Abstract
Neuroinvasive herpesviruses have evolved to efficiently infect and establish latency in neurons. The nervous system has limited capability to regenerate, so immune responses therein are carefully regulated to be nondestructive, with dependence on atypical intrinsic and innate defenses. In this article we review studies of some of these noncanonical defense pathways and how herpesvirus gene products counter them, highlighting the contributions that primary neuronal in vitro models have made to our understanding of this field.
Keywords:
herpesviruses; innate immunity; intrinsic immunity; neuroimmunology; neurotropic viruses.
Copyright © 2016 American Society for Microbiology.
MeSH terms
-
Autophagy / genetics
-
Autophagy / immunology
-
Axonal Transport
-
Co-Repressor Proteins / genetics
-
Co-Repressor Proteins / immunology
-
Gene Silencing*
-
Herpesviridae / growth & development*
-
Herpesviridae / immunology
-
Histone Deacetylases / genetics
-
Histone Deacetylases / immunology
-
Histone Demethylases / genetics
-
Histone Demethylases / immunology
-
Humans
-
Immediate-Early Proteins / genetics
-
Immediate-Early Proteins / immunology
-
Immune Evasion*
-
Immunity, Innate
-
Interferons / genetics
-
Interferons / immunology
-
MicroRNAs / genetics
-
MicroRNAs / immunology
-
Nerve Tissue Proteins / genetics
-
Nerve Tissue Proteins / immunology
-
Neurons / immunology
-
Neurons / virology*
-
Signal Transduction
-
Ubiquitin-Protein Ligases / genetics
-
Ubiquitin-Protein Ligases / immunology
-
Virus Latency / immunology*
Substances
-
Co-Repressor Proteins
-
Immediate-Early Proteins
-
MIRN138 microRNA, human
-
MicroRNAs
-
Nerve Tissue Proteins
-
RCOR1 protein, human
-
Interferons
-
Histone Demethylases
-
KDM1A protein, human
-
Ubiquitin-Protein Ligases
-
Vmw110 protein, Human herpesvirus 1
-
Histone Deacetylases