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5. Research on COVID-19 prevention and control strategies, and the effect of home quarantine in Shenzhen, China, 2020

Author

Author), Zi-Qian Xu(Co-first, primary, Author)), Jing-Zhong Wang(Co-first, additional, Wang, Hai-Rui, additional, He, Jian-Fan, additional, Wang, Bing, additional, Yang, Yong-Cun, additional, Xian, Hui-Xia, additional, Zhang, Ya-De, additional, Feng, Si-Yang, additional, Li, Min-Min, additional, Song, Li-Xia, additional, Author), Xuan Zou(Co-corresponding, additional, and Author), Jian-Hua Lu(Co-corresponding, additional

Published
2020
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6. Re-vaccination with an adjuvanted pandemic influenza H1N1 vaccine provides early protection in healthcare workers

Author

Azzi, Alberta, Corcioli, Fabiana, Arvia, Rosaria, Clausi, Valeria, Giannecchini, Simone, Puzelli, Simona, Donatelli, Isabella, Bredholt, Geir, Pathirana, Rishi, Pedersen, Gabriel, Akselsen, Per Espen, Sjursen, Haakon, Cox, Rebecca, Chaudhry, Mamoona, Rashid, Hamad Bin, Hussain, Manzoor, Thrusfield, Michael, Rashid, Haroon, Welburn, Sue, Eisler, Mark, Cheng, Xiao-wen, Lu, Jian-hua, Zhang, Shun-xiang, He, Jian-fan, Wu, Xiao-min, Lu, Xing, Fang, Shi-song, Wu, Chun-li, Chui, Cecilia, Li, Chris, Wilkinson, Tom, Gilbert, Anthony, Zhou, Jian-Fang, Shu, Yue-Long, Oxford, John, McMichael, Andrew, Xu, Xiaoning, Germundsson, A, Gjerset, B, Hjulsager, C, Larsen, LE, Er, C, Hungnes, O, Lium, B, Mbewana, Sandiswa, Mortimer, Elizabeth, Maclean, James, Tanzer, Fiona, Hitzeroth, Inga, Rybicki, Edward, Iorio, Anna Maria, Bistoni, Onelia, Galdiero, Massimiliano, Lepri, Enrica, Camilloni, Barbara, Russano, Anna Maria, Neri, Mariella, Basileo, Michela, Spinozzi, Fabrizio, Wang, Xin, Wang, Dong-li, Fang, Shi-song., Zhang, Renli, Cheng, Jinquan, Lycett, SJ, Bhatt, S, Pybus, OG, Baillie, G, Coulter, E, Kellam, P, Wood, JL, Brown, IH, consortium, COSI, Brown, AJ, Nazir, Jawad, Haumacher, Renate, Abbas, Maha D, Marschang, Rachel E, Robertson, James, Stech, J, Stech, O, Veits, J, Weber, S, Bogs, J, Gohrbandt, S, Hundt, J, Breithaupt, A, Teifke, JC, Mettenleiter, TC, Svindland, Signe C, Jul-Larsen, Åsne, Andersen, Solveig, Madhun, Abdullah, Montomoli, Emanuele, Gill, Inder, Cox, Rebecca J, Uchida, Yuko, Watanabe, Chiaki, Takemae, Nobuhiro, Hayashi, Tsuyoshi, Ito, Toshihiro, and Saito, Takehiko

