Selection of a recombinant Marek's disease virus in vivo through expression of the Marek's EcoRI-Q (Meq)-encoded oncoprotein: characterization of an rMd5-based mutant expressing the Meq of strain RB-1B

Marek's disease (MD) is a highly contagious viral disease of chickens (Gallus gallus domesticus) caused by MD virus (MDV), characterized by paralysis, neurologic signs, and the rapid onset of T-cell lymphomas. MDV-induced T-cell transformation requires a basic leucine zipper protein called Marek's EcoRI-Q-encoded protein (Meq). We have identified mutations in the coding sequence of Meq that correlated with virus pathotype (virulent, very virulent, and very virulent plus). The aim of this study was to determine whether recombinant viruses could be isolated based on Meq expression through in vivo selection. Chicken embryo fibroblasts (CEFs) were cotransfected with an rMd5 strain-based Meq deletion virus (rMd5deltaMeq) and meq loci from strains representing different pathotypes of MDV. Transfected CEFs were inoculated into chickens in two independent studies. We were able to isolate a single recombinant virus, rMDV-1137, in a contact-exposed chicken. rMDV-1137 had recombined two copies of the meq gene of RB-1B and was found to have pathogenicity similar to both RB-1B and rMd5 parental strains. We found the RB-1B- and rMd5-induced lymphomas showed differences in composition and that rMDV-1137-induced lymphomas were intermediate in their composition. We were able to establish cell lines from both RB-1B- (MDCC-UD35, -UD37) and rMDV-1137 (MDCC-UD36, -UD38)-induced, but not rMd5-induced, lymphomas. To date, no rMd5- or parent Md5-transformed T-cell lines have been reported. Our results suggest that 1) a recombinant MDV can be selected on the basis of oncogenicity; 2) changes in Meq sequence seem to affect tumor composition and the ability to establish cell lines; and 3) in addition to meq, other genomic loci affect MDV pathogenicity and oncogenicity.     

Kinetics of phytohemagglutinin response in chickens infected with various strains of Marek's disease virus

Phytohemagglutinin (PHA) response of whole blood lymphocytes from white leghorn inbred line 7(2) chickens infected with various strains of Marek's disease virus (MDV) was monitored sequentially for 6 weeks postinfection. A significant difference between JM and GA strains was shown. A two-phase depression in the PHA response was observed in chickens infected with the JM strain. Early depression occurred 1 week postinfection and was followed by recovery a week later. The second depression occurred at 4 weeks postinfection and lasted until the end of the experiment. The GA strain-infected group, on the other hand, began to show depression 4 weeks postinfection, and most chickens died within a short time thereafter. PHA response of chickens infected with strain Md11/75C, attenuated in cell culture from highly virulent strain Md11, was almost the same as that of control chickens.     

Evaluation of pathogenicity and protective efficacy of serotype 2 Marek's disease virus from birds belonging to genus Gallus in Japan

The new cloned serotype 2 Marek's disease viruses (MDV) of ML-6, ML-9, and ML-22 strains were inoculated in specific-pathogen-free (SPF) chicks to evaluate the pathogenicity and protective efficacy. Chicks inoculated or contact-infected with ML strains showed no gross and histological lesions in lymphoid organs, sciatic plexuses and other visceral organs during 10 weeks of observation periods, indicating that the viruses were non-pathogenic. Moreover, the viruses were found to be spread horizontally among chicks by demonstrating the presence of viremia in contacted chicks at 2 weeks-old. Chicks vaccinated with ML-6 at one day-old were protected against subsequent challenge by inoculation with virulent MDV strain of Md/5 at 4 or 7 days old or by contact infection at 7 days old with chickens previously inoculated with the same strain.     

