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Shamblin CE Greene N Arumugaswami V Dienglewicz RL Parcells MS 《Veterinary microbiology》2004,102(3-4):147-167
Marek's disease (MD) is a highly contagious lymphoproliferative and demyelinating disorder of chickens. MD is caused by Marek's disease virus (MDV), a cell-associated, acute-transforming alphaherpesvirus. For three decades, losses to the poultry industry due to MD have been greatly limited through the use of live vaccines. MDV vaccine strains are comprised of antigenically related, apathogenic MDVs originally isolated from chickens (MDV-2), turkeys (herpesvirus of turkeys, HVT) or attenuated-oncogenic strains of MDV-1 (CVI-988). Since the inception of high-density poultry production and MD vaccination, there have been two discernible increases in the virulence of MDV field strains. Our objectives were to determine if common mutations in the major glycoprotein genes, a major lytic antigen phosphoprotein 38 (pp38) or a major latency/transformation antigen Meq (Marek's EcoRI-Q-encoded protein) were associated with enhanced MDV virulence. To address this, we cloned and sequenced the major surface glycoprotein genes (gB, gC, gD, gE, gH, gI, and gL) of five MDV strains that were representative of the virulent (v), very virulent (vv) and very virulent plus (vv+) pathotypes of MDV. We found no consistent mutations in these genes that correlated strictly with virulence level. The glycoprotein genes most similar among MDV-1, MDV-2 and HVT (gB and gC, approximately 81 and 75%, respectively) were among the most conserved across pathotype. We found mutations mapping to the putative signal cleavage site in the gL genes in four out of eleven vv+MDVs, but this mutation was also identified in one vvMDV (643P) indicating that it did not correlate with enhanced virulence. In further analysis of an additional 12 MDV strains, we found no gross polymorphism in any of the glycoprotein genes. Likewise, by PCR and RFLP analysis, we found no polymorphism at the locus encoding the pp38 gene, an early lytic-phase gene associated with MDV replication. In contrast, we found distinct mutations in the latency and transformation-associated Marek's EcoRI-Q-encoded protein, Meq. In examination of the DNA and deduced amino acid sequence of meq genes from 26 MDV strains (9 m/vMDV, 5 vvMDV and 12 vv+MDVs), we found distinct polymorphism and point mutations that appeared to correlate with virulence. Although a complex trait like MDV virulence is likely to be multigenic, these data describe the first sets of mutations that appear to correlate with MDV virulence. Our conclusion is that since Meq is expressed primarily in the latent/transforming phase of MDV infection, and is not encoded by MDV-2 or HVT vaccine viruses, the evolution of MDV virulence may be due to selection on MDV-host cell interactions during latency and may not be mediated by the immune selection against virus lytic antigens such as the surface glycoproteins. 相似文献
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Carvallo FR French RA Gilbert-Marcheterre K Risatti G Dunn JR Forster F Kiupel M Smyth JA 《Veterinary pathology》2011,48(5):993-998
Marek's disease (MD) is a disease of chickens that occurs worldwide and has serious economic consequences. MD can present as one of several forms, with the most commonly occurring forms being the lymphoproliferative diseases. Under experimental conditions, an early mortality syndrome has been recognized following infection by some but not all strains of MD virus (MDV). This is the first report of a confirmed case of mortality due to naturally occurring MDV infection in 1-week-old, nonvaccinated, chickens. Necrotizing lesions were observed in the bursa of Fabricius, lung, duodenum, jejunum, and proventriculus, and large intranuclear inclusion bodies were a striking feature in tissues with lesions in all birds. Immunohistochemical staining for the pp38 protein of MDV revealed abundant pp38 antigen in the affected tissues, confirming the presence of MDV within the lesions. PCR yielded an amplicon with 97% homology to the meq gene of MDV. No evidence of co-infection by either of the immunosuppressive agents chicken anemia virus and infectious bursal disease virus was detected. 相似文献