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Abstract

21-23 September 2010, St Hilda's College, Oxford, United Kingdom, Since the first appearance of the pandemic (H1N1) 2009 virus many efforts have been made to monitor the changes of the virus at molecular level with the aim to early detect mutations which could alter its pathogenicity. Some mutations have been observed more frequently in viruses that caused severe or fatal infections than in viruses involved in mild infections. Among these, the most common seems to be the amino acid substitution D222G (or D222E or D222N) in the HA1 sequence. However, to better assess the association of such mutation with pandemic virus pathogenicity a large set of data is required, in addition to other experimental studies. In our laboratory, as regional reference laboratory in Tuscany, 2350 respiratory specimens have been analysed for pandemic virus detection from May 2009 to May 2010 and 552 out of them showed positive by a real time RT-PCR. Here we report the results of the sequencing of a small region of the HA1 gene, 180 nucleotide long, performed to detect the previously reported mutation in two small groups of our positive samples. Thirteen out of 18 isolates (72%) from patients with severe disease had the D222E mutation in the HA1 in comparison with 7 out of 26 isolates (27%) from patients with mild disease. In this last group 7 children coming back from a school trip in England were included. Five of them shed a virus with the D222E substitution, suggesting that the mutated virus had been transmitted from a shared source. By cloning the PCR products of some samples from severe case of influenza, the presence of “quasispecies” was observed. Altogether, the 20 isolates with the D222E mutation were obtained from July to November 2009. Our observation confirm that the mutation is more frequently detectable in association with severe forms of influenza and that the mutated virus was easy transmissible. Keywords: pandemic influenza 2009, pathogenicity marker, haemagglutinin, Healthcare workers were prioritized for pandemic vaccination in the majority of countries to maintain the integrity of the healthcare system. In October 2009, we conducted a clinical trial in 250 frontline healthcare workers vaccinated with a low dose split pandemic H1N1 virus (X179a A/California/7/2009) vaccine adjuvanted with AS03. Vaccination induced a protective level of haemagglutination inhibition (HI) antibodies by 6-7 days post-vaccination, however in 10% of volunteers vaccination failed to induce and maintain a protective HI antibody response at 3 months post-vaccination. These non-responders were offered re-vaccination with the X179a H1N1 vaccine and here we report the kinetics of serum B- and T-cellular response to re-vaccination. Twelve healthcare workers (8 females and 4 males, average age 40.3 ± 12.7 years) were re-vaccinated with one dose of AS03 adjuvanted pandemic vaccine (3.75 μg haemagglutinin). The serum antibody response to homologous vaccine strain (X179a) and cross-reactivity to 3 other H1N1 strains (A/Brisbane/59/2007, A/New Caledonia/20/99 and A/Texas/36/91) was evaluated by HI assay. The frequency of antigen-specific antibody secreting cells and memory B-cell responses were detected by ELISPOT assays. The percentage of antigen-specific CD4+ T-cells secreting one or more Th1 cytokine (TNF alpha, IFN gamma or IL-2) was analysed by intracellular staining and multiparametric flow cytometry. There was a significant (p, Avian influenza type A and Newcastle Disease viruses cause significant economic losses to commercial poultry in Pakistan and are endemic in this area. Rural poultry contributes 56% of total egg production and 25% of poultry meat in Pakistan. Almost all rural, and 20% of urban, households keep backyard flocks, which are affected by common circulating viruses of poultry. A serological survey was designed to determine the prevalence of these viruses among the backyard flocks in Lahore district during July-August 2009. Two-stage cluster sampling was undertaken. In the first stage, 35 out of a total of 308 villages in Lahore district were selected on the basis of probability proportional to size (PPS) as clusters. In the second stage, six chickens of >2 months were selected as elementary units. A total of 210 serum samples were collected and examined by the haemagglutination inhibition test for specific antibodies against avian influenza virus (AIV) subtype H9, AIV subtype H5 and ND viruses. The seroprevalence of AIV subtype H9 was 63.8% (95% CI: 55-72%), that of AIV subtype H5 was 18.1% (95% CI: 12-24%) and of Newcastle Disease virus 41.9% (95% CI: 33-50%). The study therefore confirmed the exposure of backyard flocks to these viruses and indicated that AIV subtypes H9 and H5 and Newcastle Disease virus are circulating in backyard poultry. AIV potentially poses a zoonotic risk to human beings, interacting daily with these birds. The spread of these viruses could be due to low biosecurity at farm level or due to mixing of wild and migratory birds with backyard poultry. To control the further spread of AIV and ND, improvement in biosecurity of backyard flocks and ongoing monitoring of their disease status is recommended. Keywords: Avian influenza type A, seroprevalence, Newcastle disease, haemagglutination Inhibition, backyard flock, AIV H5, AIV H9, cluster sampling, This study was conducted to understand the knowledge, attitudes and practices of human H5N1 avian influenza (AI) in the Shen Zhen general population. Using a cross-sectional, Proportional Probability Sampling (PPS), face-to-face survey, 2073 Chinese people in Shen Zhen were interviewed anonymously in August of 2007. 90.4% of respondents had heard of avian influenza. The knowledge, attitudes and practices of human H5N1 avian influenza were significantly different among sex, age, education and occupation. 40.5% of respondents who heard of avian influenza had gone to the living chicken market AOR=2.31 (1.61∼3.32), and do not touch the cage AOR=0.35 (0.12∼0.98). Related AI information primarily came from public newspaper and television. Thus, the AI risk perception is high level, but the level of self-efficacy is low in Shen Zhen. Attention to risk communication and how to increase the self-efficacy should be paid. Timely dissemination of update information is greatly warranted. Keywords: Human H5N1 avian Influenza, knowledge, attitudes, practices, Influenza virus causes morbidity and mortality worldwide. Neutralizing antibodies are the major correlates of protection against influenza infection and the magnitude of their induction is widely used to evaluate the effectiveness of an influenza vaccine. Despite substantial evidence in animal models which suggest critical roles of T cells in the viral clearance, the role of cellular immunity in humans remained poorly understood. This project aims to determine cellular immune responses in sero-negative human volunteers following nasal challenge with a live virus, and to identify the role of pre-existing T cell responses in the virus shedding and disease severity in the absence of antibody. I have found that pre-existing memory T cells persist in most individuals and predominantly are specific against internal proteins such as nucleoprotein and matrix proteins. The challenge studies identified over 50 peptides and revealed the T cell response to be predominantly CD4-dependent. Seven days after challenge infection, these influenza-specific CD4 cells have greatly expanded (about 10 times) in both breadth and magnitude, and were able to kill antigen-loaded autologous B cell lines in vitro by chromium release assay. These acutely expanded T cells were shown to be highly activated (CD38+) and proliferative (Ki-67+). In a separate pandemic H1N1 vaccine trial where 150 healthy volunteers were vaccinated with an inactivated unadjuvanted split virion pandemic H1N1 vaccine, a modest response of influenza-specific T cells could be induced. Responses to both surface (HA and NA) and internal proteins were induced, and specific response measured by HA and NA peptide pools were also found to be strongly CD4+ dependent. Sixteen peptides were identified in this vaccine cohort. Activated proliferating cells induced during vaccination are of a central memory phenotype. As immune memory forms the basis of protection through natural infection or vaccination, the project will carry on to dissect how these memory CD4+ T cells function and differentiate in an acute infection. Due to the cross-reactive nature of T cell recognition and high degree of homology of different influenza subtypes, it is intriguing to explore the heterotypic immunity of T cell responses in acute influenza infection. This work should provide an insight on how cellular immunity can be targeted in conferring broad protection against different subtypes of influenza A viruses. Keywords: human seasonal influenza, experimental infection, T cell immunity, influenza inactivated vaccine, pandemic H1N1, In March-April 2009, a novel pandemic influenza A (H1N1) virus (pH1N1-09v) emerged in the human population. The first case of pH1N1v infection in pigs was reported from Canada in May 2009. In Norway, pH1N1v infection was recorded in a swine herd on the 10th of October of 2009. Here, we report results from the investigation performed during the outbreak and the follow up surveillance performed in the Norwegian pig population. Nasal swabs were collected from herds i) where pigs had been exposed to persons with verified pH1N1-09v infection or with influenza-like illness (ILI); ii) where pigs showed clinical signs or iii) with a history of close contact with or close proximity to infected herds. In addition, blood samples were collected from nucleus and multiplier breeding herds. Detection of pH1N1-09v was initially performed using a real-time RT-PCR targeted to detect influenza A virus. Positive samples were tested by a pH1N1-09v specific real-time RT-PCR. Blood samples were tested for presence of antibodies against influenza A virus by ELISA (IDVET) and positive samples in the ELISA were tested by haemagglutinin inhibition test using A/California/07/09 as antigen. From the onset of the outbreak and until 31st of December 2009, the pH1N1-09v was detected in nasal swabs from 54 of 114 herds investigated tested, while 55 of 140 herds tested positive for antibodies against pH1N1-09v. No herd has been tested positive for pH1N1-09v since early January 2010, however, results of the Norwegian surveillance and control programme