ATL and its virus]

A retrovirus called Human T cell leukemia virus type 1 (HTLV-1) is a causative agent of adult T cell leukemia (ATL). A cultured cell line called MT-2, produces constitutively HTLV-1. The characteristics of HTLV-1 produced from MT-2 has been extensively investigated. The molecular mechanism of ATL leukemogenesis by HTLV-1 is discussed.     

AIDS and its virus]

An etiological agent of AIDS is a human retrovirus called HIV. The genomic structure of HIV features regulatory genes in which tat and rev genes control the viral replication and affect cellular functions. Understanding their molecular mechanism may provide a clue to prevent the onset of AIDS from the viral carriers and to direct drug designing of AIDS.     

埃博拉病毒及其致病机制

自2014年2~3月,西非埃博拉病毒感染的暴发流行已呈播散趋势,受到世界卫生组织的高度重视。我国也提高了防止埃博拉病毒进入国内的警示,并采取了相应措施。现将有关埃博拉病毒的生物学特性、致病机制及相关流行病学与防治策略作简要综述,供参考。     

Sequence determination of the Sendai virus HN gene and its comparison to the influenza virus glycoproteins

The nucleotide sequence of the Sendai virus (SV) HN (hemagglutinin-neuraminidase) gene was determined. The deduced primary structure of the protein showed only one hydrophobic domain likely to represent the transmembrane region, but at its N terminus. Since the SV F protein is anchored in the membrane at its C terminus, the two SV glycoproteins are thus membrane-anchored in opposite orientations, similar to the two influenza virus (FLU) glycoproteins. Amino acid sequence comparisons of the SV HN and the FLU HA and NA proteins revealed homologies between 100 amino acids of the hemagglutinin region of the FLU HA protein and the C terminus of the SV HN, and between 200 amino acids of the neuraminidase region of the FLU NA and the central region of SV HN. Alignment of the neuraminidase, hemagglutinin, and fusion regions shared by these glycoproteins suggest the structure of a possible ancestral gene.     

Influenza virus assembly and its defects

The most abundant protein within the influenza virus particles is membrane protein (M protein) which forms an inner virus membrane under a lipid bilayer and plays the role of mediator during the process of assembly of a virus particle on plasma membranes. Ehrlich ascites tumor cells (EAT) when infected with influenza virus, strain WSN, produced virus-like particles containing greatly reduced amounts of M protein. Such particles were extremely fragile and easily lost hemagglutinins. The loss of this glycoprotein was accompanied by a decrease in infectious activity.SDS-PAGE analysis of RNA duplexes formed after hybridization of intracellular labeled mRNAs and unlabeled virion RNA showed that the mRNA for M protein was synthesized in EAT nearly in the same amounts as in productively infected chicken fibroblasts. Accordingly, M protein was readily revealed when the polypeptides of infected EAT were analyzed by SDS-PAGE. Thus, the reduced amount of M protein in virus particles was likely not due to the decrease in its synthesis but rather to its defective structure or to its defective transport and misintegration into plasma membranes of EAT.     

Groundnut rosette and its assistor virus

Chlorotic rosette from Malawi (isolate CR1), passed through Stylosanthes gracilis and S. juncea, was not subsequently transmissible from groundnuts (Arachis hypogaea) by Aphis craccivora or A. gossypii, but with S. mucronata transmissibility was occasionally regained after a period of time. Aphid transmissibility was similarly lost after passage of two isolates (a chlorotic rosette from Rhodesia, CR2, and a green rosette from Nigeria, GR) through soybean (Soja max) and after manual inoculation to groundnuts. Groundnut plants that remained symptomless after exposure to rosette infection by aphids often contained a virus that restored aphid transmissibility when introduced into groundnuts containing the vectorless virus from that isolate. Groundnut rosette disease therefore consists of a symptom-inducing virus that we call groundnut rosette virus (GRV) and a symptomless assistor virus (GRAV) that must be present for aphid transmission. The interactions between the GRV and GRAV of chlorotic and green rosette, and their transmission by different vector races, are described.     

