Biophysical studies of respiratory syncytial virus. I. Density of respiratory syncytial virus and associated complement-fixing antigens in cesium chloride density gradient

Coates, Helen V. (National Institute of Allergy and Infectious Diseases, Bethesda, Md.), Ben R. Forsyth, and R. M. Chanock. Biophysical studies of respiratory syncytial virus. I. Density of respiratory syncytial virus and associated complement-fixing antigens in a cesium chloride density gradient. J. Bacteriol. 91:1263-1269. 1966.-Concentrated fluids from respiratory syncytial (RS) virus-infected tissue cultures (HEp-2 and BEK) were subjected to equilibrium sedimentation in cesium chloride. When two antigenically distinct strains of RS virus (Long and 18537) were tested, approximately 90% of the infectious virus was recovered in a sharp, symmetrical peak with a density of 1.22 to 1.24. In a similar study, unconcentrated virus had a density of 1.25 to 1.27. Two immunologically distinguishable complement-fixing antigens (antigens A and B) were detected at densities of 1.28 to 1.32 and 1.23 to 1.37. In addition, the existence of a third antigen (density of 1.22 to 1.30) was suggested. The possible origin of these antigens is discussed relative to the known properties of RS virus and the other myxoviruses.     

Antigen mimicry involving measles virus hemagglutinin and human respiratory syncytial virus nucleoprotein.

Intergenic antigenic relationships between measles virus and respiratory syncytial (RS) virus-specific structural components were studied by using monoclonal antibodies. Of 75 monoclonal antibodies against these components, only one, an anti-measles virus hemagglutinin monoclonal antibody, cross-reacted. Immunofluorescence analysis of measles virus- and RS virus-infected cells with this monoclonal antibody showed qualitatively different staining patterns which indicated that the antigen involved in cross-reaction was the RS virus nucleoprotein or phosphoprotein. A radioimmunoprecipitation assay showed the antigen to be the nucleoprotein.     

我国呼吸道合胞病毒抗原亚型的初步探讨

An analysis of subtypes of 9 respiratory syncytial (RS) viruses isolated from Guangzhou and Nanjing areas of china was carried out with eight Sweden RS-subtype specific monoclonal antibodies (MAbs) and 7 internal anti-RS MAbs. All these MAbs directed against respectively the large Glycoprotein (G), fusion protein (F), nucleoprotein (NP), and phosphoprotein (P) components of the prototype Long strain of RS virus. The patterns of the reactions of these MAbs to the nine isolated strains of RS virus were compared with indirect immunofluorescence assay (IFA), alkaline phosphoesterase-anti alkaline phosphoesterase (APAAP) enzyme-linked assay and Western blotting. The antigenic variations were founded among the strains of RS virus, and two subtypes allocated to the subtype A and B of RS virus by using the eight RS-subtype specific MAbs. Seven out of the 9 isolated strains of RS virus belonged to the subtype A, and two were being to the subtype B. The antigenic diversities were also founded within the same subtype, and the main pronounced difference were observed on the G glycoprotein by using the internal anti-RS MAbs. These findings are potentially important both for vaccine development and for the understanding of clinical and epidemiological characteristics of RS virus.     

Respiratory syncytial virus matures at the apical surfaces of polarized epithelial cells.

Respiratory syncytial (RS) virus infects the epithelium of the respiratory tract. We examined the replication and maturation of RS virus in two polarized epithelial cell lines, Vero C1008 and MDCK. Electron microscopy of RS virus-infected Vero C1008 cells revealed the presence of pleomorphic viral particles budding exclusively from the apical surface, often in clusters. The predominant type of particle was filamentous, 80 to 100 nm in diameter, and 4 to 8 microns in length, and evidence from filtration studies indicated that the filamentous particles were infectious. Cytopathology produced by RS virus infection of polarized Vero C1008 cells was minimal, and syncytia were not observed, consistent with the maintenance of tight junctions and the exclusively apical maturation of the virus. Infectivity assays with MDCK cells confirmed that in this cell line, RS virus was released into the apical medium but not into the basolateral medium. In addition, the majority of the RS virus transmembrane fusion glycoprotein on the cell surface was localized to the apical surface of the Vero C1008 cells. Taken together, these results demonstrate that RS virus matures at the apical surface of polarized epithelial cell lines.     

