Fiche publication
Date publication
mars 2022
Journal
Molecules (Basel, Switzerland)
Auteurs
Membres identifiés du Cancéropôle Est :
Pr BOSCHI-MULLER Sandrine
,
Pr JOUZEAU Jean-Yves
,
Dr RAHUEL-CLERMONT Sophie
Tous les auteurs :
Marques RV, Sestito SE, Bourgaud F, Miguel S, Cailotto F, Reboul P, Jouzeau JY, Rahuel-Clermont S, Boschi-Muller S, Simonsen HT, Moulin D
Lien Pubmed
Résumé
Bryophytes produce rare and bioactive compounds with a broad range of therapeutic potential, and many species are reported in ethnomedicinal uses. However, only a few studies have investigated their potential as natural anti-inflammatory drug candidate compounds. The present study investigates the anti-inflammatory effects of thirty-two species of bryophytes, including mosses and liverworts, on Raw 264.7 murine macrophages stimulated with lipopolysaccharide (LPS) or recombinant human peroxiredoxin (hPrx1). The 70% ethanol extracts of bryophytes were screened for their potential to reduce the production of nitric oxide (NO), an important pro-inflammatory mediator. Among the analyzed extracts, two moss species significantly inhibited LPS-induced NO production without cytotoxic effects. The bioactive extracts of and inhibited NO production in a concentration-dependent manner with IC values of 1.04 and 1.54 µg/mL, respectively. The crude 70% ethanol and ethyl acetate extracts were then partitioned with different solvents in increasing order of polarity (n-hexane, diethyl ether, chloroform, ethyl acetate, and n-butanol). The fractions were screened for their inhibitory effects on NO production stimulated with LPS at 1 ng/mL or 10 ng/mL. The NO production levels were significantly affected by the fractions of decreasing polarity such as n-hexane and diethyl ether ones. Therefore, the potential of these extracts to inhibit the LPS-induced NO pathway suggests their effective properties in attenuating inflammation and could represent a perspective for the development of innovative therapeutic agents.
Mots clés
Dicranum majus, Thuidium delicatulum, anti-inflammatory activity, bryophytes, mosses, nitric oxide
Référence
Molecules. 2022 Mar 17;27(6):