Analysis of the Relationship between Cellular Thymidine Kinase Activity and Virulence of Thymidine Kinase-Negative Herpes Simplex Virus Types 1 and 2

The virulence of thymidine kinase-negative herpes simplex virus type 1 (HSV-1; VRTK^? strain) and type 2 (HSV-2; UWTK^? strain) was studied in comparison with that of their parental strains (VR-3 and UW-268, respectively) in an encephalitis model of adult (4-week-old) and newborn (3-day-old) mice. Viral thymidine kinase (TK) activity was essential for the maximum expression of virulence of HSV-1, because the 50% lethal dose (LD₅₀) of VRTK^? was 60 times higher than that of VR-3 in the brains of newborn mice expressing high levels of cellular TK activity. However, the UWTK^? strain showed the same virulence as the parental strain in newborn mice, despite the lack virulence in adults, suggesting that replication of the UWTK^? strain was completely supported by cellular TK activity. This difference in the role of viral and cellular TKs for virus growth between HSV-1 and HSV-2 was confirmed with the one-step growth of virus strains in L-M and L-M(TK^?) cells.     

我国肾综合征出血热疫苗生产株LR1株的全基因组序列分析

为测定我国肾综合征出血热疫苗生产株LR1株的全基因组序列 ,了解该株分子基础 ,从提取的细胞总RNA逆转录PCR扩增 ,产物纯化后克隆T载体纯化后测序 ,结果证明 ,LR1株全基因组序列由L6 5 33、M36 16、S片段的16 92个核苷酸组成 ,依各自读码框架分别编码 2 15 1、1135、42 9个氨基酸。序列同源比较分析表明 ,LR1毒株与国外HTN型毒株高度同源 ,属同一亚型 ,尤其与HTN代表株 76 - 1183个片段同源率高达 99 3%～ 99 8% ,而与国内的HTN型病毒差异较大 ,同源率仅为 79 4%～ 84 6 %。氨基酸比较也显示了同样的结果。     

Establishment of an enzyme-linked immunosorbent assay for detection of hantavirus antibody of rats using a recombinant of nucleocapsid protein expressed in Escherichia coli.

A recombinant nucleocapsid protein of Hantaan virus (HTN) 76-118 strain expressed in E. coli was applied as a serodiagnostic antigen in an enzyme-linked immunosorbent assay (rHTN-ELISA) for detection of hantavirus antibody in rat sera. The sensitivity and specificity of the rHTN-ELISA were compared with those of the indirect immunofluoresent assay (IFA) using virus-infected cells. The sensitivity of rHTN-ELISA was similar to that of the IFA both in experimentally SR-11 infected rat and naturally infected rat sera. Sera showing a low antibody titer in IFA and suspected to be negative by other methods were also found to be negative in rHTN-ELISA. These results indicate that rHTN-ELISA is effective as a screening method for serodiagnosis of hantaviruses, because of its high sensitivity, specificity, safety and suitability for processing large number of samples.     

Pathogenicity of Hantaan virus in newborn mice: genetic reassortant study demonstrating that a single amino acid change in glycoprotein G1 is related to virulence

Two Hantaan virus strains, clone 1 (cl-1), which is virulent in newborn mice, and its attenuated mutant (mu11E10), were used to examine the pathogenesis of Hantaan virus infection in a mouse model and identify virus factors relating to virulence. After subcutaneous inoculation of newborn BALB/c mice, cl-1 caused fatal disease with high viral multiplication in peripheral organs, but mu11E10 produced nonfatal infection with a low level of virus multiplication. Intracerebral inoculation of either strain caused fatal disease. Histopathological changes in the dead animals were prominent in the brain, indicating that the brain is the target organ and produces the fatal outcome. These results indicate that mu11E10 has a generally less virulent phenotype, and because of decreased multiplication in peripheral tissues, neuroinvasiveness is also decreased. An experiment with genetic reassortant viruses showed that in newborn mice the M segment is the most related to virulence and the L segment is partly related. Sequence comparison detected a single deduced amino acid change (cl-1 Ile to mu11E10 Thr) at amino acid number 515 in glycoprotein G1. One nucleotide change, but no amino acid substitution, was observed in the noncoding region of the L segment. In mouse brain microvascular endothelial cells in vitro, viruses possessing a cl-1-derived M segment grew more rapidly than viruses containing a mu11E10-derived M segment. These results suggest that the single amino acid change in the glycoprotein alters peripheral growth, which affects invasion of the central nervous system in mice.     

