Eugène Musset scite author profile

In this study the functional effectiveness of in vivo macrophage depletion using liposome-encapsulated dichloromethylene bisphosphonate (Cl(2)MBP) was examined in the chicken. The main target organs for systemic liposome-encapsulated Cl(2)MBP treatment are the spleen and the liver. Intravenous treatment with Cl(2)MBP of B(21)/B(21) chickens, genetically resistant to Marek's disease (MD), before challenge with the very virulent strain RB-1B, increased viral load in the blood and spleen after the first week and up to 6 weeks post-infection. In addition, Cl(2)MBP treatment dramatically increased tumour incidence and tumour load, especially in the spleens and livers of sick animals, but without affecting MD-specific mortality of B(21)/B(21) chickens infected with RB-1B at 12 days of age. Nitric oxide (NO) is an important effector of the macrophage and has antiviral and antitumoural properties. NO has been shown to be one of the mechanisms triggered in resistance to Marek's disease. Intravenous treatment with Cl(2)MBP before infection with RB-1B induced a long-lasting decrease in numbers of macrophages and reduction in splenic inducible NO production associated with an absence of nitrate induction in the serum (up to 6 weeks p.i.). These results do not identify macrophage and NO production as major effector components in genetic resistance to Marek's disease, but underline their roles in limiting viraemia and tumour development in organs such as the spleen and the liver.

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Protective Effect of Avian Myelomonocytic Growth Factor in Infection with Marek’s Disease Virus

Djeraba¹,

Musset²,

Lowenthal

et al. 2002

J Virol

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Marek's disease virus (MDV) is a herpesvirus that induces T lymphomas in chickens.The aim of this study was to assess the role of the macrophage activator chicken myelomonocytic growth factor (cMGF) in controlling MDV infection. B13/B13 chickens, which are highly susceptible to MD, were either treated with cMGF delivered via a live fowlpox virus (fp/cMGF) or treated with the parent vector (fp/M3) or were left as untreated controls. Seven days later, when challenged with the very virulent RB-1B strain of MDV, the spleens of chickens treated with fp/cMGF showed increased expression of the inducible nitric oxide synthase (iNOS) gene compared to those of control chickens and fp/M3-treated chickens. Increased iNOS gene expression was also accompanied by greater induction of gamma interferon and macrophage inflammatory protein (K203) gene expression, both possible activators of iNOS. fp/cMGF treatment also increased the number of monocytes and systemic NO production in contrast to fp/M3 treatment. Even though cMGF treatment was unable to prevent death for the chickens, it did prolong their survival time, and viremia and tumor incidence were greatly reduced. In addition, cMGF treatment improved the partial protection induced by vaccination with HVT (herpesvirus isolated from turkeys) against RB-1B, preventing 100% mortality (versus 66% with vaccination alone) and greatly reducing tumor development. Treatment with fp/M3 did not have such effects. These results suggest that cMGF may play multiple roles in protection against MD. First, it may enhance the innate immune response by increasing the number and activity of monocytes and macrophages, resulting in increased NO production. Second, it may enhance the acquired immune response, indicated by its ability to enhance vaccine efficacy.

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Intravenous treatment with liposome-encapsulated dichloromethylene bisphosphonate (Cl 2 MBP) suppresses nitric oxide production and reduces genetic resistance to Marek's disease

Rivas¹,

Djeraba²,

Musset³

et al. 2003

Avian Pathology

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Eugène Musset

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

Resistance and susceptibility to Marek’s disease: nitric oxide synthase/arginase activity balance

Intravenous treatment with liposome-encapsulated dichloromethylene bisphosphonate (C12MBP)suppresses nitric oxide production and reduces genetic resistance to Marek's disease

Protective Effect of Avian Myelomonocytic Growth Factor in Infection with Marek’s Disease Virus

Intravenous treatment with liposome-encapsulated dichloromethylene bisphosphonate (Cl 2 MBP) suppresses nitric oxide production and reduces genetic resistance to Marek's disease

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