Characterization of K virus and its comparison with polyoma virus.

The antigenic relationship between the two murine papovaviruses, K virus and polyoma virus, was examined by serological techniques to determine whether they shared any antigenic components. No cross-reactivity was found associated with the viral (V) antigens by the indirect immunofluorescence, neutralization, or hemagglutination-inhibition tests. The tumor (T) antigens expressed in transformed cells or cells productively infected by either K or polyoma virus did not cross-react by indirect immunofluorescence. An antigenic relationship was detected, however, among the late proteins of K virus, polyoma virus, simian virus 40, and the human papovavirus BKV, when tested with either hyperimmune sera prepared against polyoma virus and simian virus 40 or sera prepared against disrupted virions. The nucleic acids of K and polyoma viruses were compared by agarose gel electrophoresis and restriction endonuclease analysis. No nucleotide sequence homology between the genomes of these two viruses was detectable by DNA-DNA hybridization techniques under stringent conditions. The genome of K virus was found to be slightly smaller than that of polyoma virus, and the cleavage patterns of the viral DNAs with six restriction endonucleases were different. These findings indicate that there is little relationship between these two murine papovaviruses.     

Molecular evolution of Pepino mosaic virus during long‐term passaging in different hosts and its impact on virus virulence

In this study the effect of host changes and multiple passages on Pepino mosaic virus (PepMV) evolution was analysed. A population of a mild isolate of PepMV was used to generate five independent evolution lineages on three tomato cultivars, which differ in rate of appearance of symptoms and their severity during viral infection (Beta Lux, Moneymaker and Malinowy O?arowski) and on Datura inoxia. Twenty serial passages were performed over a period of 217–220 days. Symptom severity was monitored along the entire experiment. After the last series of passages total RNAs from each lineage and host were isolated and the triple gene block 3 (TGB3) and coat protein (CP) were amplified, cloned and 10 clones for each gene sequenced. Among the 400 clones for both genes, 143 individual mutations (61 synonymous and 82 nonsynonymous) were identified, with the largest number of nonsynonymous mutations being observed for the tomato cultivars Malinowy O?arowski and Beta Lux. In two of the lineages evolving in the most susceptible variety of tomato (Beta Lux) necrotic changes in leaf blades appeared after 17 passages, leading to death of the plants. In these two lineages the mutation responsible for necrotic symptoms was K67E in TGB3. The appearance of this convergent mutation in independently evolving lineages may suggest that selection in this experimental set up favours more aggressive PepMV variants. We found a positive association between the severity of symptoms and the amount of genetic variability contained on viral populations. Indeed, the severity of symptoms turned out to be a good predictor for several indices of molecular variability. In addition, mapping all observed mutations in CP and TGB3 protein structures revealed that most were located on the surface, indicating a possible implication in viral–viral or viral–host interactions.     

Polyadenylation of Friend murine leukemia virus env‐mRNA is affected by its splicing

As splicing was previously found to be important for increasing Friend murine leukemia virus env‐mRNA stability and translation, we investigated whether splicing of env‐mRNA affected the poly(A) tail length using env expression vectors that yielded unspliced or spliced env‐mRNA. Incomplete polyadenylation was detected in a fraction of the unspliced env‐mRNA products in an env gene‐dependent manner, showing that splicing of Friend murine leukemia virus plays an important role in the efficiency of complete polyadenylation of env‐mRNA. These results suggested that the promotion of complete polyadenylation of env‐mRNA by splicing might partially explain up‐regulation of Env protein expression as a result of splicing.     