乙脑/寨卡嵌合病毒包膜蛋白T120A位点突变对小鼠脑内神经毒力的影响

为探索包膜蛋白T120A突变对乙脑/寨卡嵌合病毒JEV/ZIKV小鼠脑内神经毒力的影响,应用重叠延伸PCR和分子克隆技术构建含T120A突变的乙脑/寨卡嵌合病毒全长cDNA质粒,经酶切、测序鉴定后,以其为模板体外转录制备RNA,电转染导入BHK21细胞,收获培养液上清获得突变病毒株JEV/ZIKV (T120A)。分别用JEV/ZIKV和JEV/ZIKV (T120A)感染BHK21细胞,绘制病毒增殖曲线,比较蚀斑大小;脑内接种昆明鼠,比较病毒小鼠脑内神经毒力差异。突变病毒感染性克隆经酶切鉴定表明成功构建,增殖曲线发现:突变病毒高峰滴度为5.59 log_(10)pfu/mL,低于JEV/ZIKV的峰值(6.8 log_(10)pfu/mL),JEV/ZIKV (T120A)的小鼠脑内神经毒力LD_(50)为1.38 PFU(0.03 mL),JEV/ZIKV病毒LD_(50)为2.21 PFU(0.03 mL)。研究表明寨卡病毒包膜蛋白T120A突变降低了乙脑/寨卡嵌合病毒的复制能力,但却轻微增强了病毒小鼠脑内神经毒力。     

A Novel Rabies Vaccine Based on a Recombinant Parainfluenza Virus 5 Expressing Rabies Virus Glycoprotein

Untreated rabies virus (RABV) infection leads to death. Vaccine and postexposure treatment have been effective in preventing RABV infection. However, due to cost, rabies vaccination and treatment have not been widely used in developing countries. There are 55,000 human death caused by rabies annually. An efficacious and cost-effective rabies vaccine is needed. Parainfluenza virus 5 (PIV5) is thought to contribute to kennel cough, and kennel cough vaccines containing live PIV5 have been used in dogs for many years. In this work, a PIV5-vectored rabies vaccine was tested in mice. A recombinant PIV5 encoding RABV glycoprotein (G) (rPIV5-RV-G) was administered to mice via intranasal (i.n.), intramuscular (i.m.), and oral inoculation. The vaccinated mice were challenged with a 50% lethal challenge dose (LD₅₀) of RABV challenge virus standard 24 (CVS-24) intracerebrally. A single dose of 10⁶ PFU of rPIV5-RV-G was sufficient for 100% protection when administered via the i.n. route. The mice vaccinated with a single dose of 10⁸ PFU of rPIV5-RV-G via the i.m. route showed very robust protection (90% to 100%). Intriguingly, the mice vaccinated orally with a single dose of 10⁸ PFU of rPIV5-RV-G showed a 50% survival rate, which is comparable to the 60% survival rate among mice inoculated with an attenuated rabies vaccine strain, recombinant LBNSE. This is first report of an orally effective rabies vaccine candidate in animals based on PIV5 as a vector. These results indicate that rPIV5-RV-G is an excellent candidate for a new generation of recombinant rabies vaccine for humans and animals and PIV5 is a potential vector for oral vaccines.     

