TRIM16 governs the biogenesis and disposal of stress-induced protein aggregates to evade cytotoxicity: implication for neurodegeneration and cancer

ABSTRACTThe formation of protein aggregates is linked to several diseases collectively called proteinopathies. The mechanisms and the molecular players that control the turnover of protein aggregates are not well defined. We recently showed that TRIM16 acts as a key regulatory protein to control the biogenesis and degradation of protein aggregates. We show that TRIM16 interacts with, enhances K63-linked ubiquitination of, and stabilizes NFE2L2/NRF2 leading to its activation. The activated NFE2L2 upregulates the SQSTM1/p62 and ubiquitin pathway proteins, which interact with and ubiquitinate the misfolded proteins resulting in protein aggregate formation. TRIM16 is physically present around the protein aggregates and acts as a scaffold protein to recruit SQSTM1 and macroautophagy/autophagy initiation proteins for sequestration of the protein aggregates within autophagosomes, leading to their degradation. Hence, TRIM16 utilizes a two-pronged approach to safely dispose of the stress-induced misfolded proteins...