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根据马立克氏病病毒(MDV)国际参考强毒CA株pp24基因序列,设计和合成了一对引物,其两端分别含SalI和EcoRI的酶切位点,以CV1988株基因组DNA为模板,通过PCR技术,扩增其pp24基因。PCR产物经纯化后,按正确的阅读框架定向克隆到表达性载体pGEX-6P-1中谷胱甘肽转移酶(GST)基因的下游,并用序列测定验证。将重组质粒转化的大肠杆菌BL21,在1.0mMIPTG和37℃条件下诱导,GST-pp24基因获得了表达。诱导菌体的裂解物经12%的SDS聚丙烯凝胶电泳(SDS-PAGE)和Westemblot试验验证。得到大小为43kD的融合蛋白,与预期大小一致。将该融合蛋白的凝胶带切下研碎后免疫小鼠三次后,其血清与MDV感染的鸡胚成纤维细胞(CEF)在间接免疫荧光试验中呈阳性反应。 相似文献
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J M Sharma 《Avian diseases》1981,25(4):882-893
Chickens of 2 genetic lines (lines P and N) were inoculated with a pathogenic strain of Marek's disease (MD) virus (MDV) and chronologically examined for disease response and natural killer (NK) cell expression. The NK cell reactivity was assayed in an in vitro cytotoxicity assay in which effector cells from the spleen of test chickens were reacted with 51Cr-labeled LSCC-RP9 target cells. Chickens of line P developed progressive debilitating disease and a high incidence of gross tumors and death. The NK cell reactivity of line-P chickens infected with MDV was significantly lower than that of uninfected control hatchmates. In contrast, NK cell levels were significantly elevated in MDV-inoculated line-N chickens that were resistant to MD and in chickens of lines P or N that had been inoculated with herpesvirus of turkeys (HVT). NK cell levels were also elevated in line P if chickens were vaccinated with HVT before infection with MDV. Inhibition of NK reactivity in susceptible chickens and elevation of reactivity in naturally resistant or vaccinated chickens may indicate a role for the NK cell system in regulating resistance to MD. 相似文献
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We examined the susceptibility of late-stage chicken embryos to infection with oncogenic serotype 1 Marek's disease virus (MDV 1). Intravenous inoculation of MDV 1 at embryonic day (ED) 16 resulted in significant replication of the virus in embryonic tissues. Within 5 days of virus exposure, pp38 viral antigen (pp38) was detected in embryonic bursae and MDV 1 was isolated by plaque assay from the spleens, thymuses, and bursae of embryos. The pathogenesis of MDV 1 after intravenous inoculation at ED 16 was similar to that in chicks exposed to MDV 1 after hatching. In contrast to the response of the embryo to intravenous inoculation, embryos exposed to MDV 1 by the amniotic route did not develop detectable pp38, nor could the virus be isolated from the embryonic tissues by plaque assay. These results show that the route of inoculation of MDV 1 in the embryos is critical for allowing the virus to come in contact with target cells. 相似文献
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Venugopal K 《Research in veterinary science》2000,69(1):17-23
Marek's disease (MD) is a common lymphoproliferative disease of poultry caused by a highly contagious and oncogenic herpesvirus. In spite of the widespread use of highly effective MD vaccines, recently there have been worrying trends in the evolution of MD virus pathotypes towards greater virulence. In the last few years, there has been significant progress in determining the molecular structure of MD virus and several genes that map within the repeat regions of the virus, such as Bam HI-H family, ICP 4, meq and pp38, which are potentially associated with the latency and transformation have been identified. The functions of some of these genes have provided insights into the mechanisms of MD virus-induced oncogenesis. This review summarises some of these oncogenic mechanisms and the progress in the control of MD. 相似文献
