Lysosomal damage drives mitochondrial proteome remodelling and reprograms macrophage immunometabolism

Summary Transient lysosomal damage after infection with cytosolic pathogens or silica crystals uptake results in protease leakage. Whether limited leakage of lysosomal contents into the cytosol affects the function of cytoplasmic organelles is unknown. Here, we show that sterile and non-sterile lysosomal damage triggers a cell death independent proteolytic remodelling of the mitochondrial proteome in macrophages. Mitochondrial metabolic reprogramming required lysosomal leakage of Cathepsin B and Cathepsin L and was independent of proteasome degradation and mitophagy. In a mouse model of endomembrane damage, metabolic analysis confirmed that in vivo, live lung macrophages that internalised crystals displayed impaired mitochondrial function and increased glycolytic and lipid metabolism. Single-cell RNA-sequencing analysis of bronchoalveolar lavage revealed that lysosomal damage skewed metabolic and immune responses primarily in CD36 + /LIPA + and Krt79 + /Car4 + subsets of alveolar macrophages. Importantly, modulation of macrophage metabolism with 2-Deoxy- d- glucose and oxamate impacted the host response to Mycobacterium tuberculosis (Mtb) infection in an endomembrane damage dependent manner. This work uncovers a new inter-organelle communication pathway, providing a general mechanism by which macrophages undergo mitochondrial metabolic reprograming after endomembrane damage.