The detection of the meq gene in chicken infected with Marek's disease virus serotype 1

In the genome of strains of very virulent Marek's disease virus serotype 1(vvMDV1), such as Md5 and RB1B, the meq open reading frame (ORF) encoding a 339-amino-acid bZIP protein, is present, while a slightly longer meq ORF, termed as L-meq, in which a 180-bp sequence is inserted into the meq ORF is found in other strains of MDV1, such as CV1988/R6 and attenuated JM. When chickens were infected with vvMDV1 strains and the meq gene was amplified by nested polymerase chain reaction (PCR), the meq gene was detected throughout the experimental period for 7 weeks post inoculation (pi). However, the L-meq gene was also detected at 3 to 5 weeks and 3 to 4 weeks pi. in Md5-infected and RB1B-infected chickens, respectively. In the case of chickens infected with an attenuated MDV1, the JM strain, the L-meq gene was detected at 2 to 7 weeks pi., and the meq gene was also detected at 2 to 6 weeks pi. Both L-meq and meq genes were detected in chickens infected with an attenuated nononcogenic vaccine strain of MDV1 (CVI988/R6), throughout the experimental period. Though quantitative PCR was not performed, a larger amount of the PCR products corresponding to the L-meq than the meq gene was amplified from chickens infected with JM or CVI988/R6. These results suggest that a dynamic population shift between the MDV subpopulations displaying meq and L-meq genes occurs in chickens during the course of MDV infection. Since the MDV subpopulation that displays the L-meq gene only displays it during the latent phase, the L-meq and its gene product, if any, might contribute to the maintenance of the MDV latency.     

Similar pattern of iNOS expression, NO production and cytokine response in genetic and vaccination-acquired resistance to Marek's disease

NO is produced by macrophages through activation of the inducible enzyme NOS and its production is triggered as an antiviral and antitumoral immune mechanism. Replication of Marek's disease herpes virus (MDV) is inhibited by NO in vitro. MDV induces T-lymphomas in the chicken and a genetic resistance to tumor development has been linked to the B21 major histocompatibility complex. During the first initial week of viral replication after inoculation of the highly virulent RB-1B MDV strain, histocompatible B21/B21 chickens developed strong iNOS expression and NO production capacity in the spleen, in parallel with strong systemic NO production in the serum. Comparable NO response was not seen with the vaccinal strain HVT. In contrast, reduction in spleen macrophage number and delay in iNOS gene expression was observed in genetically susceptible B13/B13 chickens after MDV infection, in addition to suppression of IFN-gamma-inducible NO production. However, vaccination with HVT 3 days before RB-1B inoculation restored strong iNOS gene expression in the spleen 1 week later and inducible NO production 3 weeks later. Following the pattern of iNOS gene expression, early strong expression of cytokines with powerful iNOS-inducing activity such as IFN-gamma and CC chemokines from the MIP family (MIP-1beta, K203) was observed in genetic resistance and resistance acquired after vaccination with HVT. In conclusion, resistance to MDV appeared preferentially linked in both types of resistance to the early establishment of cytokine induction characteristic of a Th1 immune response, thus favoring the development of an early and strong NO response.     

Examination of the effect of a naturally occurring mutation in glycoprotein L on Marek's disease virus pathogenesis

We recently reported a comparison of glycoprotein-encoding genes of different Marek's disease virus pathotypes (MDVs). One mutation found predominantly in very virulent (vv)+MDVs was a 12-bp (four-amino acid) deletion in the glycoprotein L (gL)-encoding gene in four of 23 MDV strains examined (three were vv+MDVs and one was a vvMDV). This mutation was noted in the gL of the TK (615K) strain, but not in the RL (615J) strain of MDV. These strains have identical mutations in the meq gene characteristic of vv+MDVs but can be distinguished by the mutation in the gL-encoding gene. The TK strain was originally isolated from vaccinated chickens and appeared to confer or enhance horizontal transmission of the vaccine virus, herpesvirus of turkeys (HVT). Because the molecular basis for increased virulence of MDV field strains is unknown, we hypothesized that one mechanism might be by coreplication of MDV-1 strains with HVT and that it could be mediated by the mutation of gL, an essential component of the glycoprotein H/L complex. In this study, we compared the pathogenicity of TK (615K) and RL (615J) strains of MDV in the presence and absence of simultaneous HVT coinfection. MDV infections were monitored at the levels of viremia (for both MDV-1 and HVT), clinical signs of MD, tumor incidence, and mortality in 1) inoculated chickens, 2) chickens exposed at 1 day of age, 3) chickens exposed at 2 wk of age, and 4) chickens exposed to both TK/HVT- and RL/HVT-infected chickens at 6 wk of age. We found high incidences of clinical MD signs in all inoculated treatment groups and all chickens exposed to TK and RL viruses, regardless of the presence of HVT. The median time to death of chickens exposed to TK1HVT-infected chickens, however, was lower than the other treatment groups for contact-exposed chickens. Although this difference was not considered to be statistically significant to a rigorously interpreted degree because of the removal of chickens for sampling from the test groups, these data suggest that replication of the TK strain and HVT, when coadministered, might incrementally affect the virulence of MDV-1 strains. The strict correlation of this enhancement of virulence with the mutation in gL, however, requires additional experiments with genetically identical MDV background strains.     