for specific swine herds for 2010 so far indicates that 40 % of the swine herds (154 herds) are positive for antibodies against pH1N1-09. Serological evaluation of swine herds and detailed back tracking of the outbreak indicated that the virus was introduced in September 2009. The Norwegian swine population has, until the outbreak of pH1N1-09v, been considered free from influenza A virus infection as documented through serological surveillance program running since 1997. Virus isolated from one of the herds positive for pH1N1-09v was fully identical across the full genome to virus isolated from a confirmed human case at the farm. The majority of the positive herds had a history of contact with humans that were diagnosed with pandemic influenza or with ILI. This suggests that infected humans are the most likely source for introduction of pH1N1-09v to the Norwegian pig herds, especially in the early phase of the outbreak. Keywords: influenza A, pH1N1-09v, pigs, humans, Influenza A viruses are responsible for causing annual outbreaks in humans, and the latest pandemic H1N1 virus is an example of the potential for these viruses to recombine. The highly pathogenic avian influenza type H5N1 is the most virulent influenza virus, reported thus far. Currently Africa does not have the capacity to produce influenza vaccines, thus relies on the goodwill of the developed countries for vaccine stocks. Our aim is to develop a stable and cheap candidate vaccine against H5N1 for Africa by producing it in plants. Recombinant plant expression allows for the production of easy, rapid, inexpensive and infinitely scalable vaccines. We focused on producing two variants of the HA protein derived from the A/Viet/1194/ 2004 sequence: these were a full-length (H5) and truncated form (H5tr) with the membrane insertion domain removed. These variants were expressed in plants from genes that were optimised for human codon use. We also cloned the HA variant genes into a DNA vaccine vector. For plant expression, the HA genes (H5 and H5tr) were cloned into four binary plant expression vectors which target recombinant protein into the different subcellular compartments of the host plant cells. These are the cytoplasm, endoplasmic reticulum (ER), the chloroplast and the apoplast. Gene expression was tested by stable transformation of Nicotiana tabacum and transient expression in N. benthamiana via Agrobacterium tumefaciens mediated gene transfer. Western blots of plant extract indicated that both protein variants were successfully expressed in plants. These proteins were purified by diafiltration and His-tag purification via nickel-bound resin. HA protein was produced in plants in high amounts in the ER (H5tr) and apoplast (H5) compared to the other plant compartments. Haemagglutination (HA) and haemagglutination inhibition assays (HI) confirmed that the conformation of both proteins was correct. For the DNA vaccine, the H5 and H5tr genes were cloned into a mammalian expression vector pTH and both were successfully expressed in HEK293 cells as detected by western blotting. A mouse immunisation trial was conducted followed by immunological analysis. The presence of H5 specific antibodies was detected in the mouse sera by western blotting. To conclude, the HPAI H5N1 influenza HA variants (H5 and H5tr) were successfully produced in plants. Highest amounts of H5tr were produced in the ER while H5 was best expressed in the apoplast. Mice inoculated with the H5 and H5tr candidate DNA vaccines showed a positive antibody response to both vaccines. These results indicate that vaccines using HA-derived H5 and H5tr are immunologically effective and that production can be made cheaper as they are expressed successfully in plants. Keywords: Avian influenza H5N1, plant expression, DNA vaccine, Africa, The generally mild illness induced by the recent pH1N1 virus and the higher incidence of illness in people younger than 65 years suggested the possible influence of pre-existing cross-reactive immunity against the new virus in the oldest people and probably in people previously vaccinated with seasonal influenza vaccines [1,2]. This study evaluated humoral and ex vivo cellular immune responses in 12 healthy adult subjects vaccinated with the 2007/2008 MF59-adjuvanted trivalent (A/Wisconsin/67/05 (H3N2), A/Solomon Islands/3/06 (H1N1), B/Malaysia/2506/04) subunit vaccine (FLUAD, Novartis). Peripheral blood mononuclear cells (PBMCs) and serum samples, obtained before and respectively 7 and 30 days after vaccination, were frozen and successively used. Cellular responses were evaluated determining antigen-specific activation of T lymphocytes by FACS enumeration of CD69+ CD3+ or CD69+ CD8+ T lymphocytes and by measuring antigen-induced IFN-gamma release by ELISPOT. PBMCs were stimulated in vitro with the influenza vaccine antigens, the new pH1N1 virus and a haemagglutinin-(HA)-peptide317-341, corresponding to a highly conserved sequence of the HA stalk region containing the fusion peptide, a possible candidate for a universal influenza vaccine [3]. After vaccination there was an increase, in most instances significative, in the numbers of activated (CD69+) total T lymphocytes, as well as CD8+ cells and in T lymphocytes IFN-gamma production, following stimulation not only with vaccine antigens, but also with the new pH1N1 virus and with the HA-peptide317-341. Humoral responses were studied determining haemagglutination inhibiting (HI) antibody titres against the vaccine antigens and the new pH1N1 virus in 11 of the 12 volunteers. Nine (82%) volunteers seroconverted at least against one vaccine antigens, whereas only one against pH1N1. After vaccination the percentages of seroprotected (HI titre =40) people against the vaccine antigens ranged between 64 and 91%, whereas only one volunteer showed protection against pH1N1. Overall, these data raised the possibility that, although annual influenza vaccines are primarily aimed to stimulate the generation of anti-HA antibodies, which confer protection against homologous strains, they can induce also some level of cross-reactive immunity, especially cellular immunity. The finding, after 2007/2008 influenza vaccination, of induction of cellular cross-reactivity against pH1N1virus is consistent with epidemiological studies suggesting effectiveness against pandemic H1N1-associated illness deriving from seasonal vaccination [1,2] and the induction of reactivity against the highly conserved HA- peptide317-341 support the possibility of a universal influenza vaccine [3]. This research was supported by PRIN (2007CCW84J), Ministero Università Ricerca, Italy Keywords: Influenza vaccination, cellular and humoral immunity, cross-reactive responses, Since April 2009, the pandemic (H1N1) 2009 caused by a new strain of H1N1 influenza virus has spread all over the world. Massive vaccination is anticipated to have an important role for controlling the transmission. Shenzhen, located in southern China's Guangdong province, is situated immediately north of Hong Kong. Due to its geographical location and massive immigration, Shenzhen became one of the cities dispensing free H1N1 vaccines produced by a domestic company. In this study, we surveyed antibody response in serum samples obtained from children before and after the vaccination. A total of 286 children without history of a recent respiratory infection were given in a single shot in December 2009. Two serum samples were collected from every child, which were obtained at the time of the vaccination, and two weeks after the vaccination, respectively. Hemagglutination-inhibition (HI) tests were conducted to determine the antibody levels. The seropositive rate (SPR, the percentage with HI titer = 1:40 post-vaccination) to pandemic (H1N1) 2009 virus and the geometric mean titer (GMT) were calculated. Meanwhile, paired-Samples T test was used to comparatively analyze antibody response before and after the vaccination. The mean ages of the children were 11.3±2.7 years. Among 286 individuals, 71 were seropositive with a cut-off antibody titer of 1:10, and 20 presented a protecting antibody titer of at least 1:40 before the vaccination. The results indicate that some people might have contracted the H1N1 2009 infection. The SPR of antibodies to pandemic (H1N1) 2009 virus was 62.6%. There was significant difference in GMT antibodies to pandemic (H1N1) 2009 virus between serums collected before and after the vaccination (19.4 vs. 62.4, P=0.00). In this survey, the antibody level in children to pandemic (H1N1) 2009 virus rapidly rose after a single shot with the vaccine made in China. In addition to vaccination, some people were found to be seropositive after the first wave of the pandemic (H1N1) 2009. Along with the community transmission of H1N1 influenza virus and the campaign of vaccination, more and more people will present with protecting serum antibodies. Keywords: H1N1 vaccination, Antibodies, Shenzhen, The natural reservoir hosts for influenza viruses are thought to be wild waterfowl. Nevertheless transmissions to mammals occur and some lineages have become established in swine and humans. The aim of this work is to investigate mutations in influenza A viruses which are directly associated with adaptation to swine and humans, and distinguish them from mutations that are compensatory. In this study we focus on zoonotic transmissions in subtypes H1N1 - H3N2 and H5N1, and analyse complete genome sequences from the NCBI database. To gain a better understanding of the diversity and evolution of the pandemic (H1N1) 2009 precursor strains we undertook complete genome sequencing of archived European swine isolates using an Illumina platform. From over 600 archived isolates available, an initial selection of approximately 100 was made to include one isolate per subtype per country per year, prioritising H1N1 sequences from 1990 onwards. The evolutionary histories of the viral segments in the swine ‘flu lineages were investigated using time resolved phylogenetic trees (inferred using BEAST) and rates of evolution were calculated in different lineages. The detailed associations between mutations at amino acid sites and avian, swine and human host changes were inferred using Bayesian Graphical Models (BGMs). A BGM represents the direct conditional dependencies between variables as edges in a network, so distinguishes between direct and indirect interactions. To investigate the effect of host change on the appearance of mutations, and account for founder effects and shared ancestry, we use the mutational