Title : Mechanistic and structural studies on
legumain explain its zymogenicity, distinct activation pathways, and regulation
Abstract :
- The cysteine protease legumain plays important functions in immunity and cancer at different cellular locations, some of which appeared conflicting with its proteolytic activity and stability
- Here, we report crystal structures of legumain in the zymogenic and fully activated form in complex with different substrate analogs
- We show that the eponymous asparagine-specific endopeptidase activity is electrostatically generated by pH shift
- Completely unexpectedly, the structure points toward a hidden carboxypeptidase activity that develops upon proteolytic activation with the release of an activation peptide
- These activation routes reconcile the enigmatic pH stability of legumain , e.g., lysosomal, nuclear, and extracellular activities with relevance in immunology and cancer
- Substrate access and turnover is controlled by selective protonation of the S1 pocket (KM) and the catalytic nucleophile (kcat), respectively
- The multibranched and context-dependent activation process of legumain illustrates how proteases can act not only as signal transducers but as decision makers
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