汉滩病毒西安分离株84FLi的L片段核苷酸序列测定以及分析

采用逆转录 聚合酶链式反应 (RT PCR) ,分节段扩增汉滩病毒 84FLi株的L基因片段cDNA ,纯化的PCR产物片段直接用于序列测定或克隆入 pND18 T载体中进行测序。结果表明 ,84FLi株的L片段cDNA由 6 5 33个核苷酸组成 ,四种核苷酸的比例分别为A33.39% ,C16 .4 3% ,G2 0 .74 % ,T2 9.4 4 %。GC含量为 37.17% ,AT含量为6 2 .83%。推导出的最大开放读码框架为从 38到 6 4 93,共编码 2 15 1个氨基酸。序列同源性分析表明 ,84FLi株核苷酸与HTN型国际标准毒株 76 118的同源性为 83.7% ,差异性为 18.8% ;而与中国株A9的同源性高达 97.6 % ,差异性仅为 2 .4 %。与SEO型代表Seoul80 39的同源性为 75 .2 % ,6 6 .1%～ 6 6 .5 %。L片段的氨基酸比较分析表明 ,L片段与HTN型间的同源性为 97.5 %～ 98.0 % ,而与SEO型的同源性为 83.5 %～ 85 .5 %。与PUC、TUL、SN和AND等其它型汉滩病毒的同源性仅为 6 8.6 %～ 6 9.6 %。结果表明 84FLi株属于HTN型 ,并与分离自国内的HTN型病毒高度同源     

Experimental Infection in Newborn Mice and Rats by Hemorrhagic Fever with Renal Syndrome (HFRS) Virus

Newborn mice and rats were inoculated intracerebrally (ic) or intraperitoneally (ip) with Hantaan virus (76–118 strain) or HFRS-related virus (B-1 strain). The mortality and the influence on the increase of body weight in newborn mice were higher in the groups infected with the 76–118 strain than in the groups infected with the B-1 strain, while the B-1 strain was more virulent in rats than the 76–118 strain. Virus isolation from rats inoculated with either strain was attempted 7 and 11 weeks after inoculation. Virus could be isolated from various organs of rats infected with the B-1 strain, while it was recovered from only the brain and lungs of rats infected with the 76–118 strain. Viral antigen was readily detected in various organs of rats infected with the B-1 strain, but the amount and distribution of antigens were less in rats infected with the 76–118 strain. Our results suggest that the virulence of HFRS-related virus is variable, depending on the species of infected animals as well as on the. virus strains. The virus also persists in the injected animals with high titers of antibodies for at least 11 weeks.     

Influenza C Virus Infection in Rats

Four-week-old rats (WKA/Hkm strain) were infected intranasally with the Ann Arbor/1/50 strain of influenza C virus and examined for clinical symptoms, virus replication, and serum antibody response. Although the animals showed no definite signs of illness, the virus replicated in the nose, and the hemagglutination-inhibiting (HI) and neutralizing antibodies were produced in their sera. When the inoculum sizes of 10^6.2 and 10^3.2 PFU were used, virus was recovered from nasal homogenates between days 1 and 10, and serum HI antibody became detectable by 10 days after infection. The rats infected with 10^1.2 PFU of the virus continued to shed virus until as late as day 20 without producing serum HI antibody. The amount of virus recovered from the nose was not affected significantly by either sex. age, or strain of the rat except that a slower virus growth was seen in the LE strain. It was also observed that the rats, previously inoculated with 10^3.2 PFU of the virus, showed no virus shedding when reinfected 7 weeks later but produced virus though in low titers when reinfected 50 to 55 weeks later. Virus was also recovered from rats once inoculated with 10^1.2 PFU of the virus when challenged 7 weeks later. Thus repeated infections characteristic of human influenza C can be produced in rats under the restricted conditions.     

汉坦病毒HTN261株S基因片段的核苷酸序列测定及分析

黑龙江省是肾综合征出血热(HFRS)的重疫区。近年来HFRS年的发病人数曾超过万人。流行病学和血清学研究表明黑龙江省HFRS疫区主要是姬鼠型,但目前尚缺乏病毒的分子生物学资料。我们对从疫区捕获的宿主动物-黑线姬鼠肺中分离的汉坦病毒HTN261株的S基因片段的全基因序列进行了测定和初步分析。结果如下,HTN261株的S基因片段的全序列长为1697nt。只有一个主要的编码N蛋白的ORF,起始位置为第37nt,终止于1326nt,编码的蛋白长为429aa。没有发现存在ORF2。HTN261株的S基因片段核苷酸序列与HTN型中的病毒株的同源性很高,而与汉坦病毒其他型的同源性较差。从种系发生树分析来看,HTN261株归结于汉坦病毒的HTN型。在HTN型之内,HTN261株和HTN76-118株在一个分枝内。就其核苷酸和蛋白的同源性来说,HTN261株和HTN76-118株的同源性分别是89%(全S基因)和98%(蛋白)。而与中国境内发现的其他汉坦病毒株Z10,HU,Chen4,NC167等基因和蛋白的同源性相对较差。汉坦病毒除具有其宿主的依赖性外,还具有其地理的簇集性。HTN261株和HTN76-118株之间S基因和N蛋白序列的变异性的差异分别为11%和2%,表明HTN261株和HTN76-118株还有不同,可能是不同的亚型。不过,尚有待于进一步研究证明。     