histories of the sites as variables. The mutational histories were inferred by using codon models (or host change model) fitted to phylogenetic trees. Our initial results show that mutations in the receptor binding site in Hemagglutinin are associated with host change (as expected) and also other changes in HA antigenic sites. Several sites in the polymerase complex were found to co-mutate with each other, and there were 7, 4 and 3 sites directly associated with host change in PB2, PB1 and PA respectively (including PB2-627 and PB2-701). For the NS1 protein, we found 4 sites directly related to host change including sites in SH3, RNA and CPSF30 binding domains. The results suggest that some key mutations are needed to adapt avian influenza viruses for mammalian epidemics, and that several compensatory mutations can occur to enable the virus to increase its fitness in its new environment. Keywords: Adaptation, mutations, modelling, Bayesian, swine influenza, Avian influenza viruses (AIVs) have been shown to persist for extended periods of time in water under laboratory conditions. However, estimation of viral persistence in the environment is a difficult task since viruses are mostly associated with particulate matter which has a major effect on their survival. A germ carrier technique was adapted for use with influenza viruses in moist environments. The technique was employed to measure the persistence of 3 low pathogenic AIVs (H4N6, H5N1 and H6N8), one human influenza virus (H1N1) and two model viruses (NDV and ECBO) in lake water at five different temperatures (30, 20, 10, 0 and -10 °C). Persistence of all of the viruses was highest at 0 °C. Lower T-90 values at -10 °C than 0 °C were possibly due to deleterious effect of freeze thawing on infectivity of filter bound viruses leaving the germ carrier technique inappropriate for use at freezing temperatures. Generally, influenza viruses persisted shorter than model viruses while ECBO has the highest survival time in lake water. Individual influenza viruses were inconsistent in their tenacity at all temperatures. A comparison of tenacity of influenza viruses in suspension in lake water and adsorbed to germ carriers showed that the viruses persisted longer adsorbed to germ carriers at all temperatures except –10 °C. This may be important for the actual behavior of the viruses in the environment, as virus shed in fecal and respiratory material may persist longer than free virus. These findings suggest that AIVs can remain infectious in lake water for extended periods of time at low temperatures, allowing persistence of the viruses in the aquatic habitat over winter and possibly over years., Upon the realisation of a pandemic threat in April 2009 from a newly emerged H1N1 influenza virus, a global network of laboratories began the development of candidate vaccine viruses, viruses required by the vaccine industry for efficient vaccine manufacture. By the end of May 2009 several candidates were available, well before the WHO declared a pandemic on June 11. During the ensuing months further improvements were made to these viruses in order to increase the yield of vaccine antigen that could be derived. The above activities were established and practiced well before 2009 as part of pandemic preparedness; further activities in preparedness include the ongoing development of a ‘library’ of potential pandemic vaccine viruses and research into improving the yield of viral antigen so that the maximum number of doses of vaccine can be produced in the shortest time., Highly pathogenic avian influenza viruses (HPAIV) differ from all other strains by a polybasic cleavage site in their hemagglutinin (HA) and carry an HA with serotypes H5 or H7 only. In our investigations, we studied the ability of three low-pathogenic avian strains with the subtypes H3N8, H5N1 or H9N2 to transform into HPAIV after introduction of a polybasic HA cleavage site. As HPAIV originate from LPAIV, low-pathogenic H5N1 strains have to be considered potential precursors. Furthermore, the H9N2 strains are also of particular relevance because they became wide-spread across several countries and have been transmitted to humans. In contrast to their parent viruses, all polybasic cleavage HA site mutants were able to form plaques and replicate in cell-culture in the absence of trypsin. Therefore, in-vitro they resemble an HPAIV. However in chicken, they did not display high virulence. The H3 cleavage site mutants led only to few temporary clinical symptoms in some chickens accompanied with cloacal shedding whereas the H5 and H9 cleavage site mutants caused temporary non-lethal disease in all animals inoculated. However, a reassortants, derived from LPAIV H5N1 carrying the HA gene of an HPAIV, displayed a lethality of 30% and, furthermore, a reassortant consisting of seven HPAIV genes and the LPAIV HA with engineered cleavage site, exhibited the highest lethality of 80% resembling an authentic HPAIV. Remarkably, a reassortant expressing the H9 HA with engineered polybasic cleavage site and all the other genes from an H5N1 HPAIV is also highly pathogenic in chicken and, with an intravenous pathogenicity index of 1.23, meets the definition of an HPAIV. Overall, these results demonstrate that acquisition of a polybasic HA cleavage site is only one essential step for evolution of low-pathogenic strains into HPAIV. However, the H5N1 low-pathogenic strains may already have cryptic virulence potential. Beyond the polybasic cleavage site, H5N1 HPAIV carry additional virulence determinants which are located within the HA itself and in the other viral proteins. Furthermore, the finding that an artificial H9 polybasic cleavage site mutant displays the phenotype of an HPAIV, highlights that the H5 and H7 HA have the unique ability to gain a polybasic motif at their cleavage sites., Development of influenza vaccines that induce mucosal immunity has been highlighted by the World Health Organisation as a priority. An influenza vaccine's ability to induce mucosal immunity is important as it is correlated to early protection and protection against drifted influenza strains. The intranasal influenza vaccine mimics the course of a natural influenza infection thus providing the first line of defence. An intranasal vaccine offers a good strategy for efficient mass vaccination as it can be self administered. An efficient mass vaccination regime and dose-sparing strategies will be paramount to reduce morbidity and mortality of a future H5N1 pandemic. This study has investigated the immune response and the dose sparing potential of a chitosan adjuvanted intranasal H5N1 (RG-14) subunit (SU) vaccine. Groups of mice were intranasally vaccinated with one or two doses of a chitosan (5mg/ml) adjuvanted SU vaccine (7.5, 15 or 30μg haemagglutinin (HA)) or with a non-adjuvanted SU vaccine (30μg HA). Another group of mice were intranasally vaccinated with a whole H5N1 (RG-14) virus (WV) vaccine (15μg HA). We found that chitosan (ChiSys®), which is Archimedes' Proprietary intranasal delivery system, increased the number of double producing CD4+ cells and influenza specific antibody secreting cells. Local IgA was boosted by the second vaccine dose and two doses of chitosan adjuvanted vaccine enhanced the serum IgA and IgG response. The production of serum antibodies and the haemagglutination inhibition (HI) response against both the homologous vaccine strain and two heterologous H5N1 strains were also adjuvanted by chitosan. The quality of the B and T cellular response improved with higher doses of adjuvanted vaccine and chitosan showed dose sparing potential down to 7.5μg HA. The WV vaccine elicited the highest frequencies of multifunctional T helper cells (INFγ+, IL2+, INFα+). The cross strain serum reactivity, improved B and T cell responses and dose sparing potential of chitosan shows that a chitosan adjuvanted intranasal influenza vaccine is a strong candidate vaccine to induce a strong and broad protection at lower doses also in humans. Keywords: Chitosan, dose, H5N1, influenza, intranasal, vaccine, Pathogenicity of H5 subtype influenza virus in chickens is correlated with the amino acid sequence at the cleavage site of hemagglutinin (HA) protein. It is thought that other factors are involved to viral pathogenicity in chicken as well. Understanding of genetic traits of the pathogenicity would provide a target for prevention and/or control of influenza virus infection in poultries. Aim of our study is to elucidate gene constellations that confer the pathogenicity in chickens and host gene responses against the infection. Reverse genetic engineered recombinant viruses possessing the HA and NA genes from a highly pathogenic avian influenza virus, A/chicken/Yamaguchi/7/2004 (Yam; H5N1) were generated. Three of them, designated RGY, YY and YS, had all of internal gene segments derived from Yam, A/chicken/Yokohama/aq55/2001 (Yok; H9N2) or A/whistling swan/Shimane/580/2002 (Shi; H5N3), respectively. Others contained one or two internal gene segments (X) exchanged ones from YY to YS or vice versa (S_X/YY or Y_X/YS). Survival rate and period of the group of chickens infected by reassortants were subjected to the survival analysis. Gene expression in lung collected at 24 hrs pi was investigated by the microarray analysis. Relation between survival period and gene response in lung was analyzed among group of inoculated chickens that were different significantly in the survival analysis. By the survival analysis among the group of the chickens inoculated with reassorted viruses, they were categorized into three groups with statistical significance. Mean of survival period of YY and YS was 3.87 dpi and 3.33 dpi, and survival rate was 6.67% and 0% respectively. Survival period and rate of chickens inoculated with S_PA/YY and Y_MNS/YS were statistically longer (9.25-10 dpi) and higher (50-100%) than those of YY and YS. All of the chickens inoculated with S_MNS/YY, Y_PB1/YS and RGY died earlier (2-2.25 dpi) than YY and YS. Micro array analysis revealed that expression of 483 genes out of 38681 genes examined was correlated with survival time of the chickens. Gene ontology analysis demonstrated that most of these genes were categorized in either recognition of dsRNA or response to inflammation. These results suggested different constellation of internal gene segments would affect survival period and gene expression of the infected host. Keywords: Avian influenza, HPAI, pathogenicity, reverse genetics, chicken, gene constellation, microarray analysis

