Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells

Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells

Cacalolides are a kind of sesquiterpenoids natural compounds synthesized by <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell or <i>Psacalium peltatum</i> (Kunth) Cass. Antioxidant and hypoglycemic effects have been found for cacalolides such as cacalol, caca...

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Main Authors: Jorge Iván Castillo-Arellano, Juan Carlos Gómez-Verjan, Nadia A. Rojano-Vilchis, Myrna Mendoza-Cruz, Manuel Jiménez-Estrada, Héctor E. López-Valdés, Hilda Martínez-Coria, Roger Gutiérrez-Juárez, Claudia González-Espinosa, Ricardo Reyes-Chilpa, Isabel Arrieta-Cruz
Format: Article
Language:English
Published: MDPI AG 2018-12-01
Series:Molecules
Subjects:
<i>Psacalium decompositum</i>
<i>Psacalium peltatum</i>
cacalol
calcium channels
maturin
reactive oxygen species
inflammation
Online Access:https://www.mdpi.com/1420-3049/23/12/3367
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spelling doaj-c2c6bbe0b7d043389e390af3a6f6fc0c2020-11-25T01:30:36ZengMDPI AGMolecules1420-30492018-12-012312336710.3390/molecules23123367molecules23123367Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast CellsJorge Iván Castillo-Arellano0Juan Carlos Gómez-Verjan1Nadia A. Rojano-Vilchis2Myrna Mendoza-Cruz3Manuel Jiménez-Estrada4Héctor E. López-Valdés5Hilda Martínez-Coria6Roger Gutiérrez-Juárez7Claudia González-Espinosa8Ricardo Reyes-Chilpa9Isabel Arrieta-Cruz10Pharmacobiology Department, Center for Research and Advanced Studies of the National Polytechnic Institute, Mexico City 14330, MexicoDepartment of Basic Research, National Institute of Geriatrics, Ministry of Health, Mexico City 10200, MexicoDepartment of Natural Products, Institute of Chemistry, National Autonomous University of Mexico, Mexico City 04510, MexicoBotanical Garden, Institute of Biology, National Autonomous University of Mexico, Mexico City 04510, MexicoDepartment of Natural Products, Institute of Chemistry, National Autonomous University of Mexico, Mexico City 04510, MexicoDivision of Research, Faculty of Medicine, National Autonomous University of Mexico, Mexico City 04510, MexicoDivision of Research, Faculty of Medicine, National Autonomous University of Mexico, Mexico City 04510, MexicoDepartment of Biomedical Sciences, Faculty of High Studies Zaragoza, National Autonomous University of Mexico, Mexico City 09230, MexicoPharmacobiology Department, Center for Research and Advanced Studies of the National Polytechnic Institute, Mexico City 14330, MexicoDepartment of Natural Products, Institute of Chemistry, National Autonomous University of Mexico, Mexico City 04510, MexicoDepartment of Basic Research, National Institute of Geriatrics, Ministry of Health, Mexico City 10200, MexicoCacalolides are a kind of sesquiterpenoids natural compounds synthesized by <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell or <i>Psacalium peltatum</i> (Kunth) Cass. Antioxidant and hypoglycemic effects have been found for cacalolides such as cacalol, cacalone or maturine, however, their effects on inflammatory processes are still largely unclear. The main aim of this study was to investigate the biological activities of secondary metabolites from <i>P. decompositum</i> and <i>P. peltatum</i> through two approaches: (1) chemoinformatic and toxicoinformatic analysis based on ethnopharmacologic background; and (2) the evaluation of their potential anti-inflammatory/anti-allergic effects in bone marrow-derived mast cells by IgE/antigen complexes. The bioinformatics properties of the compounds: cacalol; cacalone; cacalol acetate and maturin acetate were evaluated through Osiris DataWarrior software and Molinspiration and PROTOX server. In vitro studies were performed to test the ability of these four compounds to inhibit antigen-dependent degranulation and intracellular calcium mobilization, as well as the production of reactive oxygen species in bone marrow-derived mast cells. Our findings showed that cacalol displayed better bioinformatics properties, also exhibited a potent inhibitory activity on IgE/antigen-dependent degranulation and significantly reduced the intracellular calcium mobilization on mast cells. These data suggested that cacalol could reduce the negative effects of the mast cell-dependent inflammatory process.https://www.mdpi.com/1420-3049/23/12/3367<i>Psacalium decompositum</i><i>Psacalium peltatum</i>cacalolcalcium channelsmaturinreactive oxygen speciesinflammation
