Phospholipases A₂ (PLA₂s) are a major component of snake venoms. Some of them cause severe muscle necrosis through a still unknown mechanism. Phospholipid hydrolysis is a possible explanation of their toxic action, but catalytic and toxic properties of PLA₂s are not directly connected. In addition, viperid venoms contain PLA₂-like proteins, which are very toxic even if they lack catalytic activity due to a critical mutation in position 49. Nucleolin, a main component of the nucleolus, is a disordered protein involved in many protein assembly and phase separation phenomena. In some circumstances nucleolin is exposed on the cell surface from where it is involved in the internalization of many ligands.
In this work we demonstrate that Bothrops asper myotoxin II (Mt-II), a Lys49 PLA₂-like toxin, interacts with, and is internalized in cells by nucleolin. The internalization process is functional to the toxicity of the protein, as both an antibody and an aptamer specific for nucleolin protect cells from intoxication. We identified central RRM and the C-terminal R/F-GG domain of nucleolin as the regions involved in the interaction with Mt-II.
Finally we observed that Mt-II forms, on the cell surface, amyloid-like assemblies that colocalize with nucleolin and that can be involved in the activation of the internalization process. The presence, in the three dimensional structure of Mt-II and related PLA₂ homologues, of four exposed loops enriched in prion-like amino acid sequences reinforces this hypothesis.