Published
2010

7. STUDY ON PROTEOMICS EXPRESSION PROFILE OF SERA FROM PATIENTS WITH UREMIA

Author

He Jian-fan, Liu Jianjun, Deng Anguo, Dai Yong, and Wang Jianqing

Subjects
Silver stain, Chromatography, Two-dimensional gel electrophoresis, Chemistry, Proteome, medicine, General Medicine, Immobilized pH gradient, medicine.disease, Proteomics, Polyacrylamide gel electrophoresis, Blood proteins, Uremia
Abstract

Aim: To establish and optimize two-dimensional electrophoresis (2DE) and relevant techniques for the study of serum proteome of the patients with uremia, and compare serum protein 2DE pattern between the uremia patients and the normal. Methods: Using immobiline pH gradients isoelectricfocusing (IEF) as the 1st dimension and vertical SDS-PAGE as the 2nd dimension, we performed the comparison and conditional optimization of the factors. Immobilized pH gradient two-dimensional polyacrylamide gel electrophoresis,silver staining, ImageMaster 2D 5.0 analysis software, matrix assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF-TOF-MS) and IPI human database searching, were used to separate and indentify the proteome of the sera from the patients with uremia. Results: Satisfactory 2DE patterns of the serum proteins were obtained. 26 protein spots were remarkably hanged in uremia patients, and 20 protein spots were identified by MALDI-TOF-TOF-MS.. Conclusion: Good reproducibility could be obtained by applying immobilized pH gradient 2DE to separate and identify the proteome in sera, which contributes to the further study on uremia toxins pertaining to protein.

Published
2008
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8. [Analyses of serological and genetic characteristics on novel H1N1 influenza A virus from the infected patient in Shenzhen].

Author

Wu CL, Cheng XW, Lv X, He JF, Huang YM, Wang X, Fang SS, Zhang RL, and Cheng JQ

Subjects
Amino Acid Sequence, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Child, Child, Preschool, China, Female, Humans, Influenza A Virus, H1N1 Subtype classification, Influenza A Virus, H1N1 Subtype enzymology, Male, Molecular Sequence Data, Mutation, Phylogeny, Sequence Alignment, Viral Proteins chemistry, Viral Proteins genetics, Young Adult, Influenza A Virus, H1N1 Subtype genetics, Influenza A Virus, H1N1 Subtype isolation & purification, Influenza, Human immunology, Influenza, Human virology
Abstract

Analysis of serological and genetic characteristics on 2009 swine-origin influenza A (H1N1) virus (S-OIV) isolated from four patients with severe disease in Shenzhen were performed. Microneutralization assay showed that the neutralizing antibody titers of the infected patients did not exceed 1 : 20 in a short term post infection, which could not neutralize the viruses efficiently. Hemagglutination inhibition (HI) tests confirmed that the antigenicity of S-OIV from the patients was distinct from the seasonal influenza A virus, but similar to the reference strains of S-OIV. Phylogenetic and molecular analysis showed that S-OIV from the patients still belonged to the classical swine lineages and did not have the genetic characteristics of highly pathogenic influenza virus. Several amino acid residue mutations on HA protein were detected, which seemed not to affect the virulence and pathogenicity of the viruses. Further, A His 275 Tyr mutation on NA protein of a virus strain was detected, which induced the oseltamivir resistance of the virus.

Published
2010

9. [Epidemiological and molecular characterization of seasonal influenza A/H3N2 viruses circulating in Shenzhen, 2005 - 2007].

Author

Zhang SX, Gu LN, He JF, Cheng XW, Hu DS, Lü X, Wu CL, Lu JH, and Fang SS

Subjects
China epidemiology, Genetic Drift, Humans, Influenza A Virus, H3N2 Subtype isolation & purification, Influenza, Human virology, Molecular Epidemiology, Phylogeny, Sequence Analysis, RNA, Influenza A Virus, H3N2 Subtype genetics, Influenza, Human epidemiology, Population Surveillance
Abstract

Objective: To determine the epidemiological characteristics of seasonal influenza in Shenzhen from 2005 to 2007 and the molecular variation of HA1 domain of influenza H3N2 viruses., Methods: The consultation rate for influenza-like illness (ILI) were calculated weekly for indicating the influenza activities (the Shenzhen Influenza Surveillance System mainly consisted of 16 institutions with 9 hospitals, 6 districts and one municipal centers of disease control and prevention). Pharyngeal swabs from the cases of ILI, which were collected during 2005 to 2007 from the city-wide and quality-controlled surveillance network, were used to propagate the viruses. The HA1 region of the influenza A/H3N2 viruses were detected by RT-PCR and sequenced subsequently. The analyses of pairwise amino acid variations, genetic clustering and phylogenetics was performed., Results: The activity levels of influenza showed certain changes during each year from 2005 to 2007, and there were summer peaks from May to July in 2006 and 2007. The positive rates of influenza virus were 4.78% (114/2385), 5.77% (212/3674) and 12.12% (343/2831) from 2005 to 2007 respectively. The weekly isolating rates changed accordingly with the trend of the percentages of ILI. The proportions of influenza H3N2 virus were 25.46% (28/114) and 2.83% (6/212) in 2005 and in 2006 respectively, but the proportion increased to 62.68% (215/343), which indicated that H3N2 virus became the predominant strain in 2007. Phylogenetic clustering analysis of influenza H3N2 virus revealed that there were 5 clades. The viruses which were isolated in 2005 contained in the clade I and II, the viruses in 2006 were comprised in clade III, and clade IV and V included the viruses isolated in 2007. Although the stem of cladogram developed with one accord of the time isolated viruses, the viruses which were similar to vaccine strains had circulated in Shenzhen before a given strain was determined as vaccine strain by WHO. It was also noticed that more amino acid changes at antigenic sites, especially at sites A and B in the H3N2 viruses, were found in 2007 than that in 2005 and in 2006. But the sequences at the receptor-binding sites and disulphide bond sites were conserved and no new circulating strain for genetic reassortment had been found in the period., Conclusion: Shenzhen might be one of areas where the ongoing genetic drift of influenza H3N2 viruses appeared earlier in China. The changes of influenza H3N2 virus showed the active status in the population. The results suggested that monitoring seasonal influenza viruses by sequence analysis could provide important and timely information on the appearance of strains with epidemiologic significance.

