The effect of modified acidic amino acid residues of JBU in hampe

The effect of modified acidic amino acid residues of JBU in hampering the release of its internal toxic peptide(s) is probably a consequence of steric hindrance that prevents the insect digestive enzymes from hydrolyzing the protein, hence decreasing its toxic activity. The remaining toxicity observed for JBU-Ac is probably due to the activity of the intact protein. It is clear now that the toxicity of plant ureases to insects is a complex event, with different physiological processes being affect by the action of toxic peptides as well as by the whole protein ( Staniscuaski and Carlini, 2012). It has

been previously shown that, upon feeding in R. prolixus, the intact molecule of JBU is able to cross the gut epithelia, being detected in the insect

hemolymph, buy CHIR-99021 from where it can reach target tissues ( Staniscuaski et al., 2010). Therefore, even though JBU-Ac is not hydrolyzed by the insects’ digestive enzymes, the intact protein is probably still active on its target tissues, leading to a lower lethality of the derivatized protein. Contrasting with the results observed for JBU-Ac, the lysine modification of JBU caused no interference on the hydrolysis by insects’ enzymes, as observed in the in vitro digestion. Analyzing the sequence of selleck inhibitor JBU, it can be noted that there are no lysine residues close to the cleavage sites. This suggests that the modification of lysine residues affected the toxicity of the whole protein, rather than the release of the toxic peptide(s). Other studies have shown that lysine residues are necessary for the toxicity of the mosquito-active Bacillus thuringiensis toxin,

since lysine modification led to a dramatic those drop in toxicity ( Pfannenstiel et al., 1985). Hassani et al. (1999) reported that acetylation of lysine residues reduced the toxicity of scorpion toxin VII by affecting the binding capability of this toxin to sodium channels from cockroaches, being α-type scorpion toxins also affected in a similar manner ( Darbon et al., 1983; Sampieri and Habersetzer-Rochat, 1978). Lysine residues were also shown important for the toxicity of Ts1, a neurotoxin isolated from Tityus serrulatus ( Polikarpov et al., 1999). The results showed here may indicate that lysine residues are important in the binding of JBU to the insect target tissues. Interestingly, only JBU-Lys lost its activity upon R. prolixus diuresis. JBU probably interacts with the membrane of the Malpighian tubules (through an unknown membrane protein/receptor) and triggers a signaling pathway, involving eicosanoids metabolites, that leads to antidiuresis ( Staniscuaski et al., 2009). It is possible that altering lysine residues at the urease surface impairs its interaction with the membrane, abolishing the antidiuretic effect.

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