Fluorescent Cell Counting as an Assay Method for Respiratory Syncytial Virus

The fluorescent cell-counting technique was applied to the enumeration of cell-infecting units of respiratory syncytial (RS) virus in human fetal diploid (HFD) cover-slip cell cultures; it was a sensitive, precise, and rapid assay method. Approximately 2 hr was required for maximal adsorption of RS virus to HFD cell monolayers. However, about 15% of the infectious virus in the inoculum remained unadsorbed; this percentage was not significantly reduced even when the adsorption period was extended to 5 hr. A linear relationship between virus concentration and the number of fluorescent cells existed over a range of 1.2 log(10) units. Variation of the mean of replicate determinations in a single experiment was approximately 7.5%. The distribution of single infected HFD cells on cover-slip cell cultures corresponded with the calculated frequencies of the Poisson distribution. The Chi square test for the extent of fit was calculated for several experiments, and the value of P was never less than 0.5. The addition of immune serum after virus adsorption effectively inhibited the development of detectable levels of viral antigen in secondarily infected cells.     

Amino acid sequence of human respiratory syncytial virus nucleocapsid protein.

Amino acid sequence of the human respiratory syncytial (RS) virus nucleocapsid (NC) protein, deduced from the DNA sequence of a recombinant plasmid, is presented. The cDNA plasmid (pRSB11) has 1412 bp of RS viral NC sequence and lacks six nucleotides of the 5' end of mRNA. There is a single long open reading frame encoding 467 amino acids. This 51540 dal protein is rich in basic amino acids and has no homologies with other known viral capsid proteins.     

Emerging and re-emerging viral infections in Europe

Emerging viral infections are becoming a serious problem in Europe in the recent years. This is particularly true for severe acute respiratory syndrome (SARS), West Nile virus (WNV) disease, Toscana virus (TOSV) disease, and potentially for avian influenza virus (H5N1). In contrast, emergence or re-emergence of severe viral infections, including tick borne encephalitis virus, and viral haemorrhagic fever caused by Hantavirus and dengue virus have been frequently reported in several European countries. Laboratory diagnosis of these viral infections based on viral isolation or detection by immune electron microscopy, immunoassay and polymerase chain reaction (PCR) has dramatically improved in the recent years, and SARS represents a good example of a diagnostic approach to emerging viral infections. Finally, old and new promising agents are in the pipeline of pharmaceutical companies to treat emerging viral infections. However only prevention based on large epidemiological studies, and research and development of new vaccines may be able to control and eventually eradicate these deadly viral infections.     

Role of lymphokines in immune response in respiratory viral infections

The present review deals with the analysis of lymphokine response in two main respiratory viral infections: influenza and respiratory syncytial (RS) infection. Immune response in these two diseases has great phenomenological differences. In particular, in RS infection the intensive response of macrophages and epithelial cells, accompanied mainly by the synthesis and secretion of tumor necrosis factor and interleukin 8, is observed. Due to this fact no protective immunity is formed in RS infection, in contrast to influenza. The specific features of immune and lymphokine response in RS infection make it difficult to develop protective vaccines. At the same time it is with RS infection that the development of chronic bronchopulmonary diseases is linked. The analysis of the role of lymphokine response in respiratory viral infections, particularly in influenza and RS infections, confirms the necessity of revising therapy both in the acute and subacute stages of these diseases.     

Initiation and maintenance of persistent infection by respiratory syncytial virus.

Propagation of cells infected with temperature-sensitive (ts) mutants of respiratory syncytial (RS) virus at nonpermissive temperature (39 degrees C) resulted in cytolytic, abortive, or persistent infection, depending on the mutant used to initiate infection. Five mutants from complementation group B produced cytolytic or abortive infections, whereas a single mutant (ts1) from group D and a noncomplbmenting mutant produced persistent infections. The persistently infected culture initiated by mutant ts1 (RS ts1/BS-C-1) has been maintained in serial culture for greater than 100 transfers, and infectious-center assays and immunofluorescent staining indicated that all cells harbored the RS virus genome. RS ts1/BS-C-1 cultures were resistant to superinfection by homologous and some heterologous viruses, and interferon-like activity against some heterologous viruses was present in the culture medium. Small amounts (0.002 to 0.2 PFU/cell) of infectious virus were present in the culture fluid, but autointerfering defective particles were not detected. This released virus formed small plaques and produced persistent infection of BS-C-1 cells at 37 degrees C. The RS ts1/BS-C-1 cells contained abundant RS virus antigen internally, but little at the surface, although the cells showed enhanced agglutinability by concanavalin A. Nucleocapsids and the 41,000-molecular-weight nucleoprotein were present in extracts of both nucleated and enucleated cells. No infectious RS virus was obtained by transfection of DNA from RS tsl/BS-C-1 cells to susceptible BS-C-1 or feline embryo cells under conditions allowing efficient transfection of a foamy virus proviral DNA. It was concluded that persistent infection was maintained in part by a non-ts variant of RS virus partially defective in maturation. The karyotype of the RS ts1/BS-C-1 culture differed from that of unifected cells.     