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Earlier studies have shown that the B haplotype has a significant influence on the protective efficacy of vaccines against Marek's disease (MD) and that the level of protection varies dependent on the serotype of MD virus (MDV) used in the vaccine. To determine if the protective glycoprotein gene gB is a basis for this association, we compared recombinant fowlpox virus (rFPV) containing a single gB gene from three serotypes of MDV. The rFPV were used to vaccinate 15.B congenic lines. Nonvaccinated chickens from all three haplotypes had 84%-97% MD after challenge. The rFPV containing gB1 provides better protection than rFPV containing gB2 or gB3 in all three B genotypes. Moreover, the gB proteins were critical, since the B*21/*21 chickens had better protection than chickens with B*13/*13 or B*5/*5 using rFPV with gB1, gB2, or gB3. A newly described combined rFPV/gB1gEgIUL32 + HVT vaccine was analyzed in chickens of lines 15 x 7 (B*2/*15) and N (B*21/*21) challenged with two vv+ strains of MDV. There were line differences in protection by the vaccines and line N had better protection with the rFPV/gB1gEgIUL32 + HVT vaccines (92%-100%) following either MDV challenge, but protection was significantly lower in 15 X 7 chickens (35%) when compared with the vaccine CVI988/Rispens (94%) and 301B1 + HVT (65%). Another experiment used four lines of chickens receiving the new rFPV + HVT vaccine or CVI988/Rispens and challenge with 648A MDV. The CVI 988/Rispens generally provided better protection in lines P and 15 X 7 and in one replicate with line TK. The combined rFPV/gB1gEgIUL32 + HVT vaccines protected line N chickens (90%) better than did CVI988/Rispens (73%). These data indicate that rFPV + HVT vaccines may provide protection against MD that is equivalent to or superior to CVI988/ Rispens in some chicken strains. It is not clear whether the rFPV/gB1gEgIUL32 + HVT vaccine will offer high levels of protection to commercial strains, but this vaccine, when used in line N chickens, may be a useful model to study interactions between vaccines and chicken genotypes and may thereby improve future MD vaccines. 相似文献
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J A Lin H Kodama M Onuma T Mikami 《The Journal of veterinary medical science / the Japanese Society of Veterinary Science》1991,53(2):269-273
A newly cloned serotype 2 Marek's disease virus (MDV), strain ML-6, was inoculated via the nasal cavity in specific-pathogen-free chicks to examine early virus replication and the expression of Marek's disease (MD)-related antigens. Following inoculation, viral intracellular antigens (VIAs) were detected in lymphoid organs (bursas and spleens) between 5 and 14 days post inoculation (PI), in feather follicles between 14 and 30 days PI, and in lungs at 3 days PI by the immunohistopathological staining of avidin-biotin-peroxidase complex method. But, very few VIAs were expressed in the thymuses between 5 and 14 days PI. However, MD tumor-associated surface antigens were not detected in any organs. Viruses were isolated from separated spleen cells at 14 and 30 days PI. Fluorescent antibodies of convalescent sera were also detected after 10 days PI. As most of the VIAs were detectable in B-cells in bursas and spleens. B-cells were considered to be the main first target cells for the serotype 2 MDV infection. 相似文献
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Marek's disease virus infection in the brain: virus replication, cellular infiltration, and major histocompatibility complex antigen expression 总被引:2,自引:0,他引:2
Marek's disease virus (MDV) infection in the brain was studied chronologically after inoculating 3-week-old chickens of two genetic lines with two strains of serotype I MDV representing two pathotypes (v and vv+). Viral replication in the brain was strongly associated with the development of lesions. Three viral antigens (pp38, gB, and meq) were detected in the brain of infected chickens. Marked differences between v and vv+ pathotypes of MDV were identified for level of virus replication, time course of brain lesions, and expression of major histocompatibility complex (MHC) antigens. Two pathologic phenomena (inflammatory and proliferative) were detected in the brain of chickens inoculated with vv+MDV, but only inflammatory lesions were observed in those inoculated with vMDV. Inflammatory lesions, mainly composed of macrophages, CD4+ T cells, and CD8+ T cells, started at 6-10 days postinoculation (dpi) and were transient. Proliferative lesions, characterized by severe infiltrates of CD4+CD8- T cells (blasts), started at 19-26 dpi and persisted. Expression of MHC antigens in endothelial cells and infiltrating cells within the brain was influenced by MDV infection. Upregulation of MHC class II antigen occurred in all treatment groups, although it was more severe in those inoculated with vv+MDV. MHC class I antigen was downregulated only in those groups inoculated with vv+MDV. These results enhance our understanding of the nature and pattern of MDV infection in the brain and help to explain the neurovirulence associated with highly virulent MDV. 相似文献