Respiratory syncytial virus: its transmission in the hospital environment

Respiratory syncytial virus (RSV) over the past two decades has been recognized as the most important cause of lower respiratory tract disease in infants and young children. Recently, it has also been identified as a major nosocomial hazard on pediatric wards. The potential for RSV to spread on such wards is underlined by several singular characteristics of RSV. It arrives in yearly epidemics and is highly contagious in all age groups. Immunity is of short duration, allowing repeated infections to occur. Thus, during an epidemic 20--40 percent of infants admitted for other conditions may acquire nosocomial RSV infection, as well as 50 percent of the ward personnel. The usual infection control procedures for respiratory illnesses have had limited success in controlling the spread of RSV. This may be due in part to the modes of transmission of RSV. Inoculation occurs mainly through the eye and nose, rather than the mouth. This may be via large-particle aerosols or droplets, requiring close contact. The virus, however, does not seem capable of traversing distances by small-particle aerosols. Nevertheless, it is able to remain infectious on various environmental surfaces, suggesting fomites as a source of spread. Indeed, inoculation after touching such contaminated surfaces can occur, and may be a major second means of spread, in hospitals as well as in families.     

Eggplant mosaic virus, and its relationship to Andean potato latent virus

Eggplant mosaic virus (EMV), obtained from Solanum melongena L. from Trinidad, is readily transmitted by inoculation of sap to several solanaceous and a few non-solanaceous plant species. Purified preparations of EMV contain isometric particles 30 nm in diameter, and with sedimentation co efficients of either 111 or 53 S. The particles have thirty-two major morphological subunits. EMV is closely serologically related to Andean potato latent virus and has a similar host range, but is more virulent. Also, whereas EMV accumulates fastest in Nicotiana clevelandii leaves at 20–24 °C, Andean potato latent virus accumulates fastest at 15 °C, and fails to attain a serologically detectable concentration at 24 °C. A few symptomatologically or serologically distinguishable strains of EMV were obtained. EMV has properties typical of viruses of the Andean potato latent subgroup of the turnip yellow mosaic group of viruses, and its present cryptogram is */*:*/*:S/S:S/Cl.     

Cytopathology of satellite tobacco mosaic virus and its helper virus in tobacco

Ultrastructural responses of tobacco cells infected with a newly discovered satellite virus (STMV) that has an isometric morphology and is associated with rigid rodshaped tobacco mosaic virus (TMV) were studied in situ. In cells infected with TMV alone,TMV particles occurred as crystalline arrays in the cytoplasm and were usually associated with TMV-characteristic X bodies. In cells infected with both TMV and STMV, particles of STMV occurred only in cells that contained TMV particles, which suggests a correlation between the satellite and helper virus presence. However, the replication and/or accumulation sites of STMV appear to be independent from its helper virus. Unlike TMV particles, STMV particles were associated with several cytopathic structures such as granular inclusions, membranous vesicles of 50–80 nm, and myelin-like bodies which were all bounded by a single common membrane, No X bodies occurred in cells containing STMV particles, and the mitochondria possessed abnormal tubular structures containing flocculent material.     

Phosphorylation and membrane association of the Rubella virus capsid protein is important for its anti‐apoptotic function

Rubella virus (RV), a member of Togaviridae, is an important human pathogen that can cause severe defects in the developing fetus. Compared to other togaviruses, RV replicates very slowly suggesting that it must employ effective mechanisms to delay the innate immune response. A recent study by our laboratory revealed that the capsid protein of RV is a potent inhibitor of apoptosis. A primary mechanism by which RV capsid interferes with programmed cell death appears to be through interaction with the pro‐apoptotic Bcl‐2 family member Bax. In the present study, we report that the capsid protein also blocks IRF3‐dependent apoptosis induced by the double‐strand RNA mimic polyinosinic‐polycytidylic acid. In addition, analyses of cis‐acting elements revealed that phosphorylation and membrane association are important for its anti‐apoptotic function. Finally, the observation that hypo‐phosphorylated capsid binds Bax just as well as wild‐type capsid protein suggests that interaction with this pro‐apoptotic host protein in and of itself is not sufficient to block programmed cell death. This provides additional evidence that this viral protein inhibits apoptosis through multiple mechanisms.