Published
2009

10. [Identification and sequence analysis of E gene of Dengue virus type 2 strain isolated from patient serum in Shenzhen].

Author

Yang F, He JF, Xian HX, Zhang HL, He YQ, Yang H, and Yao XJ

Subjects
Aedes virology, Animals, China, Dengue Virus classification, Genes, Viral, Humans, Phylogeny, Sequence Analysis, Protein, Sequence Analysis, RNA, Dengue virology, Dengue Virus genetics, Dengue Virus isolation & purification
Abstract

Objective: To isolate and identify the pathogen of Dengue fever from Shenzhen city in 2005 - 2006, and to analyze the molecular characteristics of the isolated Dengue virus strain as well as to explore its possible origin., Methods: IgM and IgG of serum samples taken from 60 suspected Dengue fever patients were detected by ELISA and immunochromatography, and 9 specimens were positive. Nine samples from patients with early stage Dengue fever were used to isolate virus with C6/36 cell line and the positive cell cultures were identified by MGB fluorescent PCR. The type of isolated virus strain was determined by RT-semi-nested-PCR and fluorescent PCR. E gene of isolated virus strain was amplified by RT-PCR and sequenced. Homology and phylogenetic tree of E gene of Shenzhen Dengue virus with the strains isolated from other areas were constructed., Results: Of nine antibody-positive serum samples, one strain of Dengue virus was successfully isolated. The isolated virus strain was confirmed as Dengue virus type 2 and designated as DEN2-SZ0521. The homology of nucleotide sequence and the deduced amino acid sequence of E gene of SZ0521 with standard type 2 Dengue virus NGC strain was 94.2% and 98.2%, but the homology with standard Dengue virus 1, 3, 4 in the same fragment were 59.1%, 57.2%, 58.5% and 68.1%, 66.7%, 63.2%, respectively. The phylogenetic tree indicated that SZ0521 had the greatest similarity with the Malay0412a/Tw strain and they lied in the same branch of the phylogenetic tree. The corresponding homology of nucleotide sequence and amino acid sequence was 99.8% and 100%, respectively. The isolated Dengue virus type 2 belonged to genotype IV with Indonesia-76, Somalia-84 and Sri Lanka-90., Conclusion: Dengue virus was isolated from Shenzhen for the first time, and it was classified as type 2. It was confirmed that the type 2 Dengue virus may come from the epidemic area in Malaysia.

Published
2009

11. [Study on molecular epidemiological characteristics of influenza H1N1 viruses circulating in Shenzhen, China from 2005 to 2007].

Author

Gu LN, Cheng XW, Zhang SX, He JF, Hu DS, Lv X, Wu CL, Lu JH, and Fang SS

Subjects
China epidemiology, Humans, Influenza A Virus, H1N1 Subtype immunology, Influenza A Virus, H1N1 Subtype isolation & purification, Molecular Epidemiology, Molecular Sequence Data, Phylogeny, Influenza A Virus, H1N1 Subtype genetics, Influenza, Human epidemiology, Influenza, Human virology
Abstract

Objective: To study the genetic and epidemiological characteristics of HA1 of influenza H1N1 viruses circulating in Shenzhen from 2005 to 2007., Methods: The HA1 region was analyzed by RT-PCR and subsequently sequenced to analyze the HA1 genetic evolution. Phylogenetic analysis was confirmed on the homology of nucleotide comparing with the reference viruses of vaccines recommended by WHO and representative virus confirmed by China CDC. Relationship between isolation rates and genetic evolutions was explored., Results: The average isolation rate from 2005 to 2007 was 7.16%. Of the isolates, the proportions of influenza H1N1 viruses in 2005, 2006 and 2007 were 56.14%, 66.03%, 3.61%, respectively. Data from HA1 phylogenetic analysis showed that there were at least three clades circulated in Shenzhen. Different viruses isolated during January to April were clustered with A/New Caledonia/20/1999 viruses isolated in the latter months of 2005 clustered with A/Solomon Island/3/2006 and viruses from 2006 to 2007 were in the same clade with A/GDLH/219/2006. Results showed that most viruses had a deletion of lysine at position 130. Compared with A/New Caledonia/20/1999, the virus isolated after May of 2005 occurred T82K, Y94H, R146K, R209K, T267N amino acid substitution, while some virus isolated after May 2006 took place the amino acid substitutions of A190T, H193Y, E195D (located at antigenic site B) and R146K (antigenic site A). The sequences at the receptor-binding sites and glycosylation sites were conserved. Compared with referring viruses, A/SZ/68/2007 had 50 amino acid substitutions in the HA1 region. Of these, eleven and six were located at antigenic sites and receptor-binding sites, respectively. Four amino acid substitution resulted in the deletion of glycosylation site., Conclusion: Three different genetic lineages of influenza H1N1 virus were circulated in the population in Shenzhen during 2005 - 2007. The special virus named A/SZ/68/2007 should be paid further attention on its antigenic and epidemiological characteristics.

Published
2008

12. [Study on the molecular characteristic of natural infection of rodents with Hantaviruses in Shenzhen city].

Author

Liu JJ, Yang F, He JF, Zhang XL, Liang ZN, Zhang SX, Zhang HL, and Yang H

Subjects
Animals, China epidemiology, DNA Primers, DNA, Viral, Genotype, Orthohantavirus classification, Hantavirus Infections virology, Polymerase Chain Reaction, RNA, Viral, Rats, Sequence Homology, Orthohantavirus genetics, Hantavirus Infections epidemiology, Hantavirus Infections veterinary, Rodent Diseases epidemiology, Rodent Diseases virology
Abstract

Objective: In order to investigate Hantavirus (HV) infection of captured rodents and to understand the genotypes and the molecular characteristic of Hantaviruses in Shenzhen., Methods: The captured rodents were classified and the density of distribution was calculated. A total of 472 animals were captured, among which Rattus norvegicus was the dominant group. The total viral RNA was extracted from the lung tissues positive with HV antigens by immunofluorescent assay and gene sequence of M fragment was amplified with RT-nested-PCR by using the Hantavirus genotype specific primers. The amplified genes were then sequenced, and subjected to genotyping and homology analysis., Results: The results of genotype analysis showed that the Hantaviruses taken from twenty-one lung specimens in Rattus norvegicus in Shenzhen city belonged to the Hantavirus type II (SEOV). Results in homology analysis suggested that the homology among twenty-one samples should be rather high with 95.4% of nucleotide sequence identity and they belonged to the same subtype. Phylogenetic tree analysis showed that they were branched into at least six different lineages, and were highly homologized with SZ2083. We also found that these virus strains had not shown more highly homology of nucleotide sequence in nearest district, whereas revealed consistency in farther district., Conclusion: The major hosts of Hantaviruses in Shenzhen city were Rattus norvegicus and the epidemic strains were genotyped as SEO-type. Nucleotide sequence and deduced amino acid sequence from different rodents were highly homologous, while nucleotide mutation had also been observed. Further studies are required to explore the possible viruses' sequence mutation.

