Structural and Functional Studies of a Bothropic Myotoxin Complexed to Rosmarinic Acid: New Insights into Lys49-PLA2 Inhibition

Santos, Jorge M.; Cardoso, Filomena; Soares, Andreimar M.; Dal-Pai-Silva, Maeli; Gallacci, Márcia; Fontes, Marcos R.M.

doi:10.1371/journal.pone.0028521

Cited by 52 publications

(45 citation statements)

References 89 publications

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“…This compound demonstrates antimyotoxic properties and inhibits edema induced by crude B. jararacussu snake venom and its basic PLA 2 s [36, 55]. The three-dimensional structure of the PrTX-I, rosmarinic acid complex, was elucidated by Santos and collaborators [68], where rosmarinic acid was observed located at the entrance of the hydrophobic channel monomer A of the PrTX-I dimer via an interaction between hydrogen bonds and hydrophobic contacts in the same monomer. Interactions were also observed between rosmarinic acid and a residue of the C-terminal region of the monomer B.…”

Section: Structural Characterization Of Pla2 Inhibitorsmentioning

confidence: 99%

“…Interactions were also observed between rosmarinic acid and a residue of the C-terminal region of the monomer B. The interaction between the rosmarinic acid molecule with the hydrophobic channel (monomer A) and the C-terminal region (myotoxic site, monomer B) suggests two mechanisms of myotoxicity inhibition [68]. …”

Section: Structural Characterization Of Pla2 Inhibitorsmentioning

confidence: 99%

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Snake Venom PLA₂s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Carvalho

Santos

Xavier

et al. 2013

BioMed Research International

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Ophidian envenomation is an important health problem in Brazil and other South American countries. In folk medicine, especially in developing countries, several vegetal species are employed for the treatment of snakebites in communities that lack prompt access to serum therapy. However, the identification and characterization of the effects of several new plants or their isolated compounds, which are able to inhibit the activities of snake venom, are extremely important and such studies are imperative. Snake venom contains several organic and inorganic compounds; phospholipases A2 (PLA2s) are one of the principal toxic components of venom. PLA2s display a wide variety of pharmacological activities, such as neurotoxicity, myotoxicity, cardiotoxicity, anticoagulant, hemorrhagic, and edema-inducing effects. PLA2 inhibition is of pharmacological and therapeutic interests as these enzymes are involved in several inflammatory diseases. This review describes the results of several studies of plant extracts and their isolated active principles, when used against crude snake venoms or their toxic fractions. Isolated inhibitors, such as steroids, terpenoids, and phenolic compounds, are able to inhibit PLA2s from different snake venoms. The design of specific inhibitors of PLA2s might help in the development of new pharmaceutical drugs, more specific antivenom, or even as alternative approaches for treating snakebites.

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Section: Structural Characterization Of Pla2 Inhibitorsmentioning

confidence: 99%

Section: Structural Characterization Of Pla2 Inhibitorsmentioning

confidence: 99%

Snake Venom PLA₂s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Carvalho

Santos

Xavier

et al. 2013

BioMed Research International

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“…Molecular comparisons of the structures were performed using the Coot v.0.7 program (Emsley and Cowtan, 2004) with only C a coordinates. The structures of MjTX-II/ stearic acid (PDB ID 1XXS) (Watanabe et al, 2005), BaspTX-II (PDB ID 1CLP) in its native form (Arni et al, 1995) and complexed to suramin (PDB ID 1Y4L) (Murakami et al, 2005), BthTX-I (PDB ID 3HZD), BthTX-I/PEG4000 (PDB ID 3IQ3), BthTX-I/BPB (PDB ID 3HZW), PrTX-I/BPB (PDB ID 2OK9) (Fernandes et al, 2010), BthTX-I/atocopherol (PDB ID 3CXI), PrTX-I (PDB ID 2Q2J), PrTX-I/atocopherol (PDB ID 3CYL) (dos Santos et al, 2009), PrTX-I/Rosmarinic acid (PDB ID 3QNL) (dos Santos et al, 2011a), PrTX-II/fatty acid (PDB ID 1QLL) (Lee et al, 2001), BnSP-6 and BnSP-7 (PDB ID 1PC9 and 1PA0 respectively) (Magro et al, 2003) and BnIV/ Myristic acid (PDB ID 3MLM) (Delatorre et al, 2011) were used in the comparative analysis.…”

Section: Comparative Analysismentioning

confidence: 99%

Structural and functional studies with mytoxin II from Bothrops moojeni reveal remarkable similarities and differences compared to other catalytically inactive phospholipases A2-like