collection DOAJ
language English
format Article
sources DOAJ
author Jorge Iván Castillo-Arellano
Juan Carlos Gómez-Verjan
Nadia A. Rojano-Vilchis
Myrna Mendoza-Cruz
Manuel Jiménez-Estrada
Héctor E. López-Valdés
Hilda Martínez-Coria
Roger Gutiérrez-Juárez
Claudia González-Espinosa
Ricardo Reyes-Chilpa
Isabel Arrieta-Cruz
spellingShingle Jorge Iván Castillo-Arellano
Juan Carlos Gómez-Verjan
Nadia A. Rojano-Vilchis
Myrna Mendoza-Cruz
Manuel Jiménez-Estrada
Héctor E. López-Valdés
Hilda Martínez-Coria
Roger Gutiérrez-Juárez
Claudia González-Espinosa
Ricardo Reyes-Chilpa
Isabel Arrieta-Cruz
Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells
Molecules
<i>Psacalium decompositum</i>
<i>Psacalium peltatum</i>
cacalol
calcium channels
maturin
reactive oxygen species
inflammation
author_facet Jorge Iván Castillo-Arellano
Juan Carlos Gómez-Verjan
Nadia A. Rojano-Vilchis
Myrna Mendoza-Cruz
Manuel Jiménez-Estrada
Héctor E. López-Valdés
Hilda Martínez-Coria
Roger Gutiérrez-Juárez
Claudia González-Espinosa
Ricardo Reyes-Chilpa
Isabel Arrieta-Cruz
author_sort Jorge Iván Castillo-Arellano
title Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells
title_short Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells
title_full Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells
title_fullStr Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells
title_full_unstemmed Chemoinformatic Analysis of Selected Cacalolides from <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell and <i>Psacalium peltatum</i> (Kunth) Cass. and Their Effects on FcεRI-Dependent Degranulation in Mast Cells
title_sort chemoinformatic analysis of selected cacalolides from <i>psacalium decompositum</i> (a. gray) h. rob. &amp; brettell and <i>psacalium peltatum</i> (kunth) cass. and their effects on fcεri-dependent degranulation in mast cells
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2018-12-01
description Cacalolides are a kind of sesquiterpenoids natural compounds synthesized by <i>Psacalium decompositum</i> (A. Gray) H. Rob. &amp; Brettell or <i>Psacalium peltatum</i> (Kunth) Cass. Antioxidant and hypoglycemic effects have been found for cacalolides such as cacalol, cacalone or maturine, however, their effects on inflammatory processes are still largely unclear. The main aim of this study was to investigate the biological activities of secondary metabolites from <i>P. decompositum</i> and <i>P. peltatum</i> through two approaches: (1) chemoinformatic and toxicoinformatic analysis based on ethnopharmacologic background; and (2) the evaluation of their potential anti-inflammatory/anti-allergic effects in bone marrow-derived mast cells by IgE/antigen complexes. The bioinformatics properties of the compounds: cacalol; cacalone; cacalol acetate and maturin acetate were evaluated through Osiris DataWarrior software and Molinspiration and PROTOX server. In vitro studies were performed to test the ability of these four compounds to inhibit antigen-dependent degranulation and intracellular calcium mobilization, as well as the production of reactive oxygen species in bone marrow-derived mast cells. Our findings showed that cacalol displayed better bioinformatics properties, also exhibited a potent inhibitory activity on IgE/antigen-dependent degranulation and significantly reduced the intracellular calcium mobilization on mast cells. These data suggested that cacalol could reduce the negative effects of the mast cell-dependent inflammatory process.
topic <i>Psacalium decompositum</i>
<i>Psacalium peltatum</i>
cacalol
calcium channels
maturin
reactive oxygen species
inflammation
url https://www.mdpi.com/1420-3049/23/12/3367
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