| Popis: |
Engagement of host receptors is essential for viruses to enter target cells and initiate infection. Expression patterns of receptors in turn dictate host and tissue tropism and disease pathogenesis during infection. Mammalian orthoreovirus (reovirus) displays serotype-dependent patterns of tropism in the murine central nervous system (CNS) that are dictated by viral attachment protein σ1. However, the receptor that mediates reovirus CNS tropism is unknown. Two proteinaceous receptors have been identified for reovirus, junctional adhesion molecule-A (JAM-A) and Nogo 66 receptor 1 (NgR1). Engagement of JAM-A is required for reovirus hematogenous dissemination but is dispensable for neural spread. To determine whether NgR1 functions in reovirus neuropathogenesis, we compared virus replication and disease following inoculation of wild-type (WT) and NgR1-/- mice. Genetic ablation of NgR1 did not alter replication of neurotropic reovirus strain T3SA- in the intestine and transmission to the brain following peroral inoculation. Viral titers in neural tissues following intramuscular inoculation, which provides access to neural dissemination routes, also were comparable in WT and NgR1-/- mice, suggesting that NgR1 is dispensable for reovirus neural spread to the CNS. The absence of both NgR1 and JAM-A also did not alter replication, neural tropism, and virulence of T3SA- following direct intracranial inoculation. In agreement with these findings, we found that the human but not the murine homolog of NgR1 functions as a receptor and confers efficient reovirus binding and infection of nonsusceptible cells in vitro. These results eliminate functions for JAM-A and NgR1 in shaping CNS tropism in mice and suggest that other receptors, yet to be identified, support this function.IMPORTANCEThe CNS presents a range of barriers to pathogen invasion. Yet neurotropic viruses have evolved strategies to breach these barriers and establish infection by engagement of host factors that allow navigation to the CNS and neural cell entry. Human NgR1 was identified as a reovirus receptor in an RNA interference screen and is expressed in CNS neurons in a pattern overlapping with reovirus tropism. Using mice genetically lacking NgR1 expression, and following different routes of inoculation, we discovered that murine NgR1 is dispensable for reovirus dissemination to the CNS, tropism and replication in the brain, and resultant disease. Concordant with these results, expression of human but not murine NgR1 confers reovirus binding and infection of nonsusceptible cells in vitro. These results point to species-specific use of alternate receptors by reovirus. A detailed understanding of species- and tissue-specific factors that dictate viral tropism will inform development of interventions and targeted gene delivery and therapeutic viral vectors. |
