Role of CD80, CD86 and their receptors in the immune response in virus infection / 中华实验和临床病毒学杂志

CD80, CD86 and their receptors CD28 and CTLA-4 provide the necessary costimulatory signals for T cell. Virus infection may inhibit the expression of CD80 or CD86 to impair the function of specific T lymphocytes, thus avoid immune surveillance; it can also lead to the disorder of the expression of CD80 or CD86, inducing dysfunction of immune cells in the body, thus causing continuous infection and inflammation. Therefore, costimulation pathway CD80/CD86: CD28/CTLA-4 has great significance for the body to maintain a normal immune response, as well as the clearance of the virus and the recovery of the body. This article summarizes the studies on CD80, CD86 and their receptors in viral infection in recent years, and provides theoretical ideas and references for the control of viral infection.

Construction and application of Escherichia Coli-Riemerella anatipestifer efficient shuttle plasmid pFY02 / 生物工程学报

Riemerella anatipestifer is a pathogen that mainly infects ducks, gooses, turkeys and other birds, causing septicemia and serositis. At present, the function of R. anatipestifer genes are studied by gene deletion and complementation. However, the shuttle plasmid pLMF03 used at present is inefficient for conjugation. Moreover, less restriction enzyme site can be used for cloning. It is not able to use for all the genes complementation. To solve this disadvantage, the conjugative transfer site, R. anatipestifer replication initiation gene, high expression promoter and a number of enzyme cutting sites were cloned into the plasmid pPM5, to generate the new shuttle plasmid pFY02. The shuttle plasmid pFY02 was stable in R. anatipestifer and had a high conjugative transfer efficiency. The R. anatipestifer tonB2 mutant strain could be complemented by shuttle plasmid pFY02 expressing tonB2, indicating that the shuttle plasmid can be used to the complementation of R. anatipestifer. Taken together, the new shuttle plasmid pFY02 constructed in this study replenishes the genetic tool for complementation.

Advance in Herpesvirus US10 gene and its encoded protein / 中国人兽共患病学报

US10 gene of Herpesvirus is located in the short unique region of its genome and not essential for virus replication.US10 gene encodes a phosphorylated tegument-capsid associated protein or type Ⅰ transmembrane glycoprotein which selectively targets the cytoplasmic tail of HLA-G,a kind of nonclassical class Ⅰ MHC molecular,to reduce and block the host NK cell cytotoxicity in immune evasion.US10 can also interact with host proteins to play a pathogenic role and regulate the expression of other viral proteins such as glycoprotein E (gE).Through further research,the role of US10 in virulence and its ability to combine with RNA and regulate transcription can be judged in the future.

Advances in Parvovirus Non-structural Protein NS1 Induced Apoptosis / 病毒学报

Until now, more than seventeen parvovirus have been reported which can infect mammals and poultries. The infected cells appeared different properties of apoptosis and death, present a typical cytopathic effect. NS1 is a major nonstructural protein of parvovirus, with a conservative structure and function, which plays an important role in the viral life cycle. In addition to the influence on viral replication, the NS1 also participates in apoptosis induced by viruses. Parvovirus induced apoptosis which is mainly mediated by mitochondrial pathway, this review summarized the latest research progresses of parvovirus induced apoptosis.

Molecular characterization of duck enteritis virus CHv strain UL49.5 protein and its colocalization with glycoprotein M

The UL49.5 gene of most herpesviruses is conserved and encodes glycoprotein N. However, the UL49.5 protein of duck enteritis virus (DEV) (pUL49.5) has not been reported. In the current study, the DEV pUL49.5 gene was first subjected to molecular characterization. To verify the predicted intracellular localization of gene expression, the recombinant plasmid pEGFP-C1/pUL49.5 was constructed and used to transfect duck embryo fibroblasts. Next, the recombinant plasmid pDsRed1-N1/glycoprotein M (gM) was produced and used for co-transfection with the pEGFP-C1/pUL49.5 plasmid to determine whether DEV pUL49.5 and gM (a conserved protein in herpesviruses) colocalize. DEV pUL49.5 was thought to be an envelope glycoprotein with a signal peptide and two transmembrane domains. This protein was also predicted to localize in the cytoplasm and endoplasmic reticulum with a probability of 66.7%. Images taken by a fluorescence microscope at different time points revealed that the DEV pUL49.5 and gM proteins were both expressed in the cytoplasm. Overlap of the two different fluorescence signals appeared 12 h after transfection and continued to persist until the end of the experiment. These data indicate a possible interaction between DEV pUL49.5 and gM.

