par Azarkan, Mohamed 
;Maquoi, Erik;Delbrassine, François;Herman, Raphael;M'Rabet, Nasiha ;Calvo Esposito, Rafaèle ;Charlier, Paulette;Kerff, Frédéric
Référence Scientific reports, 10, 1, page (19570)
Publication Publié, 2020-10-01
;Maquoi, Erik;Delbrassine, François;Herman, Raphael;M'Rabet, Nasiha ;Calvo Esposito, Rafaèle ;Charlier, Paulette;Kerff, FrédéricRéférence Scientific reports, 10, 1, page (19570)
Publication Publié, 2020-10-01
Article révisé par les pairs
| Résumé : | The Ananas comosus stem extract is a complex mixture containing various cysteine proteases of the C1A subfamily, such as bromelain and ananain. This mixture used for centuries in Chinese medicine, has several potential therapeutic applications as anti-cancer, anti-inflammatory and ecchymosis degradation agent. In the present work we determined the structures of bromelain and ananain, both in their free forms and in complex with the inhibitors E64 and TLCK. These structures combined with protease-substrate complexes modeling clearly identified the Glu68 as responsible for the high discrimination of bromelain in favor of substrates with positively charged residues at P2, and unveil the reasons for its weak inhibition by cystatins and E64. Our results with purified and fully active bromelain, ananain and papain show a strong reduction of cell proliferation with MDA-MB231 and A2058 cancer cell lines at a concentration of about 1 μM, control experiments clearly emphasizing the need for proteolytic activity. In contrast, while bromelain and ananain had a strong effect on the proliferation of the OCI-LY19 and HL-60 non-adherent cell lines, papain, the archetypal member of the C1A subfamily, had none. This indicates that, in this case, sequence/structure identity beyond the active site of bromelain and ananain is more important than substrate specificity. |