Marchi-Salvador

Cavalcante

Santos

et al. 2013

Toxicon

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Lys49-phospholipases A₂ (Lys49-PLA₂s) are proteins found in bothropic snake venoms (Viperidae family) and belong to a class of proteins which presents a phospholipase A2 scaffold but are catalytically inactive. These proteins (also known as PLA₂s-like toxins) exert a pronounced local myotoxic effect and are not neutralized by antivenom, being their study relevant in terms of medical and scientific interest. Despite of the several studies reported in the literature for this class of proteins only a partial consensus has been achieved concerning their functional-structural relationships. In this work, we present a comprehensive structural and functional study with the MjTX-II, a dimeric Lys49-PLA₂ from Bothrops moojeni venom which includes: (i) high-resolution crystal structure; (ii) dynamic light scattering and bioinformatics studies in order to confirm its biological assembly; (iii) myographic and electrophysiological studies and, (iv) comparative studies with other Lys49-PLA₂s. These comparative analyses let us to get important insights into the role of Lys122 amino acid, previously indicated as responsible for Lys49-PLA₂s catalytic inactivity and added important elements to establish the correct biological assembly for this class of proteins. Furthermore, we show two unique sequential features of MjTX-II (an amino acid insertion and a mutation) in comparison to all bothropic Lys49-PLA₂s that lead to a distinct way of ligand binding at the toxin's hydrophobic channel and also, allowed the presence of an additional ligand molecule in this region. These facts suggest a possible particular mode of binding for long-chain ligands that interacts with MjTX-II hydrophobic channel, a feature that may directly affect the design of structure-based ligands for Lys49-PLA₂s.

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“…The polyphenol rosmarinic acid isolated from diverse species of the Boraginaceae and Lamiaceae, reduced 80% and 90 % the muscle damage and the neuromuscular blockade induced by PrTX-I (a PLA 2 Lys 49 from the venom of Bothrops pirajai) on mice neuromuscular (phrenic-diaphragm) preparations. X-ray crystallographic studies between two molecules demonstrated that rosmarinic acid obstruct the entrance of the hydrophobic channel in PrTX-I affecting the interaction with membrane [37].…”

Section: Discussionmentioning

confidence: 99%

CHARACTERIZATION OF THE MOST PROMISING FRACTION OF Swietenia macrophylla ACTIVE AGAINST MYOTOXIC PHOSPHOLIPASES A2 : IDENTIFICATION OF CATECHIN AS ONE OF THE ACTIVE COMPOUNDS

Preciado

Pereañez

Núñez

et al. 2016

Vitae

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Background: The pharmacological effects produced by snakebite accidents involve the actions of several enzymes, of which those of the phospholipases A 2 (PLA 2 ) exhibit a wide variety of effects such as edema and myotoxicity. Some plant extracts have been antagonists of crude snake venoms and toxins. Based on promising bioactivity, Swietenia macrophylla King was selected for further studies. Objective: The purpose of this study was to identify the PLA 2 inhibitors present in the crude extract of S. macrophylla that could be promising leads in neutralizing the local effects of ophidian accidents. Methods: Bioassay-guided fractionation of the ethanolic extract of the leaves of S. macrophylla lead to the detection of (+)-catechin, characterized through gas chromatography coupled with mass spectrometry (GC-MS), and confirmed by HPLC. The PLA 2 inhibitory activity was measured with the Dole method and a spectrophotometric assay with 4-Nitro-3-octanoyloxy-benzoic acid (4N3OBA). Cytotoxicity was done on C2C12 murine myoblast. Results: Fraction F5 and (+)-Catechin inhibited the PLA 2 activity of B. asper venom, in a dosedependent way. In addition, (+)-Catechin showed an inhibition level of 83.1 ± 3.1 % of the enzymatic activity of one PLA 2 purified from the venom of Crotalus durissus cumanensis using 4N3OBA as substrate. Also the ethanolic extract and fraction F5 showed inhibition of the cytotoxicity induced by the Bothrops atrox venom and their Lys 49 PLA 2 (80 and 100% respectively). Molecular docking results suggested that OH from 4´ and 5' carbons of (+)-catechin could form hydrogen bonds with carboxylate moiety of residue Asp49, while OH from 5 could form a hydrogen bond with Asn 6. Additional Van der Waals interactions were also proposed. Conclusion: Swietenia macrophylla exhibited strong inhibitory activity against PLA 2 s enzymes. Catechin, one of the components in the active fraction F5, is proposed as being partially responsible for the bioactivity.

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Structural and Functional Studies of a Bothropic Myotoxin Complexed to Rosmarinic Acid: New Insights into Lys49-PLA2 Inhibition

Cited by 52 publications

References 89 publications

Snake Venom PLA₂s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Snake Venom PLA₂s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Structural and functional studies with mytoxin II from Bothrops moojeni reveal remarkable similarities and differences compared to other catalytically inactive phospholipases A2-like

CHARACTERIZATION OF THE MOST PROMISING FRACTION OF Swietenia macrophylla ACTIVE AGAINST MYOTOXIC PHOSPHOLIPASES A2 : IDENTIFICATION OF CATECHIN AS ONE OF THE ACTIVE COMPOUNDS

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Structural and Functional Studies of a Bothropic Myotoxin Complexed to Rosmarinic Acid: New Insights into Lys49-PLA2 Inhibition

Cited by 52 publications

References 89 publications

Snake Venom PLA2s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Snake Venom PLA2s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Structural and functional studies with mytoxin II from Bothrops moojeni reveal remarkable similarities and differences compared to other catalytically inactive phospholipases A2-like

CHARACTERIZATION OF THE MOST PROMISING FRACTION OF Swietenia macrophylla ACTIVE AGAINST MYOTOXIC PHOSPHOLIPASES A2 : IDENTIFICATION OF CATECHIN AS ONE OF THE ACTIVE COMPOUNDS

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Snake Venom PLA₂s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules

Snake Venom PLA₂s Inhibitors Isolated from Brazilian Plants: Synthetic and Natural Molecules