汉坦病毒HTN261株S基因片段的核苷酸序列测定及分析

黑龙江省是肾综合征因热（HFRS）的重疫区。近年来HFRS年的发病人数曾超过万人。流行病学和血清学研究表明黑龙江省HFRS疫区主要是姬鼠型,但目前尚缺乏病毒的分子生物学资料。我们对从疫区捕获的宿主动物－黑线姬鼠肺中分离的汉坦病毒HTN261株的S基因片段的全基因序列进测定和初步分析。结果如下,HTN261株的S基因片段的全序列长为1697nt。只有一个主要的编码N蛋白的ORF,起始位置为第37nt,终止于1326nt,编码的蛋白长为429aa。没有发现存在ORF2。HTN261株的S基因片段核苷酸序列与HGTN型中的病毒株的同源性很高,而与汉坦病毒其他型的同源民生较差,从种系发生树分析来看,HNT261株归结于汉坦病毒的HTN型。在HTN型之内,HTN261株和HTN76－118株在一个分枝内,就其核苷酸和蛋白的同源性说,HT N261株和HTN76－118株的同源性分别是89％（全S基因）和98％（蛋白）。而与中国境内发现的其他汉坦病毒株Z10,HU,Chen4,NC167等基因和蛋白的同源性相对较差,汉坦病毒除具有其宿主的依赖性外,还具有其地理的簇集性。HTN261株和HTN76－118株之间S基因和N蛋白序列的变异性的差异分别为11％和2％,表明HTN261株和HTN76－118株还有不同,可能是不同的亚型。不过,尚有待于进一步研究证明。     

Genetic mapping of lymphocytic choriomeningitis virus pathogenicity: virulence in guinea pigs is associated with the L RNA segment.

The Armstrong CA 1371 (ARM) and WE strains of lymphocytic choriomeningitis virus (LCMV) differ in the ability to produce disease in adult guinea pigs. Infection with the ARM strain is not lethal, even at high virus doses (greater than 10,000 PFU), whereas the WE strain causes 100% mortality even at low doses (less than 10 PFU). To determine the genetic basis of this virulence, intertypic reassortants were made between the ARM and WE strains of LCMV. The two reassortants with the genotypes WE/ARM (L segment of WE and S segment of ARM) and ARM/WE (L segment of ARM and S segment of WE) were tested for their pathogenicity in guinea pigs. The ARM/WE reassortant was avirulent like the ARM/ARM parental strain. Minimal viral replication was observed in organs of guinea pigs inoculated with 10(2) or 10(5) PFU of ARM/ARM or ARM/WE, and all animals survived. In contrast, the WE/ARM reassortant was highly virulent like the WE/WE parental strain and killed all of the infected animals. High levels of viral replication were observed in guinea pigs infected with the latter two strains. In contrast to these in vivo observations, both the parental strains and the ARM/WE or WE/ARM reassortants had similar growth potential in cultured guinea pig fibroblasts. Thus, the L RNA segment of LCMV WE is important for viral replication in vivo and is associated with fatal acute disease after infection of adult guinea pigs.     

Pathogenesis of encephalitis induced in newborn mice by virulent and avirulent strains of Sindbis virus.

