Legumain drives processing of cathepsins and nuclear localisation of cathepsin L

Lysosomal proteases such as the cathepsin family and the asparaginyl endopeptidase, legumain, govern vital processes to maintain cellular proteostasis, and their dysregulation contributes to diverse pathologies. Recent studies have reported extra-lysosomal localisation of these proteases, especially in the nucleus, cytoplasm, and extracellularly, yet their function is not completely understood. To examine the relationship between legumain and cathepsins, we assessed the activity and expression of cathepsins in wild-type and legumain-deficient (LGMN-/-) cells using chemical activity-based probes and immunoblots. Processing of cathepsins (CTS) L, V, B, and D from the single-chain to the two-chain form was abrogated in the absence of legumain, with some cell type- and species-specific variation observed. This processing was dependent on legumain activity, although the mechanism remains unclear since recombinant legumain does not appear to directly cleave cathepsins in vitro. In cell types where CTSL exists in the nucleus preferentially in its double chain form, loss of legumain led to a reduction in nuclear CTSL levels. To understand the potential role of these lysosomal proteases in the nucleus, we applied our newly refined chemical N-terminomics pipeline, No-enrichment Identification of Cleavage Events (NICE). This analysis revealed widespread changes in both protein abundance and proteolysis, including putative nuclear substrates of CTSL and legumain, that primarily suggest roles in cell proliferation, cell cycle regulation, inflammation, and ribosomal biogenesis. Overall, this study builds on our understanding of the relationship between legumain and cathepsins and provides the first systematic characterisation of lysosomal protease substrates in the nucleus. Our results offer valuable insight into the potential extra-lysosomal roles of these critical proteases.