Identification of Bioactive Metabolites of <i>Capirona macrophylla</i> by Metabolomic Analysis, Molecular Docking, and In Vitro Antiparasitic Assays

Identification of Bioactive Metabolites of <i>Capirona macrophylla</i> by Metabolomic Analysis, Molecular Docking, and In Vitro Antiparasitic Assays

<i>Capirona macrophylla</i> is a Rubiaceae known as “mulateiro”. Ethnobotanical extracts have been used for skin treatment and in the management of leishmaniasis and malaria. Objectives: The metabolites in aqueous extracts from wood bark, leaves, and stems were identified, and their in s...

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Main Authors: Joseph Evaristo, Elise de Laia, Bruna Tavares, Esdras Mendonça, Larissa Grisostenes, Caroline Rodrigues, Welington do Nascimento, Carolina Garcia, Sheila Guterres, Fábio Nogueira, Fernando Zanchi, Geisa Evaristo
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Metabolites
Subjects:
mulateiro
tropical diseases
UHPLC/HRMS<sup>n</sup>
GNPS
in silico assay
Online Access:https://www.mdpi.com/2218-1989/15/3/157
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Summary:<i>Capirona macrophylla</i> is a Rubiaceae known as “mulateiro”. Ethnobotanical extracts have been used for skin treatment and in the management of leishmaniasis and malaria. Objectives: The metabolites in aqueous extracts from wood bark, leaves, and stems were identified, and their in silico docking and in vitro cellular efficacy against <i>Leishmania amazonensis</i> and <i>Plasmodium falciparum</i> were evaluated. Methods: The extracts were analyzed by UHPLC/HRMS<sup>n</sup> using untargeted metabolomics approach with MSDial, MSFinder, and GNPS software for metabolite identification and spectra clustering. The most abundant metabolites underwent molecular docking using AutoDock via PyRx, targeting the dihydroorotate dehydrogenase from <i>Leishmania</i> and <i>P. falciparum</i>, and evaluated through molecular dynamics simulations using Gromacs. In vitro biological assays were conducted on 60 HPLC-fractions against these parasites. Results: Metabolomics analysis identified 5100 metabolites in ESI+ and 2839 in ESI− spectra among the “mulateiro” samples. GNPS clustering highlighted large clusters of quercetin and chlorogenic acid groups. The most abundant metabolites were isofraxidin, scopoletin, 5(S)-5-carboxystrictosidine, loliolide, quercetin, quinic acid, caffeoylquinic acid (and isomers), chlorogenic acid, neochlorogenic acid, tryptophan, N-acetyltryptophan, epicatechin, procyanidin, and kaempferol-3-O-robinoside-7-O-rhamnoside. Molecular docking pointed to 3,4-dicaffeoylquinic acid and kaempferol as promising inhibitors. The in vitro assays yielded four active HPLC-fractions against <i>L. amazonensis</i> with IC50 values ranging from 175.2 μg/mL to 194.8 μg/mL, and fraction G29 showed an IC50 of 119.8 μg/mL against <i>P. falciparum</i>. Conclusions: The ethnobotanical use of “mulateiro” wood bark tea as an antimalarial and antileishmanial agent was confirmed through in vitro assays. We speculate that these activities are attributed to linoleic acids and quinic acids.
ISSN:2218-1989

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