These authors contributed equally to this work.Keywords: AKT-MTOR pathway, autophagy, avibirnavirus, HSP90AA1, viral protein VP2Abbreviations: ANOVA, analysis of variance; ATG5, autophagy-related 5; BCA, bicinchoninic acid; BECN1, Beclin 1, autophagyrelated; cDNA, complementary DNA; CoIP, coimmunoprecipitation; DMEM, Dulbecco's modified Eagle's medium; dsRNA, double-stranded RNA; EBSS, Earle's balanced salt solution; EIF2AK2, eukaryotic translation initiation factor 2-alpha kinase 2; EIF2S1, eukaryotic translation initiation factor 2, subunit 1 alpha; eGFP, enhanced green fluorescent protein; ER, endoplasmic reticulum; Gg, Gallus gallus (chicken); GAPDH, glyceraldehyde-3-phosphate dehydrogenase; GOPC, golgi-associated PDZ and coiled-coil motif containing; GST, glutathione S-transferase; HE-IBDV, heat-inactivated IBDV; hpi, hours post-infection; Hs, Homo sapiens (human); HSP90AA1, heat shock protein 90 kDa alpha (cytosolic), class A member 1; HSV-1, herpes simplex virus 1; IBDV, infectious bursal disease virus; IgG, immunoglobulin G; LPS, lipopolysaccharide; mAb, monoclonal antibody; MAP1LC3/LC3, microtubule-associated protein 1 light chain 3; MOI, multiplicity of infection; MTOR, mechanistic target of rapamycin (serine/threonine kinase); Ni-NTA, nickel-nitrilotriacetic acid; PAMP, pathogen-associated molecular patterns; PBS, phosphate-buffered saline; PI3K, phosphoinositide 3-kinase; PRR, pattern recognition receptors; RNAi, RNA interference; SDS, sodium dodecyl sulfate; siRNA, small interfering RNA; shRNA, short hairpin RNA; SQSTM1, sequestosome 1; TCID 50 , 50% tissue culture infectious doses; TLR, tolllike receptors; TSC, tuberous sclerosis complex; VP, viral protein; SVP, subviral particle.Autophagy is an essential component of host innate and adaptive immunity. Viruses have developed diverse strategies for evading or utilizing autophagy for survival. The response of the autophagy pathways to virus invasion is poorly documented. Here, we report on the induction of autophagy initiated by the pathogen receptor HSP90AA1 (heat shock protein 90 kDa a [cytosolic], class A member 1) via the AKT-MTOR (mechanistic target of rapamycin)-dependent pathway. Transmission electron microscopy and confocal microscopy revealed that intracellular autolysosomes packaged avibirnavirus particles. Autophagy detection showed that early avibirnavirus infection not only increased the amount of light chain 3 (LC3)-II, but also upregulated AKT-MTOR dephosphorylation. HSP90AA1-AKT-MTOR knockdown by RNA interference resulted in inhibition of autophagy during avibirnavirus infection. Virus titer assays further verified that autophagy inhibition, but not induction, enhanced avibirnavirus replication. Subsequently, we found that HSP90AA1 binding to the viral protein VP2 resulted in induction of autophagy and AKT-MTOR pathway inactivation. Collectively, our findings suggest that the cell surface protein HSP90AA1, an avibirnavirus-binding receptor, induces autophagy through the HSP90AA1-AKT-MTOR pathway in early infection. We reveal that upon...
Infectious bursal disease virus (IBDV) enters the host cells via endocytic pathway to achieve viral replication in the cytoplasm. Here, we performed LC-MS/MS coupled with isobaric tags for relative and absolute quantification labeling of differentially abundant proteins of IBDV-infected cells using a subcellular fractionation strategy. We show that the viral infection regulates the abundance and/or subcellular localization of 3211 proteins during early infection. In total, 23 cellular proteins in the cytoplasmic proteome and 34 in the nuclear proteome were significantly altered after virus infection. These differentially abundant proteins are involved in such biological processes as immune response, signal transduction, RNA processing, macromolecular biosynthesis, energy metabolism, virus binding, and cellular apoptosis. Moreover, transcriptional profiles of the 25 genes corresponding to the identified proteins were analyzed by quantitative real-time RT-PCR. Ingenuity Pathway Analysis clustered the differentially abundant proteins primarily into the mTOR pathway, PI3K/Akt pathway, and interferon-β signaling cascades. Confocal microscopy showed colocalization of the viral protein VP3 with host proteins heterogeneous nuclear ribonucleoprotein H1, nuclear factor 45, apoptosis inhibitor 5, nuclear protein localization protein 4 and DEAD-box RNA helicase 42 during the virus infection. Together, these identified subcellular constituents provide important information for understanding host-IBDV interactions and underlying mechanisms of IBDV infection and pathogenesis.
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