A new photoprobe for studying biological activities of secreted phospholipases A2

Ammodytoxin (Atx) is a snake venom phospholipase A2 (sPLA2s) with presynaptic toxicity, anticoagulant activity and the ability to influence cell cycle progression. These multiple physiological activities make this molecule a promising tool for studying processes influenced by the highly homologous mammalian sPLA2s—for example cell proliferation and apoptosis. Secreted PLA2s can act on cells as enzymes or as ligands for cellular receptors. To further characterize the sPLA2-binding molecules in cells we have developed a new method based on AtxC and a biotin-containing cross-linking reagent sulfo-SBED which possesses both an amine-reactive and a photo-reactive site, together with a biotin moiety that enables specific detection and affinity-based concentration. The biological activity of the AtxC derivatized by sulfo-SBED was demonstrated by biotin-tagging of calmodulin and R25, both known AtxC targets, but not of other proteins. In addition, using the new protocol we specifically labelled 14-3-3 proteins, protein disulfide isomerase and two unknown proteins of 45 and 46 kDa in the mitochondrial–synaptosomal fraction of porcine cerebral cortex, none of which could be tagged by the previously used methods. The new methodology, which can be used for any sPLA2, constitutes a novel approach to discovering and purifying sPLA2-binding proteins, to studying the topology of their respective complexes and to following sPLA2s in different biological systems.

Graphical abstractAmmodytoxin (Atx) is a snake venom phospholipase A2 (sPLA2s) with presynaptic toxicity, anticoagulant activity and the ability to influence cell cycle progression. These multiple physiological activities make this molecule a promising tool for studying processes influenced by the highly homologous mammalian sPLA2s—for example cell proliferation and apoptosis. Secreted PLA2s can act on cells as enzymes or as ligands for cellular receptors. To further characterize the sPLA2-binding molecules in cells we have developed a new method based on AtxC and a biotin-containing cross-linking reagent sulfo-SBED which possesses both an amine-reactive and a photo-reactive site, together with a biotin moiety that enables specific detection and affinity-based concentration. The biological activity of the AtxC derivatized by sulfo-SBED was demonstrated by biotin-tagging of calmodulin and R25, both known AtxC targets, but not of other proteins. In addition, using the new protocol we specifically labelled 14-3-3 proteins, protein disulfide isomerase and two unknown proteins of 45 and 46 kDa in the mitochondrial–synaptosomal fraction of porcine cerebral cortex, none of which could be tagged by the previously used methods. The new methodology, which can be used for any sPLA2, constitutes a novel approach to discovering and purifying sPLA2-binding proteins, to studying the topology of their respective complexes and to following sPLA2s in different biological systems.