Published
2008

13. [A case of human highly pathogenic avian influenza in Shenzhen, China: application of field epidemiological study].

Author

Zhang SX, Cheng JQ, Ma HW, He JF, Cheng XW, Jiang LJ, Mou J, Wu CL, Lv X, Zhang SH, Zhang YD, Wu YS, and Wang X

Subjects
Adult, China epidemiology, Epidemiologic Studies, Humans, Influenza A Virus, H5N1 Subtype, Influenza, Human virology, Male, Contact Tracing, Influenza, Human epidemiology
Abstract

Objective: Based on analyzing the characteristics of a case with human avian influenza and the effects of field epidemiological study., Methods: An emergency-response-system was started up to follow the probable human Highly Pathogenic Avian Influenza case initially detected by the "Undefined Pneumonia Surveillance System of Shenzhen". Public health professionals administered several epidemiologic investigations and giving all the contacts of the patient with a 7-day-long medical observation for temporally related influenza-like illness. Reverse transcriptase-polymerase chain reaction (RT-PCR) with primers for H5 and N1 was applied to test respiratory tract samples and/or throat swabs of the patient and all his contacts specific for the hemagglutinin gene of influenza A H5N1. Activities and strategies such as media response,notification in the public, communications with multiple related sectors, social participation and information exchange with Hong Kong were involved in field control and management., Results: The patient was a male, 31 years old,with an occupation as a truck driver in a factory,and had been residing in Shenzhen for 7 years. Started with an influenza-like syndrome, the patient received treatment on the 4th day of the onset, from a clinic and on the 6th day from a regular hospital. On the 8th day of the disease course, he was confirmed by Shenzhen Center for Disease Control and Prevention as human avian flu case and was then transferred to Intensive Care Unit (ICU). On the 83rd day of commence, the patients was healed and released from the hospital. The patient had no significant exposure to sick poultry or poultry that died from the illness before the onset of the disease. The patient and five family members lived together, but no family member was affected and no contact showed positive results for H5N1. A small food market with live poultry, which was under formal supervision and before illness the patient once visited, located near his apartment. Totally, 35 swabs from live birds and bird's coops in the market for H5 nucleic acid were tested and all were negative. The influenza H5N1 virus isolated for the case was named as A/Guangdong/02/2006 (H5N1) or GD/2/06. Phylogenetic relationships and molecular characterization analysis revealed that all the segments of the H5N1 virus named GD/2/06 still belonged to avian segments. Investigation process and control measures were released to the general public through the media. Soon after the laboratory confirmation, information was released to the society, as well as Hong Kong Center for Health Protection. Local Departments of Agriculture, Industries & Business, and Entry-Exit Inspection & Quarantine Bureau together with the Public Health Department put up combined actions. A computer-based telephone survey was initiated to investigate attitudes and knowledge of residents in town, revealing that positive atmosphere dominated and no panic existed., Conclusion: Rapid laboratory diagnosis of the virus was the key for successful treatment and survival result of the case. Still, the pathogen was from birds resources. No human-to-human transmission was observed, however, source of infection was unclear. Field epidemiological study could offer special methods for the responses of emergency public health problems.

Published
2008

14. [Laboratory diagnosis and molecular characterization analysis of the H5N1 influenza virus isolated from the first human case in Shenzhen, China].

Author

He JF, Lv X, Cheng XW, Wu CL, Zhang SX, Shu Y, Fang SS, Lu JH, Gu LN, Lai JW, and Gao RB

Subjects
Adult, Amino Acid Sequence, Antibodies, Viral blood, Humans, Influenza A Virus, H5N1 Subtype immunology, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza, Human diagnosis, Male, Molecular Sequence Data, Mutation, Neutralization Tests, RNA, Viral blood, Influenza A Virus, H5N1 Subtype genetics, Influenza, Human virology
Abstract

The tracheal aspirates and serum samples of a suspected human case of high-pathogenic avian influenza (firstly found in Shenzhen, China) were collected and tested by a series of assays. The results showed that the RNA extracted from the tracheal aspirate specimens of the patient was confirmed positive for H5N1 avian influenza virus by Real-time PCR. The H5N1 avian influenza virus was isolated from patient's tracheal aspirates on MDCK cell and was named A/Guangdong/2/06(H5N1). The viral load of tracheal aspirates collected at different time points were detected by Real-time PCR. The virus microneutralization and the antigenic ratio of human H5N1 isolated were also assayed. It was found that when the virus load decreased gradually after the disease onset, the serum neutralizing antibody titer in the patient increased to 1 : 160 and subsequently decreased gradually. By molecular analysis, the eight gene segments of A/Guangdong/2/06 revealed to be similar to that of H5N1 avian influenza viruses isolated from south China in 2005-2006. However, there were obvious differences in the gene sequence of the detected H5N1 viral RNA as compared with that of the strains isolated from Vietnam, Thailand and Indonesia.

Published
2008

15. [Study on the rapid detection of Dengue viruses by Taqman MGB real-time fluorescent PCR].

Author

Liu JJ, Yang F, He JF, Chen JM, He YQ, and Yang H

Subjects
Base Sequence, DNA Primers, Dengue diagnosis, Dengue Virus genetics, Humans, Reverse Transcriptase Polymerase Chain Reaction, Sensitivity and Specificity, Dengue virology, Dengue Virus isolation & purification, Fluorescent Dyes, Polymerase Chain Reaction methods
Abstract

Objective: To develop the Taqman MGB real-time fluorescent PCR assay for rapid detection of Dengue viruses., Methods: Using Taqman MGB technique, a pair of universal primers and Taqman MGB probe were designed according to a highly reserved sequence of the 3'-noncoding region of dengue viruses type 1-4. Dengue virus strains were used as standard and Japanese encephalitis virus strains were used as control, the real-time PCR assay for specific and sensitive detection of the dengue viruses was established. While 8 serum specimens of ELISA positive were detected by the RT-PCR and fluorescent PCR., Results: The sensitivity of real-time PCR was 0.17pg/microl (cDNA)or 10(-5)TCID50. There was no cross-reaction with Japanese encephalitis virus. Of 8 specimens, 2 were positive by RT-PCR and 5 were positive by real-time PCR. The test could be completed in 4 hours., Conclusion: The Taqman MGB real-time PCR assay was fast, sensitive and specific. It could be applied to the quick early diagnosis of dengue viruses.

Published
2006

16. [Surveillance on natural infection of rodents with hantavirus in Shenzhen city and identification of a hantavirus strain SZ2083].

