Mitochondria acidify lysosomes through membrane contacts

The acidic environment within the lysosome lumen is essential for its digestive function. However, the source of protons responsible for acidification has remained elusive. Here, using a molecular probe to monitor lysosomal digestion, we discovered enhanced lysosome content degradation at mitochondria-lysosome contact (MLC) sites, which was caused by lysosomal acidification. Using a mitochondrial probe, we observed a proton flux from mitochondria to lysosomes at these MLC sites. Furthermore, we found that physically bringing mitochondria and lysosomes into close proximity can increase lysosome acidification to enhance content digestion under disease conditions. These findings unveil a crucial physiological role of MLCs in cellular functions.