Similar results were obtained with the poisons from other Brazili

Similar results were obtained with the poisons from other Brazilian fish such as the stingrays Potamotrygon cf. scobina and Potamotrygon gr. orbygnyi ( Magalhães et al., 2006). Ku-0059436 nmr Furthermore, toxins present in snake venoms that induce systemic and local effects are substances with known inflammatory activity. Another important

finding was that only peptide fractions obtained from venom or skin mucus provoked changes in blood flow or in the caliber of the vessels participating in microcirculation. Fractions Fv1, Fv2 and Fv3 induced a venular stasis; moreover, Fv2 induced constriction of arteriolar vessels. Regarding the fractions obtained from skin mucus, Fm1 and Fm5 induced hemorrhage, and Fm2 and Fm6 enlargement of arteriolar wall diameter. These results demonstrate differences regarding the action of peptides and proteins present in sting venom and skin mucus of C. spixii. While the protein fractions produced a typical inflammatory process in post-capillary venules, the peptide fractions caused more harmful effects, such as venular stasis, hemorrhage and changes in the arteriolar

wall diameter. These circulatory alterations can explain the clinical manifestations observed in human catfish envenomations, which are based in ischemia, blanching and necrosis ( Haddad Jr. and Martins, 2006). Since the 1960s, the family of bioactive bradykinin-potentiating peptides found in animal venoms (BPPs) has received special attention. The history of this family of hypotensive SB203580 datasheet peptides is well known, but no such peptides with similar sequences have been found in aquatic animals such as fish. Recently, our group identified in the venom of the stingray P. gr. orbignyi a peptide called Orpotrin (HGGYKPTDK) which had constrictor activity on the arterioles in mice ( Conceição et al., 2006) but had no similarity to any other peptide or BPP. From the fractionation of sting venom and skin mucus of C. spixii, we have 3 fractions capable of inducing changes in arteriolar wall diameter.

Interestingly, studies conducted check details by Junqueira et al. (2007) did not describe any alterations in the arteriolar wall diameter when total venom or skin mucus was applied to the microcirculatory net. However studies with other species of catfish showed a hypotensive response ( Datta et al., 1982) or even a hypertensive response in vivo ( Auddy et al., 1994) produced by venom. Moreover, it was confirmed that the skin mucus from the catfish Arius thalassinus has a vasoconstrictor effect ( Al-Hassan et al., 1986). Despite these works demonstrating that catfish venoms cause changes in vessel diameter, none of them isolated or characterized the molecules responsible for these effects. Finally, we described for the first time a Warm Temperature Acclimation-Related Protein 65-kDa (Wap65) in sting venom and skin mucus of C.

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