Apoptosis induced in vivo by new type gosling viral enteritis virus

In this study, apoptosis was induced by new type gosling viral enteritis virus (NGVEV) in experimentally infected goslings is reported in detail for the first time. After 3-day-old goslings were orally inoculated with a NGVEV-CN strain suspension, the time course of NGVEV effects on apoptotic morphological changes of the internal tissues was evaluated. These changes were observed by histological analysis with light microscopy and ultrastructural analysis with transmission electron microscopy. DNA fragmentation was assessed with a terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) assay and DNA ladder analysis. A series of characteristic apoptotic morphological changes including chromatin condensation and margination, cytoplasmic shrinkage, plasma membrane blebbing, and formation of apoptotic bodies were noted. Apoptosis was readily observed in the lymphoid and gastrointestinal organs, and sporadically occurred in other organs after 3 days post-infection (PI). The presence and quantity of TUNEL-positive cells increased with infection time until 9 days PI. DNA extracted from the NGVEV-infected gosling cells displayed characteristic 180~200 bp ladders. Apoptotic cells were ubiquitously distributed, especially among lymphocytes, macrophages, monocytes, and epithelial and intestinal cells. Necrosis was subsequently detected during the late NGVEV-infection phase, which was characterized by cell swelling, plasma membrane collapse, and rapidly lysis. Our results suggested that apoptosis may play an important role in the pathogenesis of NGVE disease.

Development and application of a reverse transcriptase polymerase chain reaction to detect Chinese isolates of duck hepatitis virus type 1.

We developed a reverse transcriptase polymerase chain reaction (RT-PCR) method for the detection of duck hepatitis virus type 1 (DHV-1) in the tissues of infected and clinically affected ducks and in chick and duck embryos. We found the assay to be effective in detecting the virus in China, where it is being used in studies on the epidemiology of the disease. We applied this simple and rapid diagnostic method to the detection of DHV isolates grown in chick and duck embryos and in tissues obtained from infected birds. The assay also proved useful for the differentiation of DVH from the duck plague virus (DPV), muscovy parvovirus (MPV), gosling parvovirus (GPV), avian influenza virus (AIV/H5N1), Pasteurella multocida (PA/5:A), Riemerella anatipestifer (RA/serotype 1), and Salmonella enteritidis (SE). The limit of the sensitivity of this method for the detection of DHV-1 RNA was 3 pg/10 microl. As compared to Dot-ELISA and virus isolation, the rate of agreement for the detection of experimentally infected livers was 100%; moreover, the RT-PCR method was also capable of detecting DHV-1 RNA from the livers that had been infected and stored at -20 degrees C for 22 years; in contrast, Dot-ELISA and virus isolation method could only detect DHV-1 from the livers that had been infected and stored at -20 degrees C for 13 and 11 years, respectively. The rate of positivity in 185 clinically suspected diseased livers subjected to detection by RT-PCR, Dot-ELISA, and virus isolation was 89.2%, 69.2%, and 55.7%, respectively. These results indicated that the RT-PCR approach is rapid, sensitive, and reliable for the detection and differentiation of DHV-1 from the other clinical samples and suspected isolates.

Development and application of a reverse transcriptase polymerase chain reaction to detect Chinese isolates of duck hepatitis virus type 1.

