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The Influenza A Virus PB1-F2 Protein Targets the Inner Mitochondrial Membrane via a Predicted Basic Amphipathic Helix That Disrupts Mitochondrial Func

James S. Gibbs, Daniela Malide, Felicita Hornung, Jack R. Bennink, and Jonathan W. Yewdell
12/30/2014
The 11th influenza A virus gene product is an 87-amino-acid protein provisionally named PB1-F2 (because it is encoded by an open reading frame overlapping the PB1 open reading frame). A significant fraction of PB1-F2 localizes to the inner mitochondrial membrane in influenza A virus-infected cells. PB1-F2 appears to enhance virus-induced cell death in a cell type-dependent manner. For the present communication we have identified and characterized a region near the COOH terminus of PB1-F2 that is necessary and sufficient for its inner mitochondrial membrane localization, as determined by transient expression of chimeric proteins consisting of elements of PB1-F2 genetically fused to enhanced green fluorescent protein (EGFP) in HeLa cells. Targeting of EGFP to mitochondria by this sequence resulted in the loss of the inner mitochondrial membrane potential, leading to cell death. The mitochondrial targeting sequence (MTS) is predicted to form a positively charged amphipathic -helix and, as such, is similar to the MTS of the p13II protein of human T-cell leukemia virus type 1. We formally demonstrate the functional interchangeability of the two sequences for mitochondrial localization of PB1-F2. Mutation analysis of the putative amphipathic helix in the PB1-F2 reveals that replacement of five basic amino acids with Ala abolishes mitochondrial targeting, whereas mutation of two highly conserved Leu to Ala does not. These findings demonstrate that PB1-F2 possesses an MTS similar to other viral proteins and that this MTS, when fused to EGFP, is capable of independently compromising mitochondrial function and cellular viability.