Strains of Sindbis virus differ in their virulence for mice of different ages; this variation is related in large part to variations in the amino acid compositions of E1 and E2, the surface glycoproteins. The comparative pathogenesis of Sindbis virus strains which are virulent or avirulent for newborn mice has not been previously examined. We have studied the diseases caused by a virulent wild-type strain, AR339, and two less virulent laboratory strains, Toto1101 and HRSP (HR small plaque). After peripheral inoculation of 1,000 PFU, AR339 causes 100% mortality within 5 days (50% lethal dose [LD50] = 3 PFU) while Toto1101 causes 70% mortality (LD50 = 10(2.4) PFU) and HRSP causes 50 to 60% mortality (LD50 = 10(5.1) PFU) with most deaths occurring 7 to 11 days after infection. However, after intracerebral inoculation of 1,000 PFU, Toto1101 is virulent (100% mortality within 5 days; LD50 = 4 PFU) while HRSP is not (75% mortality; LD50 = 10(4.2) PFU). After intracerebral inoculation, all three strains initiate new virus formation within 4 h, but HRSP reaches a plateau of 10(6) PFU/g of brain while Toto1101 and AR339 replicate to a level of 10(8) to 10(9) PFU/g of brain within 24 h. Interferon induction parallels virus growth. Mice infected with HRSP develop persistent central nervous system infection (10(6) PFU/g of brain) until the initiation of a virus-specific immune response 7 to 8 days after infection when virus clearance begins. The distribution of virus in the brains of mice was similar, but the virus was more abundant in the case of AR339. HRSP continued to spread until day 9. Clearance from the brain was complete by day 17. We conclude that the decreased virulence of HRSP is due to an intrinsic decreased ability of this strain of Sindbis virus to grow in neural cells of the mouse. We also conclude that CD-1 mice do not respond to the antigens of Sindbis virus until approximately 1 week of age. This lack of response does not lead to tolerance and persistent infection but rather to late virus clearance whenever the immune response is initiated.     

Cellular entry of Hantaan virus A9 strain: specific interactions with beta3 integrins and a novel 70kDa protein

Cellular entry of pathogenic hantaviruses had been shown to be mediated by beta3 integrins. However, no direct evidence exists that hantavirus binds to beta3 integrins, and integrin beta3 subunit is not expressed on some cells permissive to hantavirus infection. In this report, utilizing beta3-integrin-transfected CHO cells, we demonstrated that integrin beta3 subunit renders CHO cells susceptible to Chinese Hantaan virus (HTN) strain A9 (isolated in China), and the viral infection was correspondingly inhibited by antibodies to alphavbeta3, alphaIIbbeta3, beta3, and alphav integrins. Furthermore, virus overlay protein-binding assay and 'quarternary Western' analysis indicate that HTN A9 directly interacts with beta3 integrins and an unidentified 70kDa protein. These findings indicate that beta3 integrins play a crucial role in cellular entry of HTN A9 via specific interactions with the virus. In addition, a novel 70kDa protein may serves as a candidate receptor or alternative cellular component for interaction with HTN.     

Comparison of virulence between two strains of Rattus serotype hemorrhagic fever with renal syndrome (HFRS) virus in newborn rats

Two strains of hemorrhagic fever with renal syndrome (HFRS) virus from Rattus, SR-11 and KI-262, showed virtually identical antigenicity but differed from prototype strain Hantaan 76-118 (Apodemus origin) in a neutralization test. Wistar newborn rats inoculated intraperitoneally (i.p.) with SR-11, which was isolated from a laboratory rat associated with an outbreak of HFRS, developed clinical signs such as ataxia and limb paralysis and died at about 18 days after inoculation. The LD50 of SR-11 in 1-day-old rats was 10(1.2) focus-forming units (FFU). In contrast, the animals inoculated i.p. or intracerebrally with 10(4) FFU of KI-262, which was from a wild rat in a dumping-ground area--an enzootic focus where no human cases have been recorded--did not show any significant clinical signs. The susceptibility of rats to SR-11 fatal infection was age-dependent. Virus titers in brains, lungs, kidneys, and livers of the rats inoculated with SR-11 were significantly higher than those in the same organs of the animals infected with KI-262. Necrosis of neurons in the brain tissue occurred in the rats infected with SR-11, while it was mild in the animals infected with KI-262.     

