Characterization of the Meq oncoproteins of Marek's disease virus vaccine strain CVI988/Rispens

Ajithdoss, Dharani K.

2009 May 1900

Marek?s disease virus serotype-1 (MDV-1) causes T cell lymphomas in chickens. Vaccines prepared from attenuated CVI988/Rispens MDV-1 strain currently offer the best protection. Although attenuated CVI988 is non-oncogenic, it codes for two forms of the MDV-1 oncoprotein Meq (CVI-Meq and CVI-L Meq). In this study, both CVI-Meq proteins, like the Meq protein of Md5 (a very virulent oncogenic strain), transformed Rat-2 and NIH3T3 cells. Both CVI-Meq and CVI-L Meq proteins activated the meq promoter only in the presence of chicken c-Jun (CK-Jun) whereas Md5-Meq activated the same promoter irrespective of CK-Jun co-expression. However, all three Meq proteins bound the meq promoter regardless of whether CK-Jun was co-expressed. We constructed three chimeric Meq proteins, namely, Md5-CVI-Meq, CVI-Md5-Meq, and Md5-CVI-L by exchanging domains between Md5 meq and CVI meq genes. Although these chimeric Meq proteins transactivated the meq promoter, the activation was significantly less than Md5-Meq. The current study indicated amino acid residues at positions 71 and 320 were important for Md5-Meq increase transcription of its own promoter. All three Meq proteins activated the MDV gB, MMP-3 and Bcl-2 promoters and suppressed transcription from the MDV pp38/pp14 bidirectional promoter. CVI-Meq protein in the context of other Md5 genes caused tumors only in 6% of chickens when compared to parental rMd5 (a very virulent strain), which induced lymphomas in 100% of chickens, (Reddy and Lupiani, unpublished data). Taking advantage of these two different phenotypes, we constructed two chimeric Meq proteins, Md5/CVI-Meq and CVI/Md5-Meq, by exchanging DNA binding and transactivation domains between Md5-Meq and CVI-Meq to understand the role of the DNA binding and the transactivation domains of Meq in transformation. rMd5-Md5/CVI-Meq virus caused 100% mortality in chickens and T lymphomas were found at high frequency in the peripheral nerves and various organs such as the heart, spleen, kidney, and gonads. On the other hand, rMd5-CVI/Md5-Meq induced disease in 36% of chickens on average and lesions were primarily in the nerves. Very rarely, lesions were present in the spleen and heart and no tumors were present in the kidney or gonads. Our results suggest that both the DNA binding domain and transactivation domain of Meq could cooperatively determine the nature of lymphomas in chickens.

Chickens

lymphoma

Marek's disease virus

CVI988

Meq

transformation

transactivation

Functional analysis of Meq, a Marek's disease virus (MDV)bZIP protein associated with T cell transformation

Qian, Zheng

January 1996

No description available.

Biology, Molecular

Meq

Marek's disease virus(MDV)

T cell transformation

Etude de la dissémination de cellule à cellule du virus de la maladie de marek : Rôle des contacts cellulaires, du cytosquelette d'actine et des RhoGTPases / Study of Marek's disease virus cell-to-cell spread : role of cell contacts, actin cytoskeleton and RhoGTPases

Richerioux, Nicolas

01 June 2012

Le virus de la maladie de Marek (MDV) est un α-herpèsvirus aviaire responsable de lymphomes chez la poule. En absence de virions libres détectables en culture cellulaire, il est couramment admis que ce virus se dissémine uniquement de cellule à cellule par un mécanisme non identifié à ce jour. Mon travail de thèse comprenait 3 parties. La première avait pour objectif d’étudier la contribution des contacts cellulaires et de possibles virions extracellulaires dans la dissémination de MDV. La seconde partie visait à étudier le rôle du cytosquelette d’actine dans la dissémination intercellulaire du MDV et l’implication des voies de signalisation des RhoGTPases. J’ai montré que l’activité de la voie Rho-ROCK favorise la dissémination du MDV au contraire de la voie Rac-PAK. Un possible lien entre la dissémination du MDV et les jonctions adhérentes, maintenues par l’activité de la voie Rho-ROCK, est discuté. Enfin, la troisième partie avait pour but le développement d’un nouveau test de dissémination entre cellules sur un cycle viral unique. Pour cela, j’ai construit un virus MDV rapporteur inductible et des lignées cellulaires aviaires exprimant une flippase. / Marek’s disease virus (MDV) is an avian α-herpesvirus which is responsible for lymphomas in chicken. In absence of detectable cell-free virions in cell culture, it is well admit that this virus only spread from cell-to-cell. The involved mechanisms remain unknown. My thesis work was divided in three parts. The objectives of the first one were to study the contribution of cell contacts and of potential extracellular infectious virions on MDV spread. The second part aimed at studying the role of the actin cytoskeleton in MDV intercellular spread and the involvement of RhoGTPase signaling pathways. I showed that the Rho-ROCK signaling pathway promotes the dissemination in contrast to the Rac-PAK signaling pathway. A possible link between MDV spread and adherens junctions, maintained by Rho-ROCK signaling, is discussed. The third and last part had the purpose to develop a new assay of MDV spread between cells on a single viral cycle. For this, I built an inducible reporter MDV virus and avian cell lines expressing a flippase.

Herpèsvirus

Virus de la maladie deMarek

Dissémination virale

Cytosquelette d'actine

RhoGTPases

Herpesvirus

Marek's disease virus

Viral dissemination

Actin cytoskeleton

RhoGTPases