Functional and structural characterization of phospholipase A2 inhibitors from Bothrops jararacussu snake plasma

Phospholipases A2 (PLA2s) from snake venoms comprise a group of enzymes with molecular weights varying from 14,000 to 18,000, and are responsible for several toxic effects induced by the venom of these animals, making important the search for natural inhibitors of PLA2s. The present work proposed the biochemical, pharmacological and structural characterization of two protein inhibitors isolated from the plasma of Bothrops jararacussu snake (BjussuMIPs), which neutralize the enzymatic, toxic and pharmacological activities of different PLA2s. These inhibitors were isolated by an affinity chromatography on myotoxin-Sepharose, showing that both are glycoproteins with molecular weights of 24,000 (BjussuMIP) and 23,500 (BjussuMIP) for the monomers and 120,000 (BjussuMIP) and 160,000 (BjussuMIP) for the oligomers. The treatment of BjussuMIPs with N-glucosidase F reduced their molecular weights to about 18,000, but did not affect their inhibitory activity on PLA2s, suggesting that the carbohydrates have little or no role in the association of these BjussuMIPs with these enzymes. The analysis of BjussuMIP by circular dichroism showed 44% of -helix, 18% of sheets, 10% of turns and 28% of random structures. The cDNA obtained by PCR from the snake liver showed 432 bp for BjussuMIP and 543 bp for BjussuMIP, which encode for 144 and 181 amino acid residues, respectively. The alignment of the sequence of BjussuMIP with those from other -inhibitors (PLIs) showed 73-92% of similarity and 89-94% for the BjussuMIP compared to other PLIs. The BjussuMIPs showed to be relatively stable to changes in pH (6-12) and temperature, however lost of its activity when submitted to high temperatures. The functional characterization indicates that both BjussuMIPs presented inhibitory properties on different snake venom PLA2s from the genera Bothrops and Crotalus. Both BjussuMIPs showed pharmacological properties such as inhibition of phospholipase, anticoagulant, myotoxic, cytotoxic, bactericidal, edema-inducing and lethal activities. The results show that BjussuMIP presents higher affinity to Lys49-PLA2 homologous, such as BthTX-I and PrTX-I, while BjussuMIP is more specific to Asp49-PLA2s, suggesting specificity between BjussuMIPs and types of PLA2s. Moreover, both inhibitors proved effective in the supplementation of Bothrops antivenom at different concentrations, resulting in an increased capacity of serum in neutralizing snake toxins. The issues reported in this work could bring additional information on possible mechanisms of action and may result in better understanding of the inhibitory effects exerted by these BjussuMIPs, as well as assist the treatment of ophidian envenomations by supplementation of the traditional serum therapy. (AU)