Your search keyword '"Kleiz-Ferreira JM"' showing total 2 results

1. Pharmacological Screening of Venoms from Five Brazilian Micrurus Species on Different Ion Channels.

Author

Kleiz-Ferreira JM, Bernaerts H, Pinheiro-Junior EL, Peigneur S, Zingali RB, and Tytgat J

Subjects

Animals, Brazil, Elapidae, Ion Channels, Phospholipases A2, Coral Snakes physiology, Elapid Venoms chemistry, Elapid Venoms pharmacology, Toxins, Biological chemistry, Toxins, Biological pharmacology, Toxins, Biological physiology

Abstract

Coral snake venoms from the Micrurus genus are a natural library of components with multiple targets, yet are poorly explored. In Brazil, 34 Micrurus species are currently described, and just a few have been investigated for their venom activities. Micrurus venoms are composed mainly of phospholipases A 2 and three-finger toxins, which are responsible for neuromuscular blockade-the main envenomation outcome in humans. Beyond these two major toxin families, minor components are also important for the global venom activity, including Kunitz-peptides, serine proteases, 5' nucleotidases, among others. In the present study, we used the two-microelectrode voltage clamp technique to explore the crude venom activities of five different Micrurus species from the south and southeast of Brazil: M. altirostris , M. corallinus , M. frontalis , M. carvalhoi and M. decoratus . All five venoms induced full inhibition of the muscle-type α1β1δε nAChR with different levels of reversibility. We found M. altirostris and M. frontalis venoms acting as partial inhibitors of the neuronal-type α7 nAChR with an interesting subsequent potentiation after one washout. We discovered that M. altirostris and M. corallinus venoms modulate the α1β2 GABA A R. Interestingly, the screening on K V 1.3 showed that all five Micrurus venoms act as inhibitors, being totally reversible after the washout. Since this activity seems to be conserved among different species, we hypothesized that the Micrurus venoms may rely on potassium channel inhibitory activity as an important feature of their envenomation strategy. Finally, tests on Na V 1.2 and Na V 1.4 showed that these channels do not seem to be targeted by Micrurus venoms. In summary, the venoms tested are multifunctional, each of them acting on at least two different types of targets.

Published

2022

2. Three-Finger Toxins from Brazilian Coral Snakes: From Molecular Framework to Insights in Biological Function.

Author

Kleiz-Ferreira JM, Cirauqui N, Trajano EA, Almeida MS, and Zingali RB

Subjects

Amino Acid Sequence, Animals, Brazil, Computer Simulation, Phylogeny, Toxins, Biological isolation & purification, Coral Snakes, Elapid Venoms chemistry, Toxins, Biological chemistry

Abstract

Studies on 3FTxs around the world are showing the amazing diversity in these proteins both in structure and function. In Brazil, we have not realized the broad variety of their amino acid sequences and probable diversified structures and targets. In this context, this work aims to conduct an in silico systematic study on available 3FTxs found in Micrurus species from Brazil. We elaborated a specific guideline for this toxin family. First, we grouped them according to their structural homologue predicted by HHPred server and further curated manually. For each group, we selected one sequence and constructed a representative structural model. By looking at conserved features and comparing with the information available in the literature for this toxin family, we managed to point to potential biological functions. In parallel, the phylogenetic relationship was estimated for our database by maximum likelihood analyses and a phylogenetic tree was constructed including the homologous 3FTx previously characterized. Our results highlighted an astonishing diversity inside this family of toxins, showing some groups with expected functional similarities to known 3FTxs, and pointing out others with potential novel roles and perhaps structures. Moreover, this classification guideline may be useful to aid future studies on these abundant toxins., Competing Interests: The authors declare no conflict of interest

Published

2021