We developed a reverse transcriptase polymerase chain reaction (RT-PCR) method for the detection of duck hepatitis virus type 1 (DHV-1) in the tissues of infected and clinically affected ducks and in chick and duck embryos. We found the assay to be effective in detecting the virus in China, where it is being used in studies on the epidemiology of the disease. We applied this simple and rapid diagnostic method to the detection of DHV isolates grown in chick and duck embryos and in tissues obtained from infected birds. The assay also proved useful for the differentiation of DVH from the duck plague virus (DPV), muscovy parvovirus (MPV), gosling parvovirus (GPV), avian influenza virus (AIV/H5N1), Pasteurella multocida (PA/5:A), Riemerella anatipestifer (RA/serotype 1), and Salmonella enteritidis (SE). The limit of the sensitivity of this method for the detection of DHV-1 RNA was 3 pg/10 microl. As compared to ELISA and virus isolation, the rate of agreement for the detection of experimentally infected livers was 100%; moreover, the RT-PCR method was also capable of detecting DHV-1 RNA from the livers that had been infected and stored at -20 degrees C for 22 years; in contrast, ELISA and virus isolation method could only detect DHV-1 from the livers that had been infected and stored at -20 degrees C for 13 and 11 years, respectively. The rate of positivity in 185 clinically suspected diseased livers subjected to detection by RT-PCR, ELISA, and virus isolation was 89.2%, 69.2%, and 55.7%, respectively. These results indicated that the RT-PCR approach is rapid, sensitive, and reliable for the detection and differentiation of DHV-1 from the other clinical samples and suspected isolates.

The pathogenesis of duck virus enteritis in experimentally infected ducks: a quantitative time-course study using TaqMan polymerase chain reaction.

Duck virus enteritis is an acute and contagious herpesvirus infection of duck, geese and swans with high morbidity and mortality. The kinetics of viral DNA loads and immunohistochemical localization of virulent duck enteritis virus, as well as histopathological examination in various tissues of ducks following oral infection, were investigated. The time course for the appearance of viral antigen and tissue lesions in various tissues was coincident with the levels of duck enteritis virus at the various sites, suggesting that the levels of duck enteritis virus in systemic organs have a close correlation with the progression of disease. The abundance of target epithelial and lymphoid cells may contribute to the high levels of virus infection and replication in lymphoid and intestinal tissues.

Preliminary study on duck enteritis virus-induced lymphocyte apoptosis in vivo.

We studied apoptosis induced by duck enteritis virus (DEV) in vivo, focusing on the lymphoid organs that constitute the main targets for infection: thymus, bursa of Fabricius (BF), and spleen. Fifty Pekin ducks were inoculated subcutaneously with a virulent strain of DEV. The morphology of lymphoid organs of these infected ducks was observed by light microscopy and transmission electron microscopy. Cell death by classical necrosis was observed in lymphocytes of the DEV-infected thymus, BF, and spleen. Lymphocyte apoptosis also was observed at the same time, and it was further confirmed by in situ terminal deoxynucleotidyl transferase dUTP nick-end labeling and agarose gel electrophoresis. We conclude that apoptosis and necrosis of lymphocytes induced by DEV infection resulted in the depletion of lymphocytes and that apoptosis of lymphocytes may play an important role in the pathogenesis of duck viral enteritis.

Studies of the pig interleukin 2(IL-2) eukaryon expression plasmid on cellular immune responses of BALB/c mice immuned with pcDNA-PRRSV-ORF5 DNA vaccine / 中国免疫学杂志

Objective:To study the effect of pig interleukin 2(IL 2) eukaryon expression plasmid on cellular immune responses of BALB/c mice immuned with pcDNA PRRSV ORF5 DNA vaccine.Methods:BALB/c mice were immunized with pcDNA PRRSV ORF5 DNA vaccine and pig interleukin 2(IL 2) eukaryon expression plasmid by the routes of co injection and DNA vaccine injection alone respectively, with PBS and pcDNA3 1(+) as controls. Fluoresecence Activated Cell Sorter(FACS),T lymphocyte proliferation test(MTT) were used to detect the number of CD4 +、CD8 + and the T lymphocyte proliferation in peripheral blood of mice vaccinated.Results:ConA response of T lymphocytes in blood was higher in experiment group than the control group ( P