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LI Si-fei SUN Peng CHEN Jun-xia QIN Kui SU Shuai ZHAO Peng CUI Zhi-zhong 《中国畜牧兽医》2016,43(5):1343-1348
In a certain area of Shandong province, Marek's disease (MD) occurred in diseased chickens that had been vaccinated by turkey herpesvirus.In order to isolate the virus strain and detect the virus pathogenicity, agar diffusion test, cell culture and indirect immunofluorescence assay (IFA) were used to isolate the Marek's virus from chicken's blood and feather marrow.The isolated strain was adapted to grow in chick embryo fibroblasts (CEF).Genes involved in pathogenesis of MDV, such as meq, pp38 and 132 bp repeat sequence were amplified by PCR.The obtained sequences were compared with that of standard strains published in GenBank by DNAStar software.The results showed that pp38 gene of the SDAU-1 shared homology from 100% with standard virulent sequence.Analysis of 132 bp repeat sequence and meq gene sequences of the viral genome showed that the isolated virus belongs to the highly virulent MDV strains. 相似文献
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山东省某地区鸡马立克氏病疫苗免疫鸡群暴发马立克氏病(MD),为分离得到致病毒株,检测其致病性,采用琼脂扩散试验、细胞培养和间接免疫荧光试验(IFA)等方法从发病鸡的血液及羽髓中分离到一株适应鸡胚成纤维细胞(CEF)生长的马立克氏病病毒。采用PCR方法扩增分离毒株的meq、pp38、132bp重复序列等病毒致病相关基因,所得序列用DNAStar软件与GenBank上登录的参考毒株进行比对分析。结果显示,该分离株SDAU-1的pp38基因与标准强毒序列同源性为100%,132bp重复序列的拷贝数及meq基因的变异均符合MDV强毒株的序列特征。 相似文献
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Bursa- and thymus-dependent functions were examined in Marek's disease (MD)-susceptible normal chickens and in chickens treated with 5 and 16 mg of cyclophosphamide (CY) at the time of hatching. Chickens not exposed to Marek's disease virus (MDV) and treated with CY temporarily lost mitogenic response to concanavalin A but regained full response after 5 weeks. Bursa-dependent functions, such as presence of germinal centers in spleen and cecal tonsils, morphologic features of bursa, and sheep red blood cell antibody response were completely lost in chickens treated with 16 mg of CY and only partly retained in chickens treated with 5 mg of CY. In chickens exposed to MDV, the degree of thymus-dependent spleen cell mitogenic response was directly related to frequency and severity of MD. Chickens treated with 16 mg of CY had a mild mitogenic depression and low frequency and severity of MD lesions, whereas those treated with 5 mg of CY and those not treated had marked mitogenic depression and high frequency and severity of MD. Suppressions of bursa- and thymus-dependent functions by MDV alone were also evident when comparing MDV-exposed and nonexposed chickens. The results also indicate that presence of small, residual amounts of humoral factor(s) may enhance MDV oncogenesis. 相似文献
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Waldvogel AS Lepage MF Zakher A Reichel MP Eicher R Heussler VT 《Veterinary immunology and immunopathology》2004,97(1-2):53-63
Interleukin 4 (IL-4) is expected to play a dominant role in the development of T helper (Th) 2 cells. Th2 immune responses with expression of relatively large amounts of interleukin 4 (IL-4) but little interferon gamma (IFN-gamma) are characteristic for chronic helminth infections. But no information is available about IL4 expression during early Fasciola hepatica (F. hepatica) infections in cattle. Therefore, we investigated F. hepatica specific IL-4 and IFN-gamma mRNA expression in peripheral blood mononuclear cells (PBMCs) from calves experimentally infected with F. hepatica. Cells were collected prior to infection and on post-inoculation days (PIDs) 10, 28 and 70. Interestingly, PBMCs