HTRA3 protease-chaperone stabilizes cathepsin B for mitochondrial POLG1 depletion in human cell ageing

The maintenance of mitochondrial proteins homeostasis, which is essential for proper cell function, is affected in pathophysiological ageing, yet several underlying mechanisms remain unexplored. We show that in normal and accelerated ageing cells, POLG1, the enzyme responsible for mitochondrial DNA replication, is degraded by the protease cathepsin B, which is overexpressed, escapes from lysosomes, and is stabilized by the chaperone activity of another protease, HTRA3. This degradation is in part counteracted by RAC1, a small GTPase also stabilized by HTRA3. POLG1 depletion, that occurs in progeroid Cockayne syndrome and senescent cells, is linked respectively to impairment or downregulation of the CSB protein, which promote cellular senescence. Our experiments in engineered cells, demonstrate that senescence itself, and not the absence of CSB, triggers the accumulation of cathepsin B and HTRA3, leading to POLG1 degradation. In summary, we uncover a complex, multi-step process that controls the degradation of POLG1 in mitochondria, a process that is activated by cell senescence and becomes more pronounced in Cockayne syndrome cells, providing new insight in the regulation of mitochondrial proteostasis in ageing and progeroid disorders.