Title : Modulation of the cholinergic pathway induced by skin secretion of Phyllomedusa iheringii Boulenger, 1885 in a vertebrate model - Borges_2022_Toxicon__ |
Author(s) : Borges BT , Oliveira RS , Leal AP , Rosa ME , Barreto YC , Gomes Dos Santos T , de Brum Vieira P , Dal Belo CA , Vinade L |
Ref : Toxicon , : , 2022 |
Abstract :
Amphibians represent one of the main natural sources of bioactive molecules of interest to biotechnological research. The Phyllomedusidae family has several species occurring in Brazil and some studies demonstrate the biological potential of poisons of these species, however many still need to be characterized. Phyllomedusa iheringii is endemic in Brazilian and Uruguayan Pampa Biome and has little data in the literature regarding the action of its poison on experimental organisms. Thus, the present work evaluates the biological activity of P. iheringii secretion on the central and peripheral nervous system of a vertebrate model. The skin secretions of P. iheringii (SSPI) were collected through manual compression and electrical stimulation of the animal's bodies. The resulting content was used in neurobiological tests searching for modulatory effects on the main pathways involved in the neurotoxicity mechanism of vertebrates. SSPI affected the contraction force of the chick biventer cervicis muscle (Gallus gallus domesticus) at some concentrations used (5, 10, and 12 microg/mL). In slices from the cerebral cortex of G. gallus domesticus an increase in cell viability was observed after treatment with SSPI (10 microg/mL) and a neuroprotective effect when treated simultaneously with hydrogen peroxide (H(2)O(2)), Neostigmine (NEO) and Trichlorfon (TRI). The cholinergic pathway is possibly the main pathway modulated by SSPI since assays with the cerebral cortex and biventer cervicis muscle demonstrated the increased activity of the enzyme acetylcholinesterase (AChE) (SSPI 10 microg/mL and 12 microg/mL, respectively). SSPI (10 microg/mL) also prevented the modulation of NEO and TRI, two recognized anticholinesterase agents, in AChE activity in slices of the cerebral cortex. Therefore, our results have demonstrated the unpublished biotechnological potential of P. iheringii over the vertebrate model and its modulation on the nervous system, with apparent action on the cholinergic pathway. |
PubMedSearch : Borges_2022_Toxicon__ |
PubMedID: 35202645 |
Borges BT, Oliveira RS, Leal AP, Rosa ME, Barreto YC, Gomes Dos Santos T, de Brum Vieira P, Dal Belo CA, Vinade L (2022)
Modulation of the cholinergic pathway induced by skin secretion of Phyllomedusa iheringii Boulenger, 1885 in a vertebrate model
Toxicon
:
Borges BT, Oliveira RS, Leal AP, Rosa ME, Barreto YC, Gomes Dos Santos T, de Brum Vieira P, Dal Belo CA, Vinade L (2022)
Toxicon
: