Advances in Pharmacological and Pharmaceutical Sciences (Jan 2023)

Toxicity, Antibacterial, and Phytochemical Analyses of Antrocaryon klaineanum Pierre Extracts

  • Cédric Sima Obiang,
  • Thiery Ndong Mba,
  • Joseph Privat Ondo,
  • Rick Léonid Ngoua Meye Misso,
  • Juliette Ornely Orango Bourdette,
  • Elvis Otogo N’Nang,
  • Joefred Mbogho Abogho,
  • Elvis Jolinom Mbot,
  • Louis Clément Obame Engonga,
  • Edouard Nsi Emvo

DOI
https://doi.org/10.1155/2023/9304681
Journal volume & issue
Vol. 2023

Abstract

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Medicinal plants are traditionally used in Gabon to treat several types of illnesses. The study’s purpose was to determine the toxic, antibacterial, and anti-inflammatory effects of Antrocaryon klaineanum Pierre extracts and to characterize their phytochemical compounds. Toxicity was evaluated on frog tadpoles (Phrynobatrachus africanus Hallowell). The microorganism susceptibility test was performed by the diffusion method, while minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) were evaluated using the microdilution technique. Anti-inflammatory activity was tested through protein denaturation and membrane stabilization methods. Chromatography and molecular network techniques were used to characterize chemical compounds. The lethality test showed that the lethal concentration (LC50) increased from 110.03 ± 1.25 to 15.86 ± 2.21 μg/mL after 24 and 96 hours of exposure. In tadpoles exposed to 7.81 μg/mL extract, the first mortalities (12.5%) were observed on the fifth day of exposure. A relative decrease in mature erythrocytes exposed to plant extracts was observed. The antibacterial activity shows that the Ak F2, Ak F3, and Ak F4 fractions (from the water-ethanol crude extract) gave the greatest antibacterial activities compared to the other extracts. The water, water-acetone, and water-ethanol extracts showed good inhibition of denaturation. The haemolysis test shows that the extracts exhibited good anti-inflammatory activities. Phytochemical characterisation revealed four major compounds, including monogallate epicatechin and hydroxy-ergostadian. The molecular network revealed five main clusters. Our study shows that A. klaineanum Pierre could be a promising natural product for the isolation of molecules with potential biological activities.