Abstract
Autophagy is a powerful host defense that restricts herpes simplex virus-1 (HSV-1) pathogenesis in neurons. As a countermeasure, the viral ICP34.5 polypeptide, which is exclusively encoded by HSV, antagonizes autophagy in part through binding Beclin1. However, whether autophagy is a cell-type-specific antiviral defense or broadly restricts HSV-1 reproduction in nonneuronal cells is unknown. Here, we establish that autophagy limits HSV-1 productive growth in nonneuronal cells and is repressed by the Us3 gene product. Phosphorylation of the autophagy regulators ULK1 and Beclin1 in virus-infected cells was dependent upon the HSV-1 Us3 Ser/Thr kinase. Furthermore, Beclin1 was unexpectedly identified as a direct Us3 kinase substrate. Although disabling autophagy did not impact replication of an ICP34.5-deficient virus in primary human fibroblasts, depleting Beclin1 and ULK1 partially rescued Us3-deficient HSV-1 replication. This shows that autophagy restricts HSV-1 reproduction in a cell-intrinsic manner in nonneuronal cells and is suppressed by multiple, independent viral functions targeting Beclin1 and ULK1. Moreover, it defines a surprising role regulating autophagy for the Us3 kinase, which unlike ICP34.5 is widely encoded by alpha-herpesvirus subfamily members.
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