Human respiratory syncytial virus glycoprotein G expressed from a recombinant vaccinia virus vector protects mice against live-virus challenge.

Recombinant vaccinia virus vectors were constructed which expressed the major surface glycoprotein G of human respiratory syncytial (RS) virus. The biological activity of the G protein expressed from these vectors was assayed. Inoculation of rabbits with live recombinant virus induced high titers of antibody which specifically immunoprecipitated RS virus G protein and was capable of neutralizing RS virus infectivity. Immunization of mice by either the intranasal or the intraperitoneal route with recombinant virus that expressed only the G protein resulted in complete protection of the lower respiratory tract upon subsequent challenge with live RS virus.     

双单克隆抗体ELISA间接夹心法检测流行性出血热病毒抗原

建立了检测流行性出血热(EHF)病毒抗原的双单克隆抗体(McAb)ELISA同接夹心法,用本法和间接荧光抗体技术(IFAT)相比较,IFAT检出感染细胞内病毒抗原的高峰在感染后第8天,而ELISA检测感染上清中病毒抗原的高峰在第14天,两方法检测179份人工感染EHF病毒的乳鼠脑和肺组织标本,阳性检出率分别为72.1％和68.2％,实验结果表明,本法特异,敏感,简便,不仅可用于EHF病原学研究,也适用于流行病学调查检测大量鼠肺标本。     

Pathogen genomic surveillance elucidates the origins,transmission and evolution of emerging viral agents in China

In the past twenty years, numerous novel zoonotic viral agents with pandemic potential have emerged in China, such as the severe acute respiratory syndrome (SARS) coronavirus and, more recently, the avian-origin influenza A/H7N9 virus, which have caused outbreaks among humans with high morbidity and mortality. In addition, several emerging and re-emerging viral pathogens have also been imported into China from travelers, e.g. the Middle East respiratory syndrome (MERS) coronavirus and Zika virus (ZIKV). Herein, we review these emerging viral pathogens in China and focus on how surveillance by pathogen genomics has been employed to discover and annotate novel pathogenic agents, identify natural reservoirs, monitor the transmission events and delineate their evolution and adaption to the human host. We also highlight the application of genomic sequencing in the recent Ebola epidemics in Western Africa. In summary, genomic sequencing has become a standard research tool in the field of emerging infectious diseases which has been proven invaluable in containing these viral infections and reducing burden of disease in humans and animals. Genomic surveillance of pathogenic agents will serve as a key epidemiological and research tool in the modern era of precision infectious diseases and in the future studies of virosphere.     

Epidemiological analysis of acute respiratory disease (ARD) and characteristics of the influenza epidemic in Bohemia during the season 1986/1987

The authors analyze the findings of epidemiological and virological surveillance of ARD in Bohemia during the season 1986/1987. In all, 57.5% of the Czech population was affected by acute respiratory disease (ARD). There were 5,950,832 cases reported, 124,444 complications (2.1% of the overall morbidity rate) and 5,374 deaths due to influenza, bronchitis, pneumonia and chronic pulmonary affection. The influenza epidemic commenced during the 48-th calendary week (CW) and lasted 5 weeks till the 52-nd CW. The epidemic was due to an influenza virus strain of the subtype A(H1N1) antigenically related to the drift variant A (Singapore) 6/86. Within an extremely short period of the epidemic, 1,094,865 influenza cases were reported and 22,313 cases of complications. 10.7% of the CSR population were affected during the epidemic in whose etiology noninfluenza respiratory viruses were significantly implicated, especially adenoviruses (41.7%) and the RS virus (26.9%). There was no excessive mortality in the course of the epidemic. The authors discuss the atypical nature of this particular influenza epidemic and the etiological role of respiratory viruses.     

Recombinant vaccinia viruses carrying the N gene of human respiratory syncytial virus: studies of gene expression in cell culture and immune response in mice.

