Significance
In recent years, proteomics has emerged as an indispensable tool to unveil the complex molecular events in virology. we firstly perform mitochondrial proteomic profiles of human cells infected with H3N2 subtype SIV to understand virus-host interactions, and 24 differentially expressed proteins in mitochondrial proteomes were identified in SIV-infected cells. The proteins that were identified to have differential expression were involved in cell-to-cell signaling and interaction, post-translational modification, cell morphology, cellular assembly, cell death, and energy production. Furthermore, Western blot analysis and a confocal assay further demonstrated that the cellular protein APOL2 partially co-localized with mitochondria after virus infection. This is a very important discovery in the underlying replication and pathogenesis of SIV which provides a potential target clue for the design of anti-SIV drugs. Our results will inspire basic study on SIV infection and drive the understanding for replication and pathogenesis of SIV to control this disease.