info:eu-repo/semantics/article
Understanding toxicological implications of accidents with caterpillars Megalopyge lanata and Podalia orsilochus (Lepidoptera: Megalopygidae)
Fecha
2019-02Registro en:
Sanchez, Matias Nicolas; Mozer Sciani, Juiana; Quintana, María Agustina; Martínez, María Mercedes; Tavares, Flávio Luiz; et al.; Understanding toxicological implications of accidents with caterpillars Megalopyge lanata and Podalia orsilochus (Lepidoptera: Megalopygidae); Elsevier Science Inc; Comparative Biochemistry And Physiology. Toxicology & Pharmacology; 216; 2-2019; 110-119
1532-0456
CONICET Digital
CONICET
Autor
Sanchez, Matias Nicolas
Mozer Sciani, Juiana
Quintana, María Agustina
Martínez, María Mercedes
Tavares, Flávio Luiz
Gritti, Micaela Andrea
Fan, Hui W.
Teibler, Gladys Pamela
Peichoto, María Elisa
Resumen
Dermal contact with Lepidoptera specimens at their larval stage (caterpillar) commonly causes local envenomation. Although the megalopygids Megalopyge lanata and Podalia orsilochus are common causative agents of accidents in the Misiones province, Northeastern Argentina, there is very little information about their venoms and their toxicological implications on human health. Thus, we employed proteomic techniques and biological assays to characterize venoms (bristle extracts) from caterpillars of both species collected from Misiones, Argentina. The electrophoretic profile of both venoms were substantially different, although proteins related to coagulation disturbance have been identified in both venoms. However, P. orsilochus venom exhibited higher caseinolytic activity than M. lanata venom, agreeing with the fact that only P. orsilochus venom hydrolyzed human fibrin(ogen). While the venom of M. lanata induced a mild inflammatory lesion in mouse skin, P. orsilochus venom caused prominent necrosis, inflammatory infiltration and hemorrhage at the site of venom injection. Altogether, this study provides relevant information about the pathophysiological mechanisms whereby both caterpillars can induce toxicity on human beings, and paves the way for novel discovery of naturally occurring bioactive compounds.