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STAT1-independent control of a neurotropic measles virus challenge in primary neurons and infected mice. | LitMetric

AI Article Synopsis

  • Neurons are mostly nonrenewable, which means immune strategies that clear viral infections can cause long-term effects on brain health.
  • IFN-γ is an important antiviral molecule that helps fight off several viral infections, including measles virus, but its mechanisms in neurons are not well understood.
  • Research shows that even without the typical STAT1 activation seen in other cell types, IFN-γ can still control viral infections in neurons, indicating it uses different pathways to do so.

Article Abstract

Neurons are chiefly nonrenewable; thus, cytolytic immune strategies to clear or control neurotropic viral infections could have lasting neurologic consequences. IFN-γ is a potent antiviral cytokine that is critical for noncytolytic clearance of multiple neurotropic viral infections, including measles virus (MV); however, the downstream pathways through which IFN-γ functions in neurons have not been defined. Unlike most cell types studied to date in which IFN-γ affects gene expression via rapid and robust activation of STAT1, basal STAT1 levels in primary hippocampal neurons are constitutively low, resulting in attenuated STAT1 activation and consequently slower kinetics of IFN-γ-driven STAT1-dependent gene expression. Given this altered expression and activation of STAT1 in neurons, we sought to determine whether STAT1 was required for IFN-γ-mediated protection from infection in neurons. To do so, we evaluated the consequences of MV challenge of STAT1-deficient mice and primary hippocampal neurons explanted from these mice. Surprisingly, the absence of STAT1 did not restrict the ability of IFN-γ to control viral infection either in vivo or ex vivo. Moreover, the canonical IFN-γ-triggered STAT1 gene expression profile was not induced in STAT1-deficient neurons, suggesting that IFN-γ regulates neuronal STAT1-independent pathways to control viral replication.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3273675PMC
http://dx.doi.org/10.4049/jimmunol.1101356DOI Listing

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