R.Y. Looi scite author profile

Hendra virus (HeV) and Nipah virus (NiV) are recently-emerged, closely related and highly pathogenic paramyxoviruses. We have analysed here the pathogenesis of the acute HeV infection using the new animal model, golden hamster (Mesocricetus auratus), which is highly susceptible to HeV infection. HeV-specific RNA and viral antigens were found in multiple organs and virus was isolated from different tissues. Dual pathogenic mechanism was observed: parenchymal infection in various organs, including the brain, with vasculitis and multinucleated syncytia in many blood vessels. Furthermore, monoclonal antibodies specific for the NiV fusion protein neutralized HeV in vitro and efficiently protected hamsters from HeV if given before infection. These results reveal the similarities between HeV and NiV pathogenesis, particularly in affecting both respiratory and neuronal system. They demonstrate that hamster presents a convenient novel animal model to study HeV infection, opening new perspectives to evaluate vaccine and therapeutic approaches against this emergent infectious disease.

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Nonstructural Nipah Virus C Protein Regulates both the Early Host Proinflammatory Response and Viral Virulence

Mathieu

Guillaume

Volchkova

et al. 2012

J Virol

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Nipah virus (NiV) is a highly pathogenic, negative-strand RNA paramyxovirus that has recently emerged from flying foxes to cause serious human disease. We have analyzed the role of the nonstructural NiV C protein in viral immunopathogenesis using recombinant virus lacking the expression of NiV C (NiVΔC). While wild-type NiV was highly pathogenic in the hamster animal model, NiVΔC was strongly attenuated. Replication of NiVΔC was followed by the production of NiV-specific antibodies and associated with higher recruitment of inflammatory cells and less intensive histopathological lesions in different organs than in wild-type-NiV-infected animals. To analyze the molecular basis of NiVΔC attenuation, we studied early changes in gene expression in infected primary human endothelial cells, a major cellular target of NiV infection. The transcriptomic approach revealed the striking difference between wild-type and mutant NiV in the expression of genes involved in immunity, with the particularly interesting differential patterns of proinflammatory cytokines. Compared to wild-type virus, NiVΔC induced increased expression of interleukin 1 beta (IL-1β), IL-8, CXCL2, CXCL3, CXCL6, CCL20, and beta interferon. Furthermore, the expression of NiV C in stably transfected cells decreased the production of the same panel of cytokines, revealing a role of the C protein in the regulation of cytokine balance. Together, these results suggest that NiV C regulates expression of proinflammatory cytokines, therefore providing a signal responsible for the coordination of leukocyte recruitment and the chemokine-induced immune response and controlling the lethal outcome of the infection.

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Experimental Infection of Squirrel Monkeys with Nipah Virus

Marianneau¹,

Guillaume²,

Wong³

et al. 2010

Emerg. Infect. Dis.

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P1.31 Genetic mutations in sarcoglycanopathies in a Malaysian population

Looi

Thong

Goh

et al. 2010

Neuromuscular Disorders

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P1.21 Genetic mutations in dysferlinopathy in a Malaysian population

Looi¹,

Goh²,

Shahrizaila³

et al. 2010

Neuromuscular Disorders

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R.Y. Looi

Acute Hendra virus infection: Analysis of the pathogenesis and passive antibody protection in the hamster model

Nonstructural Nipah Virus C Protein Regulates both the Early Host Proinflammatory Response and Viral Virulence

Experimental Infection of Squirrel Monkeys with Nipah Virus

P1.31 Genetic mutations in sarcoglycanopathies in a Malaysian population

P1.21 Genetic mutations in dysferlinopathy in a Malaysian population

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