The Effects of Influenza A Virus PB1-F2 Protein on Polymerase Activity Are Strain Specific and Do Not Impact Pathogenesis

The influenza A virus PB1-F2 protein has been implicated as a virulence factor, but the mechanism by which it enhances pathogenicity is not understood. The PB1 gene segment of the H1N1 swine-origin influenza virus pandemic strain codes for a truncated PB1-F2 protein which terminates after 11 amino acids but could acquire the full-length form by mutation or reassortment. It is therefore important to understand the function and impact of this protein. We systematically assessed the effect that PB1-F2 expression has on viral polymerase activity, accumulation and localization of PB1, and replication in vitro and in mice. We used both the laboratory strain PR8 and a set of viruses engineered to study clinically relevant PB1-F2 proteins. PB1-F2 expression had modest effects on polymerase activity, PB1 accumulation, and replication that were cell type and virus strain dependent. Disruption of the PB1-F2 reading frame in a recent, seasonal H3N2 influenza virus strain did not affect these parameters, suggesting that this is not a universal function of the protein. Disruption of PB1-F2 expression in several backgrounds or expression of PB1-F2 from the 1918 pandemic strain or a 1956 H1N1 strain had no effect on viral lung loads in mice. Alternate mechanisms besides alterations to replication are likely responsible for the enhanced virulence in mammalian hosts attributed to PB1-F2 in previous studies.Seasonal influenza is responsible for significant morbidity and mortality worldwide. In the 1990s, it was estimated to kill 36,000 persons annually in the United States alone and 250,000 to 500,000 persons in the developed world, although hospitalization rates and mortality figures varied considerably from season to season based on the circulating strains (19, 20). Influenza A viruses also have the capability to cause a pandemic if they are sufficiently novel. Strains may emerge whole or in part from animal reservoirs and establish long-term (years to decades) zoonotic lineages in humans (23). The most striking example of this phenomenon occurred in 1918, when an avian virus of the H1N1 subtype crossed the species barrier and established related lineages in two mammalian hosts, swine and humans (16). This pandemic is thought to have killed more than 40 million persons worldwide. In 2009, a novel H1N1 influenza virus of swine origin (H1N1 S-OIV) emerged and is now causing the first pandemic the world has seen in more than 40 years (14). Because of the history of pandemic influenza and the current circulation of a novel pandemic strain, there is intense interest and urgency in understanding viral factors that allow expression of disease in humans.One such virulence factor is the influenza A virus protein PB1-F2 (8). This small (87 to 90 amino acids), 11th gene product was discovered in 2001 in a search for CD8⁺ epitopes in alternative reading frames of influenza A virus genes (2). It is encoded in the +1 reading frame of the PB1 gene segment and is translated from an AUG codon downstream of the PB1 start site, probably accessed through leaky ribosomal scanning. It has been shown to contribute to virulence both directly and indirectly, through modulation of responses to bacteria (3, 11). The exact mechanism(s) through which virulence is increased by PB1-F2 expression, however, is not yet understood. Three effects of PB1-F2 expression have been suggested so far. It has been demonstrated to cause cell death in some cell types (2, 5), it has been shown to induce inflammation by recruitment of inflammatory cells in mice (11), and it has been determined to bind PB1 and to increase the activity of the influenza virus polymerase in vitro (10).The function of the PB1-F2 protein in the life cycle of influenza virus is as unclear as its precise role in virulence. Given that almost all avian influenza virus strains express a full-length PB1-F2 protein (27), it is likely to contribute to survival or transmission in the natural avian host. After introduction of viruses into mammalian hosts such as humans or swine, however, the protein often becomes truncated during adaptation, implying that any effects it might induce are not necessary for virus viability and transmission in these hosts. The 1918 H1N1 virus had a full-length PB1-F2 protein, which has been demonstrated to contribute to virulence in mice (3, 11). During the evolution of H1N1 viruses in humans over time, a stop codon at position 58 in the PB1-F2 amino acid sequence appeared around 1950 and has been retained in the human H1N1 lineage since its reemergence in 1977. Similarly, multiple swine lineages of influenza A virus have had truncations appear at different positions, including position 58, such that 25% of swine PB1-F2 sequences in GenBank lack the C-terminal portion of the protein (27). The H3N2 lineage of viruses in humans has retained a full-length PB1-F2 protein since the introduction of a new PB1 gene segment during the 1968 pandemic, although considerable variation in sequence has occurred during evolution since that time. It is tempting to map these differences in PB1-F2 expression onto patterns of human excess mortality over time, since higher mortality was associated with H1N1 epidemics in the 1930s and 1940s than has been seen since and more excess mortality occurred in recent years with H3N2 viruses than with either H1N1 or influenza B viruses (reviewed in reference 12). Differences in primary virulence or the association with bacteria mediated by PB1-F2 expression could be at least partly responsible for these observed epidemiologic trends.A recent paper from Wise et al. has shown that a 12th influenza A virus gene product, N40, is also expressed from the PB1 gene segment (24). A delicate balance between PB1, PB1-F2, and N40 appears to be in place. Polymerase activity measured by an in vitro assay was affected by changes in this balance, suggesting a potential importance for replication. If these differences translate to differences in replication, then this could be a key factor in virulence in the host. However, to this point, most studies have utilized a single laboratory variant of influenza A virus, A/Puerto Rico/8/34 (H1N1; PR8), in a limited set of cell types, in assays performed in vitro. We undertook this study to determine the relevance of potential changes in replication mediated by PB1-F2 expression, utilizing several different epidemiologically important virus strains. We found that the effects on polymerase activity and in vitro replication efficiency were virus and cell type specific and did not mediate changes in viral lung load in animals.     

