Branka Mrkic scite author profile

Measles viruses (MV) can be isolated from the brains of deceased subacute sclerosing panencephalitis patients only in a cell-associated form. These viruses are often defective in the matrix (M) protein and always seem to have an altered fusion protein cytoplasmic tail. We reconstituted a cell-free, infectious M-less MV (MV-ΔM) from cDNA. In comparison with standard MV, MV-ΔM was considerably more efficient at inducing cell-to-cell fusion but virus titres were reduced~250-fold. In MV-ΔM-induced syncytia the ribonucleocapsids and glycoproteins largely lost co-localization, confirming the role of M protein as the virus assembly organizer. Genetically modified mice were inoculated with MV-ΔM or with another highly fusogenic virus bearing glycoproteins with shortened cytoplasmic tails (MV-Δ tails ). MV-ΔM and MV-Δ tails lost acute pathogenicity but penetrated more deeply into the brain parenchyma than standard MV. We suggest that enhanced cell fusion may also favour the propagation of mutated, assembly-defective MV in human brains.

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Measles Virus Spread and Pathogenesis in Genetically Modified Mice

Mrkic

Pavlovic²,

Rülicke³

et al. 1998

J Virol

265

153

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Attenuated Edmonston measles virus (MV-Edm) is not pathogenic in standard mice. We show here that MV-Edm inoculated via the natural respiratory route has a limited propagation in the lungs of mice with a targeted mutation inactivating the alpha/beta interferon receptor. A high dose of MV-Edm administered intracerebrally is lethal for about half of these mice. To study the consequences of the availability of a high-affinity receptor for MV propagation, we generated alpha/beta interferon-defective mice expressing human CD46 with human-like tissue specificity. Intranasal infection of these mice with MV-Edm resulted in enhanced spread to the lungs and more prominent inflammatory response. Virus replication was also detected in peripheral blood mononuclear cells, the spleen, and the liver. Moreover, intracerebral inoculation of adult animals with low MV-Edm doses caused encephalitis with almost inevitably lethal outcome. We conclude that in mice alpha/beta interferon controls MV infection and that a high-affinity receptor facilitates, but is not strictly required for, MV spread and pathogenesis.

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Lymphatic Dissemination and Comparative Pathology of Recombinant Measles Viruses in Genetically Modified Mice

Mrkic

Odermatt

Klein³

et al. 2000

J Virol

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The dissemination of the Edmonston measles virus (Ed-MV) vaccine strain was studied with genetically modified mice defective for the alpha/beta interferon receptor and expressing human CD46 with human-like tissue specificity and efficiency. A few days after intranasal infection, macrophages expressing Ed-MV RNA were detected in the lungs, in draining lymph nodes, and in the thymus. In lymph nodes, large syncytia which stained positive for viral RNA and for macrophage surface marker proteins were found and apoptotic cell death was monitored. In the thymus, smaller syncytia which stained positive for macrophage and dendritic cell markers were detected. Thus, macrophages appear to be the main vectors for dissemination of MV infection in these mice; human macrophages may have a similar function in the natural host. We then compared the pathogenicities of two recombinant viruses lacking the C or V nonstructural proteins to that of the parental strain, Ed-MV. These viruses were less effective in spreading through the lymphatic system and, unlike Ed-MV, were not detected in the liver. After intracerebral inoculation the recombinant viruses caused lethal disease less often than Ed-MV and induced distinctive patterns of gliosis and inflammation. Ed-MV was reisolated from brain tissue, but its derivatives were not. C-and V-defective viruses should be considered as more-attenuated MV vaccine candidates.

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Recombinant measles virus requiring an exogenous protease for activation of infectivity

Maisner

Mrkic

Herrler

et al. 2000

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Branka Mrkic

A matrix-less measles virus is infectious and elicits extensive cell fusion: consequences for propagation in the brain

Measles Virus Spread and Pathogenesis in Genetically Modified Mice

Lymphatic Dissemination and Comparative Pathology of Recombinant Measles Viruses in Genetically Modified Mice

Recombinant measles virus requiring an exogenous protease for activation of infectivity

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