The construction and characterization of vaccinia virus recombinants carrying the nucleocapsid (N) protein gene of human respiratory syncytial (RS) virus are described. Recombinant viruses were constructed that contained the N gene oriented either positively or negatively with respect to the 7.5-kilodalton vaccinia virus promoter. In addition, a positively oriented recombinant was constructed that lacked an out-of-frame AUG codon in the 5'-terminal noncoding region. In HEp-2 cells, both positive-orientation recombinants induced the synthesis of a protein which comigrated with N protein and was precipitated by antisera to RS virus. Sera from mice immunized with these recombinants specifically precipitated the RS virus N protein. Analysis of mRNA and protein expressed from the recombinant N genes showed that deletion of the upstream AUG codon markedly improved the efficiency of protein synthesis. Mice were vaccinated with the high-expressing recombinant and subsequently challenged with live RS virus. The results of these experiments demonstrated that the immune response to N protein afforded a significant degree of protection against RS virus disease.     

Eurasian-origin gene segments contribute to the transmissibility, aerosol release, and morphology of the 2009 pandemic H1N1 influenza virus

The epidemiological success of pandemic and epidemic influenza A viruses relies on the ability to transmit efficiently from person-to-person via respiratory droplets. Respiratory droplet (RD) transmission of influenza viruses requires efficient replication and release of infectious influenza particles into the air. The 2009 pandemic H1N1 (pH1N1) virus originated by reassortment of a North American triple reassortant swine (TRS) virus with a Eurasian swine virus that contributed the neuraminidase (NA) and M gene segments. Both the TRS and Eurasian swine viruses caused sporadic infections in humans, but failed to spread from person-to-person, unlike the pH1N1 virus. We evaluated the pH1N1 and its precursor viruses in a ferret model to determine the contribution of different viral gene segments on the release of influenza virus particles into the air and on the transmissibility of the pH1N1 virus. We found that the Eurasian-origin gene segments contributed to efficient RD transmission of the pH1N1 virus likely by modulating the release of influenza viral RNA-containing particles into the air. All viruses replicated well in the upper respiratory tract of infected ferrets, suggesting that factors other than viral replication are important for the release of influenza virus particles and transmission. Our studies demonstrate that the release of influenza viral RNA-containing particles into the air correlates with increased NA activity. Additionally, the pleomorphic phenotype of the pH1N1 virus is dependent upon the Eurasian-origin gene segments, suggesting a link between transmission and virus morphology. We have demonstrated that the viruses are released into exhaled air to varying degrees and a constellation of genes influences the transmissibility of the pH1N1 virus.     

Human cytotoxic T cells stimulated by antigen on dendritic cells recognize the N, SH, F, M, 22K, and 1b proteins of respiratory syncytial virus.

We examined the human cytotoxic T-cell repertoire of nine adults to 9 of the 10 proteins of respiratory syncytial (RS) virus. Peripheral blood mononuclear cells from normal adults were stimulated with RS virus in vitro. The resulting polyclonal cultures were tested for lysis of B-lymphoblastoid cell lines infected with recombinant vaccinia viruses expressing each of nine individual RS virus proteins. The use of peripheral blood dendritic cells to present antigen gave more easily reproducible results over a shorter culture period than conventional methods. The six RS virus proteins most strongly recognized were the nucleoprotein N (nine of nine donors with greater than 10% above background lysis; P = 0.0004), the surface proteins SH (six of nine donors; P = 0.002) and F (five of nine donors; P = 0.008), the matrix proteins M (five of nine donors; P = 0.004) and 22K (three of nine donors; P = 0.01) and the nonstructural protein 1b (six of nine donors; P = 0.004). There was no significant recognition of the major surface glycoprotein G (two of nine donors), the internal phosphoprotein P (one of nine donors), or the nonstructural protein 1c (one of nine donors). Recognition was major histocompatibility complex class I restricted, but no association between major histocompatibility complex phenotype and protein specificity of T cells was seen. Recognition of F and 22K appeared to be associated with recent infection indicated by increased levels of anti-RS virus immunoglobulin G antibody in serum measured by enzyme-linked immunosorbent assay. Since cytotoxic T-cell recognition of RS virus proteins has been demonstrated to be important in the clearance of virus from infected hosts, the N, M, SH, 1b, F, and 22K proteins should be considered potential vaccine components.     

