Modulation in pharmacological action of botropics and crotalics PLA2 in presence of an lectin isolated from marine alga Bryothammion triquetrum / Modulação da ação farmacologica de PLA2 botropicas e crotalicas em presença de uma lectina isolada da alga marinha Bryothamnion triquetrum

AUTOR(ES)
DATA DE PUBLICAÇÃO

2007

RESUMO

Lectins are proteins that bind specifically and reversibly to carbohydrates. They are widely distributed among living organisms and show many activities of biological and medical interest. In this work, two isoforms of lectins isolated from the red marine alga Bryothamnion triquetrum were purified by ion exchange followed by reverse phase chromatographies. The fractions named BTLD1 and BTLD2 showed apparent molecular mass of approximately 9.0 kDa in SDSPAGE. Both lectins probably have a basic character, as indicated the amino acid analyses using the Compute pI/Mw tool at the ExPASy server. The Nterminal sequences were compared between both lectins and also to other lectins, showing similarity with hypninA1, hypninA2 and BTL. The circular dichroism indicated that the secondary structure of the proteins are predominantly random coiled. Additionaly, BTLD2 (the more abundant lectin isoform in the alga extract) showed antibacterial activity against the grampositive bacteria Clavibacter michiganensis subsp. michiganensis (Cmm) but was not effective against the gramnegative bacteria Xanthomonas axonopodis pv. passiflorae (Xap). A possible modulation of phospholipase activity by BTLD2 was also studied using two phospholipases A2, one isolated from Crotalus durissus cascavella venom that is Asp49 (D49) catalytically active, and other PLA2 Lys49 (K49) catalytically non active from Bothrops jararacussu venom. The pharmacological and biological activities of PLA2s were significantly change by incubation with BTLD2. The heterodimer formation of BTLD2 with Crotalus durissus cascavella or Bothrops jararacussu PLA2s appears to be a stable complex in solution with a molecular mass of approximately 23 kDa. BTLD2 significantly increased the enzymatic activity of the PLA2 from C.d. cascavella compared to the PLA2 alone. Both PLA2s (catalytically active and nonactive) showed strong antibacterial activity against Cmm with little effect against Xap. However, the BTLD2: PLA2 D49 or K49 complexes showed increase in antibacterial activity, particularly against Xap. Moreover, both PLA2s induced edematogenic activity in rat paw and strong platelet aggregation in washed platelets system. Interestingly, addition of BTLD2 with consequent formation of the BTLD2: PLA2 complex decreased both PLA2induced edema and platelet aggregation. Taken toghether, these results show that this new lectin isolated from a red alga and named BTLD2 has the capacity to interact with catalytic or noncatalytic PLA2, forming heterodimers. Therefore, this interaction possibly modify the PLA2 tertiary structure; as the complex BTLD2: PLA2 increase the enzymatic activity of PLA2 (i.e., the phospholipase activity) but at the same time decrease pharmacological and biological PLA2 activities not related to catalysis (i.e., platelet aggregation and edema). This suggests that the PLA2 structure is possibly modified in other sites of the enzyme rather than in the catalytic site. It can be concluded that the PLA2s has several binding sites for different molecules comprising the catalytic site responsible for the phospholipase activity and at least one more pharmacological site responsible for the effects observed after interaction with BTLD2. Therefore, the pharmacological activity of PLA2s has no direct correlation with the catalytic activity, involving other binding sites that allow receptor interaction whose position might be far from the catalytic site of PLA2.

ASSUNTO(S)

agregação plaquetaria oedema platelet agregation alga lectin fosfolipases a alga edema lectinas phospholipases

ACESSO AO ARTIGO

Documentos Relacionados