Activation of the mitochondrial unfolded protein response regulates the formation of stress granules

To rapidly adapt to harmful changes to their environment, cells activate the integrated stress response (ISR). This results in an adaptive transcriptional and translational rewiring, and the formation of biomolecular condensates named stress granules (SGs), to resolve stress. In addition to this first line of defence, the mitochondrial unfolded protein response (UPR^mt) activates a specific transcriptional programme to maintain mitochondrial homeostasis. We present evidence that SGs and UPR^mtpathways are intertwined and communicate. UPR^mtinduction results in eIF2α phosphorylation and the initial and transient formation of SGs, which subsequently disassemble. The induction of GADD34 during late UPR^mtprotects cells from prolonged stress by impairing further assembly of SGs. Furthermore, mitochondrial functions and cellular survival are enhanced during UPR^mtactivation when SGs are absent, suggesting that UPR^mt-induced SGs have an adverse effect on mitochondrial homeostasis. These findings point to a novel crosstalk between SGs and the UPR^mtthat may contribute to restoring mitochondrial functions under stressful conditions.