280例呼吸道感染儿童呼吸道病毒病原学检出情况及流行规律分析

目的:了解呼吸道感染儿童呼吸道病毒病原学检出情况及其流行规律,为儿童呼吸道感染的预防、诊断及治疗提供病原学依据。方法:选取2016年1月-2017年12月期间中国人民解放军中部战区总医院收治的280例呼吸道感染患儿为研究对象,分析患儿呼吸道分泌物中呼吸道病毒的检出情况,并分析呼吸道感染儿童呼吸道病毒感染与年龄、季节、疾病类型的关系。结果:280例呼吸道感染患儿中共检出98份阳性标本,阳性率为35.00%,其中有2份标本中检出2种病毒感染,混合感染阳性率为0.71%;在所有病毒类型中,呼吸道合胞病毒(RSV)病毒感染阳性率最高。1岁患儿的病毒感染阳性率最高,与其他年龄段病毒感染阳性率比较差异有统计学意义(P0.05)。呼吸道感染患儿春季、冬季的病毒感染阳性率明显高于夏季、秋季(P0.05)。不同呼吸道感染疾病类型患儿病毒感染阳性率比较差异有统计学意义(P0.05),以喘息性肺炎、毛细支气管炎、肺炎患儿病毒感染阳性率较高。结论:RSV是呼吸道感染儿童呼吸道病毒感染的主要致病病原体,1岁的婴幼儿较易感染,春季、冬季为其高发季节,且以肺炎、毛细支气管炎、喘息性肺炎患儿的病毒感染阳性率较高。     

裸鼠呼吸道合胞病毒感染的动物模型

呼吸道合胞病毒(RSV)是全世界婴幼儿下呼吸道感染的首位病毒病原体,免疫缺陷个体容易发生严重感染,目前尚无理想RSV感染动物模型用于研究。我们用细胞免疫缺陷裸鼠感染RSV,旨在建立理想的动物模型,为RSV感染的防治研究奠定基础。裸鼠滴鼻感染RSV后肺组织分离到病毒,直接免疫荧光检测到支气管肺泡灌洗液RSV抗原阳性,空斑形成实验检测肺组织病毒滴度在感染后第3天达高峰,并持续到第9天仍能检测到病毒。免疫组化检测RSV抗原主要分布在细支气管、毛细支气管和肺泡上皮细胞胞浆内。肺组织病理学显示RSV感染导致裸鼠淋巴细胞浸润为主的肺间质性炎症,电镜分析超微结构可见到细胞内病毒颗粒和气血屏障的破坏。支气管肺泡灌洗液白细胞计数显示裸鼠RSV感染炎症高峰在感染后第9天。裸鼠RSV感染的病毒复制和病理改变特点与人相似,病毒持续高水平复制,是客观而实用的评价抗RSV制剂效果的小鼠模型。     

Nucleotide sequence of the gene encoding respiratory syncytial virus matrix protein.

The amino acid sequence of the matrix protein of the human respiratory syncytial virus (RS virus) was deduced from the sequence of a cDNA insert in a recombinant plasmid harboring an almost full-length copy of this gene. It specifically hybridized to a single 1,050-base mRNA from infected cells. The recombinant containing 944 base pairs of RS viral matrix protein gene sequence lacked five nucleotides corresponding to the 5' end of the mRNA. The nucleotide sequence of the 5' end of the mRNA was determined by the dideoxy sequencing method and found to be 5' NGGGC, wherein the C residue is one nucleotide upstream of the cloned viral sequence. The initiator ATG codon for the matrix protein is embedded in an AATATGG sequence similar to the canonical PXXATGG sequence present around functional eucaryotic translation initiation codons. There is no conserved sequence upstream of the polyadenylate tail, unlike vesicular stomatitis virus and Sendai virus, in which four nucleotides upstream of the polyadenylate tail are conserved in all genes. There is no equivalent of the eucaryotic polyadenylation signal AAUAAA upstream of the polyadenylate tail. The matrix protein of 28,717 daltons has 256 amino acids. It is relatively basic and moderately hydrophobic. There are two clusters of hydrophobic amino acid residues in the C-terminal third of the protein that could potentially interact with the membrane components of the infected cell. The matrix protein has no homology with the matrix proteins of other negative-strand RNA viruses, implying that RS virus has undergone extensive evolutionary divergence. A second open reading frame potentially encoding a protein of 75 amino acids and partially overlapping the C terminus of the matrix protein was also identified.