The ribosome-associated complex regulates cytosolic translation upon mitoprotein-induced stress

The biogenesis of mitochondria relies on the import of newly synthesized precursor proteins from the cytosol. Tom70 is a mitochondrial surface receptor which recognizes precursors and serves as an interface between mitochondrial protein import and the cytosolic proteostasis network. Mitochondrial import defects trigger a complex stress response, in which compromised protein synthesis rates are a characteristic element. The molecular interplay that connects mitochondrial (dys)function to cytosolic translation rates in yeast cells is however poorly understood. Here, we show that the deletion of the two Tom70 paralogs of yeast ( TOM70 and TOM71 ) leads to defects in mitochondrial biogenesis and slow cell growth. Surprisingly, upon heat stress, the deletion of ZUO1 , a chaperone of the ribosome-associated complex (RAC), largely prevented the slow growth and the reduced translation rates in the tom70Δ/tom71Δ double deletion mutant. In contrast, the mitochondrial defects were not cured but even enhanced by ZUO1 deletion. Our study shows that Zuo1 is a critical component in the signaling pathway that mutes protein synthesis upon mitochondrial dysfunction. We propose a novel paradigm according to which RAC serves as a stress-controlled regulatory element of the cytosolic translation machinery.