Abstract
In eukaryotic cells, there are two well characterized pathways that regulate translation initiation in response to stress, and each have been shown to be targeted by various viruses. We recently showed in a yeast-based model that the bacterial virulence factor YopJ disrupts one of these pathways, which is centered on the α-subunit of the translation factor eIF2. Here, we show in mammalian cells that induction of the eIF2 signaling pathway occurs following infection with bacterial pathogens and that, consistent with our yeast-based findings, YopJ reduces eIF2 signaling in response to endoplasmic reticulum stress, heavy metal toxicity, dsRNA, and bacterial infection. We demonstrate that the well documented activities of YopJ, inhibition of NF-κB activation and proinflammatory cytokine expression, are both dependent on an intact eIF2 signaling pathway. Unexpectedly, we found that cells with defective eIF2 signaling were more susceptible to bacterial invasion. This was true for pathogenic Yersinia, a facultative intracellular pathogen, as well as for the intracellular pathogens Listeria monocytogenes and Chlamydia trachomatis. Collectively, our data indicate that the highly conserved eIF2 signaling pathway, which is vitally important for antiviral responses, plays a variety of heretofore unrecognized roles in antibacterial responses.
Highlights
EIF2 is a critical point of stress-induced regulation of translation in eukaryotic cells
By performing a yeast-based mutagenesis screen for eukaryotic factors that are responsive to the bacterial virulence factor YpkA (Yersinia protein kinase A) [11], we discovered that eIF2 signaling is activated by the kinase activity of YpkA and that this response reduces the cellular toxicity of YpkA [12]
EIF2 Signaling in Yersinia-infected Cells—To determine whether eIF2 signaling is activated following exposure to a bacterial pathogen, the levels of phosphorylated eIF2␣ were evaluated in cultured murine macrophage-like cells infected with the bacterial pathogen Y. pseudotuberculosis
Summary
EIF2 is a critical point of stress-induced regulation of translation in eukaryotic cells. Like RAW 264.7 cells, wild-type MEFs exhibited both higher levels of eIF2␣ phosphorylation and Atf3 transcript levels in response to infection with Yersinia; this inductive expression did not occur in eIF2␣(S51A) MEFs (Fig. 1, C and D). To determine whether YopJ affects eIF2 signaling in mammalian cells, Atf3 expression was assayed in cells infected with either the yopJϩ or ⌬yopJ strain of Yersinia.
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