CASM regulates p62/KEAP1/NRF2 antioxidant responses to lysosome damage
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Effective lysosome function is essential for health, and declines with ageing and disease. Upon lysosome damage, cells mount a complex stress response to restore homeostasis. Membrane ATG8ylation plays a central role, orchestrating lysosome repair, replacement and removal, either directly at the damaged membrane, via CASM ( c onjugation of A TG8s to s ingle m embranes), or at nascent autophagosomes, during lysophagy. Here, we identify a novel role for CASM in driving an antioxidant response to lysosome stress. Following damage, CASM regulates both lysosome ubiquitination and p62 recruitment. Membrane-associated p62 undergoes S349-phosphorylation, which permits KEAP1 sequestration, thereby releasing master transcription factor, NRF2. Liberated NRF2 translocates to the nucleus and promotes transcription of antioxidant and detoxifying genes, co-ordinating a cytoprotective response, in a CASM-dependent manner. These findings position CASM as a major upstream response to lysosome stress and uncover the p62/KEAP1/NRF2 axis as a novel effector pathway, termed SOLAR (SQSTM1/p62 Oligomer-mediated lysosome antioxidant response).
Highlights
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CASM recruits p62/SQSTM1 as an effector protein during lysosome damage
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CASM acts upstream to enhance ubiquitination of damaged lysosomes
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CASM-recruited p62 engages KEAP1/NRF2 to drive antioxidant gene transcription (SOLAR)