Biological diversity among serotype 2 Marek's disease viruses

Selected biological characteristics were determined for 14 low-passage serotype 2 Marek's disease virus (MDV) isolates. Four of these isolates were also tested after extensive serial passage in chicken embryo fibroblast cultures. Observations were made on replication in vitro and in vivo, pathogenicity by in ovo inoculation, antigenicity, and protection against virulent MDV challenge. Among the low-passage isolates, there were some differences in pathogenicity after in ovo inoculation but relatively little difference in other characteristics, with the exception of the HN-1 strain, which replicated more rapidly in cell culture but produced generally lower in vivo responses than other isolates. After extended in vitro passage, isolates replicated much more readily in cell culture and produced lower pathologic responses in vivo than low-passage isolates, as has been reported for serotype 1 isolates. No antigenic differences among isolates were detected, but high-passage isolates induced lower levels of precipitating antibodies than low-passage isolates, indicating a possible reduction in A antigen production. The observed diversity associated with strain and passage level may be of value in the selection of optimum vaccine strains.     

Susceptibility of adult chickens, with and without prior vaccination, to challenge with Marek's disease virus

Marek's disease (MD) outbreaks can occur in previously healthy adult layer or breeder flocks. However, it is not clear whether such outbreaks are caused by recent challenge with highly virulent (vv and vv+) strains of MD virus (MDV; i. e., new infection hypothesis) or by exacerbation of an earlier MDV infection (i. e., old infection hypothesis). To discriminate between these hypotheses, adult White Leghorn chickens of laboratory strains or commercial crosses with or without prior vaccination or MDV exposure were challenged at 18-102 wk of age with highly virulent MDVs, and lesion responses were measured. Horizontal transmission was studied in one trial. Challenge of adult chickens, which were free from prior MDV vaccination or exposure, with highly virulent MDV strains induced transient paralysis or tumors in 60%-100% of 29 groups (mean = 91%), and horizontal spread of virus was detected. The magnitude of the response was similar to that induced by challenge at 3 wk of age. In contrast, comparable challenge of adult chickens, which had been vaccinated or exposed to MDV early in life, induced transient paralysis or tumors in 0%-6% of 12 groups (mean = 0. 5%), although some birds showed limited virologic evidence of infection and transmission of the virus to contacts. The MD responses were influenced by the virulence of the challenge virus strain, and to a lesser extent by virus dose and route of exposure. Strong inflammatory lesions were induced in the brain and nerves of adult specific pathogen-free (SPF) chickens at 9-15 days after infection. The low susceptibility of previously vaccinated and exposed groups to challenge at > or =18 wk of age suggests that late outbreaks of MD in commercial flocks are not likely a result of recent challenge alone and that additional factors could be involved.     

Immune profile of infectious bursal disease. III. Effect of infectious bursal disease virus on the lymphocyte responses to phytomitogens and on mixed lymphocyte reaction of chickens

A whole-blood-culture technique was used to sequentially evaluated peripheral blood lymphocyte responses to phytohemagglutinin (PHA) and concanavalin A (Con A) of normal chickens and chickens infected at 1 day or 3 weeks of age with infectious bursal disease virus (IBDV). This method had numerous advantages over the more conventional techniques. A comparative study was made on the percentage of inhibition of responses of peripheral blood lymphocytes to PHA and Con A of 1-day- and 3-week-old IBDV-infected chickens. In both groups, there was a minimum inhibition between 3 and 4 weeks postinfection (PI) and a maximum inhibition at 6 weeks PI. A one-way mixed lymphocyte reaction (MLR) was performed using mitomycin-C-treated cells as stimulator cells obtained from chickens of genetically different strains. Lymphocytes from the experimental birds (control, 1-day-infected, and 3-week-infected groups) were used as the responder cells. The results showed that MLR response of the IBDV-infected chickens was significantly reduced compared with those of the uninfected controls. The degree of lowered response was much more severe in chickens infected at 1 day of age than in those infected at 3 weeks of age.     

