Norman W. Marten scite author profile

Neutrophils are the first infiltrating cell population to appear within the CNS during infection with the neurotropic JHM strain of mouse hepatitis virus (JHMV). To determine whether neutrophils play a role in limiting acute JHMV infection, mice were depleted of neutrophils. Infection of neutropenic animals resulted in increased levels of virus replication and mortality compared with control mice. Furthermore, neutropenia resulted in significantly reduced mononuclear leukocyte infiltration possibly due to reduced loss of blood brain barrier integrity during acute JHMV infection. These data suggest that infiltrating neutrophils are crucial for limiting virus replication during acute JHMV infection, contribute to the loss of blood brain barrier integrity and play a role in shaping adaptive immunity within the CNS.

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MHV Infection of the CNS: Mechanisms of Immune-Mediated Control

Marten

2001

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Mice infected with neurotropic strains of mouse hepatitis virus (MHV) clear infectious virus; nevertheless, viral persistence in the central nervous system (CNS) is associated with ongoing primary demyelination. Acute infection induces a potent regional CD8+ T-cell response. The high prevalence of virus specific T cells correlates with ex vivo cytolytic activity, interferon-gamma (IFN-gamma) secretion and efficient reduction in virus. Viral clearance from most cell types is controlled by a perforin dependent mechanism. However, IFN-gamma is essential for controlling virus replication in oligodendrocytes. Furthermore, CD4+ T cells enhance CD8+ T-cell survival and effectiveness. Clearance of infectious virus is associated with a gradual decline of CNS T cells; nevertheless, activated T cells are retained within the CNS. The loss of cytolytic activity, but retention of IFN-gamma secretion during viral clearance suggests stringent regulation of CD8+ T-cell effector function, possibly as a means to minimize CNS damage. However, similar CD8+ T-cell responses to demyelinating and non demyelinating JHMV variants support the notion that CD8+ T cells do not contribute to the demyelinating process. Although T-cell retention is tightly linked to the presence of persisting virus, contributions to regulating the latent state are unknown. Studies in B-cell-deficient mice suggest that antibodies are required to prevent virus recrudescence. Although acute JHMV infection is thus primarily controlled by CD8+ T cells, both CD4+ T cells and B cells make significant contributions in maintaining the balance between viral replication and immune control, thus allowing host and pathogen survival.

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Role of Viral Persistence in Retaining CD8⁺T Cells within the Central Nervous System

Marten¹,

Stohlman

Bergmann

2000

J Virol

124

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The continued presence of virus-specific CD8؉ T cells within the central nervous system (CNS) following resolution of acute viral encephalomyelitis implicates organ-specific retention. The role of viral persistence in locally maintaining T cells was investigated by infecting mice with either a demyelinating, paralytic (V-1) or nonpathogenic (V-2) variant of a neurotropic mouse hepatitis virus, which differ in the ability to persist within the CNS. Class I tetramer technology revealed more infiltrating virus-specific CD8 ؉ T cells during acute V-1 compared to V-2 infection. However, both total and virus-specific CD8 ؉ T cells accumulated at similar peak levels in spinal cords by day 10 postinfection (p.i.). Decreasing viral RNA levels in both brains and spinal cords following initial virus clearance coincided with an overall progressive loss of both total and virus-specific CD8

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Kinetics of Virus-Specific CD8⁺-T-Cell Expansion and Trafficking following Central Nervous System Infection

Marten¹,

Stohlman

Zhou³

et al. 2003

J Virol

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CD8؉ T cells control acute infection of the central nervous system (CNS) by neurotropic mouse hepatitis virus but do not suffice to achieve sterile immunity. To determine the lag between T-cell priming and optimal activity within the CNS, the accumulation of virus-specific CD8 ؉ T cells in the CNS relative to that in peripheral lymphoid organs was assessed by using gamma interferon-specific ELISPOT assays and class I tetramer staining. Virus-specific CD8 ؉ T cells were first detected in the cervical lymph nodes. Expansion in the spleen was delayed and less pronounced but also preceded accumulation in the CNS. The data further suggest peripheral acquisition of cytolytic function, thus enhancing CD8؉ -T-cell effector function upon cognate antigen recognition in the CNS.

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Contributions of CD8+ T Cells and Viral Spread to Demyelinating Disease

Marten

Stohlman

Atkinson

et al. 2000

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Acute and chronic demyelination are hallmarks of CNS infection by the neurotropic JHM strain of mouse hepatitis virus. Although infectious virus is cleared by CD8+ T cells, both viral RNA and activated CD8+ T cells remain in the CNS during persistence potentially contributing to pathology. To dissociate immune from virus-mediated determinants initiating and maintaining demyelinating disease, mice were infected with two attenuated viral variants differing in a hypervariable region of the spike protein. Despite similar viral replication and tropism, one infection was marked by extensive demyelination and paralysis, whereas the other resulted in no clinical symptoms and minimal neuropathology. Mononuclear cells from either infected brain exhibited virus specific ex vivo cytolytic activity, which was rapidly lost during viral clearance. As revealed by class I tetramer technology the paralytic variant was superior in inducing specific CD8+ T cells during the acute disease. However, after infectious virus was cleared, twice as many virus-specific IFN-γ-secreting CD8+ T cells were recovered from the brains of asymptomatic mice compared with mice undergoing demyelination, suggesting that IFN-γ ameliorates rather than perpetuates JHM strain of mouse hepatitis virus-induced demyelination. The present data thus indicate that in immunocompetent mice, effector CD8+ T cells control infection without mediating either clinical disease or demyelination. In contrast, demyelination correlated with early and sustained infection of the spinal cord. Rapid viral spread, attributed to determinants within the spike protein and possibly perpetuated by suboptimal CD8+ T cell effector function, thus ultimately leads to the process of immune-mediated demyelination.

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Norman W. Marten

Neutrophils Promote Mononuclear Cell Infiltration During Viral-Induced Encephalitis

MHV Infection of the CNS: Mechanisms of Immune-Mediated Control

Role of Viral Persistence in Retaining CD8⁺T Cells within the Central Nervous System

Kinetics of Virus-Specific CD8⁺-T-Cell Expansion and Trafficking following Central Nervous System Infection

Contributions of CD8+ T Cells and Viral Spread to Demyelinating Disease

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Norman W. Marten

Neutrophils Promote Mononuclear Cell Infiltration During Viral-Induced Encephalitis

MHV Infection of the CNS: Mechanisms of Immune-Mediated Control

Role of Viral Persistence in Retaining CD8+T Cells within the Central Nervous System

Kinetics of Virus-Specific CD8+-T-Cell Expansion and Trafficking following Central Nervous System Infection

Contributions of CD8+ T Cells and Viral Spread to Demyelinating Disease

Contact Info

Product

Resources

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Role of Viral Persistence in Retaining CD8⁺T Cells within the Central Nervous System

Kinetics of Virus-Specific CD8⁺-T-Cell Expansion and Trafficking following Central Nervous System Infection