responded to stimulation with F. hepatica secretory-excretory products (FhSEP) already on PID 10 and expressed high amounts of IL-4 but not of IFN-gamma mRNA suggesting that F. hepatica induced a Th2 biased early immune response which was not restricted to the site of infection. Later in infection IL-4 mRNA expression decreased whereas IFN-gamma mRNA expression increased slightly. Isolated lymph node cells (LNCs) stimulated with FhSEP and, even more importantly, non-stimulated LN tissue samples indicated highly polarized Th2 type immune responses in the draining (hepatic) lymph node, but not in the retropharyngeal lymph node. During preliminary experiments, two splice variants of bovine IL-4 mRNA, boIL-4delta2 and boIL-4delta3, were detected. Since a human IL-4delta2 was assumed to act as competitive inhibitor of IL-4, it was important to know whether expression of these splice variants of bovine IL-4 have a regulatory function during an immune response to infection with F. hepatica. Indeed, IL-4 splice variants could be detected in a number of samples, but quantitative analysis did not yield any clue to their function. Therefore, the significance of bovine IL-4 splice variants remains to be determined. 相似文献
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Marek's disease (MD) is a lymphoproliferative disease of domestic chickens caused by a highly infectious, oncogenic alpha-herpesvirus known as Marek's disease virus (MDV). MD is presently controlled by vaccination. Current MD vaccines include attenuated serotype 1 strains (e.g., CVI988/Rispens), avirulent serotype 2 (SB-1), and serotype 3 (HVT) MDV strains. In addition, recombinant MDV strains have been developed as potential new and more efficient vaccines to sustain the success of MD control in poultry. One of the candidate recombinant MDV strains, named rMd5deltaMeq, was derived from Md5, a very virulent strain of MDV lacking the MDV oncogene Meq. Our earlier reports suggest that rMd5deltaMeq provided protection equally well or better than commonly used MD vaccines in experimental and commercial lines of chickens challenged with very virulent plus (vv+) strains of MDV. In this study, maternal antibody-positive (trial 1) and negative (trial 2) chickens from a series of relatively MD resistant lines were either vaccinated with the rMd5deltaMeq or CVI988/Rispens followed by infection of a vv+ strain of MDV, 648A, passage 10. This report presents experimental evidence that the rMd5deltaMeq protected significantly better than the CVI988/Rispens (P < 0.01) in the relatively resistant experimental lines of chickens challenged with the vv+ strain of MDV. Together with early reports, the rMd5deltaMeq appeared to provide better protection, comparing with the most efficacious commercially available vaccine, CVI988/Rispens, for control of MD in lines of chickens regardless of their genetic background. 相似文献
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The MDTC-RP30 lymphoblastoid cell line established from Marek's disease (MD) tumors in turkeys consisted of a heterogeneous population of cells 10 to 25 micron in diameter. Large-cell fractions obtained from a bovine fetal serum gradient had a higher titer of cell-associated MD virus (MDV) than the small-cell fractions. Seven single-cell clones were established from MDTC-RP30 cell line: two consisted of large cells, and the other clones consisted of small cells. Infectious MDV was rescued from large-cell clones in chicken embryo fibroblast cultures but not from small-cell clones. All clones contained MDV DNA sequences when hybridized against cloned MDV DNA. All clones were positive for a Marek's-disease-tumor-associated surface antigen and surface immunoglobulins. All but two small-cell clones caused MD in susceptible chickens. The two large-cell-type clones were uniformly tetraploid, whereas one small-cell clone was diploid and the four others were a mixture of diploid and tetraploid, with an occasional triploid cell. Evidence of translocation involving the male (Z) chromosome and the chromosome #3 was seen in one clone. These results suggest that MDV transforms different subpopulations of lymphocytes. 相似文献