Restriction endonuclease analysis of Marek's disease virus DNA: differentiation of viral strains and determination of passage history.

The restriction endonuclease (RE) patterns of DNA from serotype 1 Marek's disease viruses (MDVs) are unique to serotype 1 viruses and can also be used to differentiate between low and high cell-culture-passaged viruses. We compared the RE patterns of DNA from seven serotype 2 and 3 MDVs before and after serial in vitro passage. Passage of four serotype 2 strains resulted in a variety of changes in the RE pattern. Individual strains within a serotype exhibited unique restriction patterns that allowed individual isolates to be differentiated. In a similar manner, the serotype 3 virus strains displayed RE pattern variations that were unique to each strain, as well as differences between low and high cell-culture passage. Our findings, together with earlier reports, suggest that the RE patterns of MDV DNA provide a simple and accurate method to: 1) differentiate between the three MDV serotypes, 2) differentiate between virus strains within a serotype, and 3) determine whether the viruses have been passaged extensively in cell culture.     

Effects of chemically or virus-induced immunodepression on response of chickens to avian leukosis virus

The effects of chemically or virus-induced immunodepression on the infection profile (development of viremia and antibody) and shedding of avian leukosis virus (ALV) were studied in progeny chickens of experimental or commercial breeder flocks. Chickens were infected with ALV subgroup A by contact at hatching and by oral inoculation at 4-5 weeks of age. In the first experiment, chickens were inoculated with a virulent strain of infectious bursal disease virus (IBDV) at 1 day or 6 weeks of age. In the second experiment, chickens were neonatally treated with cyclophosphamide (CY), or were inoculated with strain T of reticuloendotheliosis virus (REV) at hatching, or were inoculated with strain JM of Marek's disease virus (MDV) at 2 weeks of age. The infection profile and cloacal shedding of ALV in chickens exposed to ALV and inoculated with immunodepressive viruses or CY were compared with those in hatchmates exposed only to ALV. In two of four chicken lines tested in the first experiment, shedding of ALV, as determined by virological assays of cloacal swabs at 22 weeks of age, was significantly higher in chickens infected with IBDV at 1 day of age than in uninfected hatchmates. The rate of shedding of ALV in one of these two lines was also significantly higher in chickens infected with IBDV at 6 weeks of age than in uninfected chickens. Further, the frequency of ALV-antibody detection at 22 weeks of age was significantly lower in chickens of these two lines infected with IBDV at 1 day of age than in uninfected chickens. In the second experiment, neonatal treatment with CY significantly increased the frequency of viremic chickens of both experimental and commercial flocks. The frequency of ALV-viremic chickens at 22 weeks of age was considerably higher in the REV- and MDV-inoculated groups (54% and 44%, respectively) than in control hatchmates (29%), but only in chickens of the commercial line. These findings suggest that chemically or virus-induced immunodepression may lead to an increase in rates of viremia and shedding of ALV in chickens infected with virus after hatching, especially in certain genetic lines.     

A comparative evaluation of the protective efficacy of rMd5deltaMeq and CVI988/ Rispens against a vv+ strain of Marek's disease virus infection in a series of recombinant congenic strains of White Leghorn chickens

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.     

一株鸡马立克氏病病毒的分离鉴定及主要致病基因分析

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。     

Isolation and Identification of a Field Strain of Marek's Disease Virus and Analysis of Major Pathogenic Genes

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.     

