型分别为Ig G1、Ig G1和Ig G2b。经Western blotting和间接免疫荧光实验检测,3株单抗均能识别REV感染DF-1细胞后产生的gp90蛋白。以Western blotting方法利用单抗检测不同截短的gp90蛋白,初步确定3G5-B8和3G5-A10 2株单抗抗原识别区均位于gp90蛋白第200-245位氨基酸,而1G12株单抗识别区包含第230-235位氨基酸。这些单抗为REV的诊断和致病机理研究奠定了基础。     

Fate of 130 hemagglutinins from different influenza A viruses

In this study, we use our probabilistic models to analyze 130 hemagglutinins from different influenza A virus in order to gain the insight into their fate. The results provide three lines of evidence regarding the H5, H6, and H9 hemagglutinins: (i) the H5 hemagglutinins are more sensitive to mutations, this is the current state of the H5, H6, and H9 hemagglutinins; (ii) the H5 hemagglutinins had experienced more mutations in the past, this is the history of the H5, H6, and H9 hemagglutinins; and (iii) the H6 hemagglutinins has a bigger potential towards future mutations, this is the future of the H5, H6, and H9 hemagglutinins. Furthermore, this study gives two clues on the mutation tendency that is a degeneration process and the species susceptibility that is the chickens and ducks.     

Virulence and genetic compatibility of polymerase reassortant viruses derived from the pandemic (H1N1) 2009 influenza virus and circulating influenza A viruses

Gene mutations and reassortment are key mechanisms by which influenza A virus acquires virulence factors. To evaluate the role of the viral polymerase replication machinery in producing virulent pandemic (H1N1) 2009 influenza viruses, we generated various polymerase point mutants (PB2, 627K/701N; PB1, expression of PB1-F2 protein; and PA, 97I) and reassortant viruses with various sources of influenza viruses by reverse genetics. Although the point mutations produced no significant change in pathogenicity, reassortment between the pandemic A/California/04/09 (CA04, H1N1) and current human and animal influenza viruses produced variants possessing a broad spectrum of pathogenicity in the mouse model. Although most polymerase reassortants had attenuated pathogenicity (including those containing seasonal human H3N2 and high-pathogenicity H5N1 virus segments) compared to that of the parental CA04 (H1N1) virus, some recombinants had significantly enhanced virulence. Unexpectedly, one of the five highly virulent reassortants contained a A/Swine/Korea/JNS06/04(H3N2)-like PB2 gene with no known virulence factors; the other four had mammalian-passaged avian-like genes encoding PB2 featuring 627K, PA featuring 97I, or both. Overall, the reassorted polymerase complexes were only moderately compatible for virus rescue, probably because of disrupted molecular interactions involving viral or host proteins. Although we observed close cooperation between PB2 and PB1 from similar virus origins, we found that PA appears to be crucial in maintaining viral gene functions in the context of the CA04 (H1N1) virus. These observations provide helpful insights into the pathogenic potential of reassortant influenza viruses composed of the pandemic (H1N1) 2009 influenza virus and prevailing human or animal influenza viruses that could emerge in the future.     

Characterization of monoclonal antibodies directed against distinct conserved epitopes of human immunodeficiency virus type 1 core proteins

Summary Two mouse hybridoma cell lines secreting antibodies to the Human Immunodeficiency Virus (HIV) p25 major core protein and its precursors p55 and p41, were developed after immunization with the highly cytopathic Zaïrian HIV-1 isolate, NDK. These monoclonal antibodies also react with the gag gene products from HIV-1-BRU prototype and present cross reaction with HIV-2-ROD, and SIV-AGM. They map into topographically distinct areas of p25 and define epitopic regions topographically separated from those recognized by four other anti-p25 mAb suggesting the existence of at least 6 spatially distinct epitopic regions on HIV-1-p25 core protein.Abbreviations HIV Human Immunodeficiency Virus - SIV Simian Immunodeficiency Virus - HTLVI Human T cell Leukaemia Virus - AIDS Acquired Immune Deficiency Syndrome - mAb Monoclonal Antibody - ELISA Enzyme Linked Immunosorbent Assay - PBS Phosphate Buffered Saline     

New monoclonal antibodies against a recombinant second envelope protein of Hepatitis C virus

To study the immunological features of the hepatitis C virus (HCV) envelope protein (E2 protein), new specific monoclonal antibodies (mAbs) were generated. WKA/H rats were immunized with syngeneic cells infected with a vaccinia virus expressing the E2 protein and with soluble E2 protein obtained from Chinese hamster ovary cells with a plasmid-based expression system. By screening hybridoma cells obtained from spleen cells of the immunized rats, three specific mAbs were obtained. One mAb was reactive to a peptide corresponding to the hypervariable region 1 (HVR1) in E2 protein, while the others reacted to regions outside HVR1. The significance of these antibodies for the diagnosis of HCV infection as well as for analysis of the structure of the HCV E2 protein will be discussed.