C4亚型人肠道病毒71型的小鼠肌肉适应株对小鼠具有致死毒力

目的人肠道病毒71型（EV71）感染婴幼儿可导致手足口病,偶尔伴随有严重的并发症。建立EV71的小鼠模型是深入研究病毒感染的致病机制、进行疫苗和药物评价的基础。方法将EV71的临床分离株在小鼠骨骼肌中进行系列传代,得到了小鼠的肌肉适应株MP10。使用MP10经腹腔注射感染10日龄ICR小鼠,对感染小鼠的症状、病毒复制和病理进行了监测。结果与临床分离株相比,MP10对人横纹肌瘤细胞（rhabdomyosarcoma cell,RD细胞）的感染力提高,并且对小鼠的毒力增强,MP10感染10日龄小鼠可导致其瘫痪和死亡。病毒主要在骨骼肌中复制,并引发大面积的坏死性肌炎,同时神经组织未观察到病变。病理分析发现：感染小鼠体内与呼吸运动相关的肌肉均发生严重的坏死性肌炎,推测此类肌肉的坏死会影响小鼠的呼吸功能,从而成为导致小鼠死亡的因素之一。结论建立了C4亚型EV71毒株感染10日龄ICR小鼠的模型,该模型可作为研究EV71感染的致病机制、以及疫苗和药物评价的工具。     

黑龙江省大林姬鼠中汉坦病毒的分离及其S基因序列分析

为了研究黑龙江省大林姬鼠携带汉坦病毒(HV)的分子特征,对黑龙江省大林姬鼠分离株NA33的S基因进行了扩增和序列分析。结果表明,NA33株S基因全长由1 693nt组成,TA含量丰富,编码N蛋白的ORF起始于37nt,终止于1 326nt,编码的蛋白长429aa,符合HTN型编码。与HV参考毒株进行比较,NA33与Amur类汉坦病毒同源性最高,与其它HTN型相对较低,与SEO等同源性更低。N蛋白进化树分析表明,NA33位于Amur类病毒所在支系,并且与俄罗斯远东和吉林大林姬鼠分离株亲缘关系更接近,体现了一定的宿主依赖性和地理簇集性。序列分析发现,NA33的N蛋白具有Amur类汉坦病毒保守的氨基酸位点。黑龙江省大林姬鼠携带Amur类汉坦病毒,是重要的传染源。     

肾综合征出血热病毒R22株核蛋白基因的克隆序列分析及其表达

为研究肾综合征出血热病毒疫苗侯选株R22核蛋白的结构与特性,应用逆转录PCR扩增了R22编码区基因,并将扩增产物克隆于pET-3a表达质粒,测得R22株S片段编码区序列为1290个核苷酸。比较分析表明与Seoul型同源性高达96．2％,而与Hantaan型同源性仅为71．0％,与用血清学分型的结果一致。将克隆的pET－R22NP转化到BL21后,IPTG诱导得到较高效的表达,产物纯化后进行Westernblot分析,结果表达的NP仅与NP蛋白特异的单克隆抗体A35和3D9反应,而与G2蛋白特异的3D8不反应。表达的产物为汉坦病毒的诊断提供了特异性抗原。