Molecular characteristics of Polish field strains of Marek's disease herpesvirus isolated from vaccinated chickens

Background

Twenty-nine Marek''s disease virus (MDV) strains were isolated during a 3 year period (2007-2010) from vaccinated and infected chicken flocks in Poland. These strains had caused severe clinical symptoms and lesions. In spite of proper vaccination with mono- or bivalent vaccines against Marek''s disease (MD), the chickens developed symptoms of MD with paralysis.Because of this we decided to investigate possible changes and mutations in the field strains that could potentially increase their virulence. We supposed that such mutations may have been caused by recombination with retroviruses of poultry - especially reticuloendotheliosis virus (REV).

Methods

In order to detect the possible reasons of recent changes in virulence of MDV strains, polymerase chain reaction (PCR) analyses for meq oncogene and for long-terminal repeat (LTR) region of REV were conducted. The obtained PCR products were sequenced and compared with other MDV and REV strains isolated worldwide and accessible in the GeneBank database.

Results

Sequencing of the meq oncogene showed a 68 basepair insertion and frame shift within 12 of 24 field strains. Interestingly, the analyses also showed 0.78, 0.8, 0.82, 1.6 kb and other random LTR-REV insertions into the MDV genome in 28 of 29 of strains. These genetic inserts were present after passage in chicken embryo kidney cells suggesting LTR integration into a non-functional region of the MDV genome.

Conclusion

The results indicate the presence of a recombination between MDV and REV under field conditions in Polish chicken farms. The genetic changes within the MDV genome may influence the virus replication and its features in vivo. However, there is no evidence that meq alteration and REV insertions are related to the strains'' virulence.     

Differential quantification of cloned CVI988 vaccine strain and virulent RB-1B strain of Marek’s disease viruses in chicken tissues, using real-time PCR

The ‘gold standard’ vaccine against Marek’s disease in poultry is the CVI988/Rispens virus, which is not easily distinguishable, antigenically or genetically, from virulent Marek’s disease herpesvirus. Accurate differential measurement of the CVI988 vaccine and virulent viruses is important to investigate mechanisms of vaccinal protection. Minimal sequence differences between CVI988 and virulent MDV strains restrict the application of molecular diagnostic methods such as real-time PCR to distinguish between these viruses. The use of bacterial-artificial-chromosome (BAC) cloned CVI988 virus, which carries the BAC vector sequences in place of the U_s2 gene, allows its differential quantification from virulent strains using real-time PCR assays that target the BAC vector sequence and the U_S2 gene respectively. These novel assays allowed investigation of replication of both serotype-1 vaccine virus (cloned CVI988) and challenge virus (RB-1B strain) in tissues of individual chickens in an experimental vaccination-challenge model of Marek’s disease.     

An enzyme-linked immunosorbent assay for coccidiosis in chickens: correlation of antibody levels with prior exposure to coccidia in the laboratory and in the field

An enzyme-linked immunosorbent assay was developed for detecting antibody to coccidia to facilitate the survey of laboratory and field infections. Serum antibody levels in chickens were measured against soluble Eimeria tenella oocyst antigen. Sera from breeders aged 10, 23, 37, and 43 weeks were positive with uniformly high antibody titers. Broiler chick sera showed high maternal antibody titer at hatch, decreasing to an almost negligible response at 3 weeks of age. Two-week-old broiler chicks had variable responses to a single infection of E. tenella: titers were elevated at 8 to 10 days postinfection and generally increased through day 24. Weekly reinfection of 2-week-old broiler chickens produced an antibody titer in proportion to the number of oocysts per dose and stimulated protection against challenge with 2 x 10(5) E. tenella. Inbred birds raised in a pathogen-free environment for 6 weeks had no detectable antibody titers.     

马立克氏病病毒肿瘤Meq基因缺失株的保护性免疫作用

马立克氏病病毒（MDV）的致病性一直在不断增强中,甚至已出现了能抵抗CV1988/Rispens疫苗的特超强株。本实验室用BAC克隆技术构建了MDV中国野毒株的Meq基因缺失株,显示出在抗马立克氏病方面具有与美国Meq基因缺失株同样有效的保护性免疫效果,而且其自身没有明显的免疫抑制作用。对美国和中国的两个MDV的Meg基因缺失株的优缺点做了比较。