Author

Yang F, Guli B, Liu JJ, Yang H, Zhang XL, He JF, Liang ZN, Zhang SX, Yao PP, Weng JQ, and He YQ

Subjects
Animals, China epidemiology, Cities, Data Collection, Enzyme-Linked Immunosorbent Assay, Fluorescent Antibody Technique, Indirect, Genotype, Orthohantavirus genetics, Orthohantavirus isolation & purification, Hantavirus Infections epidemiology, Rats virology, Rodentia virology, Orthohantavirus classification, Hantavirus Infections veterinary
Abstract

Objective: For clarifying the situation of the natural infection of rodents having hemorrhagic fever with renal syndrome (HFRS) virus and to type Hantavirus (HV) using molecular technique in Shenzhen city in 2005, and offering guidance for prevention and control of HFRS., Methods: Data on the host animals was collected from the city of Shenzhen. ELISA and indirect immunofluorscent antibody(IFA) test were applied to the specific antibodies against HV in the sera of captured rats. Direct immunofluorscece assay was adopted to determine HFRS antigens and the lung tissues of the HV infected rats were inoculated into Meriones unguiculata to isolate HV. The whole viral RNA was extracted from the lung tissues of the HV infected rats and amplified the partial M fragments with RT-nested-PCR, using the HV genotype specific primers. The amplified genes were then sequenced, and subjected to genotyping and homology analysis., Results: 472 rodents were captured from Shenzhen in 2005. Surveillance on rats demonstrated 9.96% rats carrying HV (with a density of 8.25%) and the main host was Rattus norvegicus. In the blood samples of rats, anti-HV IgG antibodies were detectable in 56 cases by IFA, and proved to be positive in 76 cases by ELISA. We successfully isolated a HV strain designated as SZ2083 from Rattus norvegicus for the first time in Shenzhen and was identified to SEO type by RT-nested-PCR. Compared with the coding region of the M gene of HV L99 virus strain, the homologies of nucleotide among them were 97%, but the homology was 76% of the SZ2083 with HTN 76-118 virus strain., Conclusion: Results showed the existence of natural epidemic areas of HFRS in Shenzhen city. Based on the results of sequencing, it is possible that the Seoul strain of HV might be the predominant serotype of virus harbored.

Published
2006

17. [Rapid detection of influenza virus A by fluorescence quantitative RT-PCR].

Author

Li L, Fang SS, Wu CL, Cheng XW, He JF, and Liu T

Subjects
Fluorescence, Humans, Sensitivity and Specificity, Influenza A virus isolation & purification, Reverse Transcriptase Polymerase Chain Reaction methods
Abstract

Objective: To develop a method to rapidly detect influenza virus type A by fluorescence real-time quantitative RT-PCR., Methods: According to conservative sequence of influenza virus type A M2 gene, a pair primers and Taqman probe were designed, respectively. After the quantitative curve of the assay were established using tenfold serial dilution of TCID50, the sensitivity and the specificity of clinic samples were determined., Results: The detection sensitivity of the assay was 2.56 x 10(-5) TCID50 and the regression coefficient of the quantitative curve was 0.999. The specificity was determined by testing five other specimens, all of which yielded negative results., Conclusion: The detection system based on real-time RT-PCR was rapid, sensitive and steady, which could be used to detect the clinic samples.

Published
2006

18. [Evaluation on construction and expression in vitro of nucleic acid vaccine of nucleoprotein of influenza virus A].

Author

He JF, Fang SS, Cheng XW, Zhang R, Deng P, and Zhao S

Subjects
Animals, Base Sequence, Chlorocebus aethiops, Influenza A virus genetics, Influenza Vaccines genetics, Influenza Vaccines immunology, Molecular Sequence Data, Nucleocapsid Proteins, Polymerase Chain Reaction methods, RNA-Binding Proteins genetics, Transfection, Vaccines, DNA genetics, Vaccines, DNA immunology, Vero Cells, Viral Core Proteins genetics, Influenza A virus immunology, Influenza Vaccines biosynthesis, RNA-Binding Proteins immunology, Vaccines, DNA biosynthesis, Viral Core Proteins immunology
Abstract

Objective: Constructing nucleic acid vaccine of influenza virus A to study the protective effects., Methods: NP gene was reverse transcripted from influenza virus A and linked with pSECTAG 2/Hygro A to constructed nucleic acid vaccine of influenza virus A. The constructed nucleic acid vaccine was transinfected into VERO cell resorting to lipofectamineTM2000. NP gene of influenza virus A was expressed in VERO cell by the method of ELISA., Results: The results showed that the NP gene was expressed to the highest level at 36h after transinfection with the A40 value of 0.382. From 36 h to 60 h after transinfection, the expression of NP gene was stable (the A45, value at 48h and 60h was 0.385 and 0.387, respectively) ., Conclusion: The nucleic acid vaccine of influenza virus A was successfully constructed, which sets up groudworks for the research of effection of nucleic acid vaccine in vivo.

Published
2005

19. [Expression and assay in vitro of phage single chain antibody against nucleoprotein of influenza virus A type].

Author

Fang SS, Zhao YM, He JF, Liu T, Liu J, and Zhao S

Subjects
Antibodies, Viral biosynthesis, Antibodies, Viral immunology, Escherichia coli genetics, Escherichia coli metabolism, Nucleocapsid Proteins, Polymerase Chain Reaction, RNA-Binding Proteins immunology, Single-Chain Antibodies genetics, Single-Chain Antibodies immunology, Viral Core Proteins immunology, Antibodies, Viral genetics, Peptide Library, RNA-Binding Proteins genetics, Single-Chain Antibodies biosynthesis, Viral Core Proteins genetics
Abstract

Objective: To expression the phage single chain antibody against nucleoprotein of influenza virus A type in E. coli strain HB2151 by screening the positive clone from the phage antibody library against nucleoprotein, which will prepare for the construction of fast leak kit of Influenza virus A type., Methods: The positive clone ratio in the phage antibody library was enriched by three-round continual solid panning, ELISA, SDS-PAGE and Western-blot methods were used to analyze the protein secreted into the supemants and periplasmic. Affinity chromatography was used to purified the protein expressed in periplasmic and the titer was also analyzed using ELISA method., Results: 10 clones were screened from96 clones and among the 10, there were 3 stronger positive with OD450nm value of 0.469, 0.582 and 0.507, respectively. The phage single chain antibody against Influenza virus A type was primary expressed in periplasmic. The ELISA results were positive even if the single chain antibody purified by affinity chromatography was diluted 4096 folds., Conclusion: Using phage antibody library technique, phage single antibody against nucleoprotein of influenza virus A type was preliminary expressed in E. coli.

Published
2005

20. [Application of fluorescent real-time reverse transcriptase-polymerase chain reaction in detecting influenza viruses].

Author

Cheng XW, Zhou L, Zhao J, Fang SS, Yu L, Ye BY, He JF, Lu X, Zhang ZQ, and Yang H

Subjects
Cell Culture Techniques, Humans, Reverse Transcriptase Polymerase Chain Reaction methods, Sensitivity and Specificity, Influenza A Virus, H3N2 Subtype isolation & purification, Influenza A virus isolation & purification, Influenza, Human virology, Severe Acute Respiratory Syndrome virology
Abstract

Objective: To apply fluorescent real-time reverse transcriptase-polymerase chain reaction (RT-PCR) in detecting influenza viruses., Methods: A total of 207 oral swab samples were obtained in 16 collections from SARS patients and suspected influenza outbreak cases. They were subjected to influenza virus detection by fluorescent real-time RT-PCR, MDCK cell culture, and hemagglutinin inhibition assay., Results: Out of 207 samples, 79 (38.16%) were positive for influenza viruses when tested by fluorescent real-time PCR, and 62 (29.95%) positive when tested by MDCK cell culture. There was a statistically significant difference between them (chi square=8.64, P less than 0.005). From 104 cases in 9 collections dual serum samples were obtainable. When tested with hemagglutinin inhibition assay, 64 cases (61.54%) showed a 4-fold increase against H3N2 antigen., Conclusion: This study showed that fluorescent real-time PCR is a reliable, sensitive, and fast method for detecting influenza viruses.

Published
2004

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