AI Article Synopsis
- The study investigated the role of the major metabolite of artemisinin (ART), 10β-hydroxyartemisinin (ART-M), in its effectiveness against malaria.
- Both ART and ART-M were tested against two strains of Plasmodium, with results showing that although ART-M had a weaker direct potency, it achieved higher concentrations in the body.
- The findings suggest that ART-M plays a significant role in the overall efficacy of ART, highlighting the importance of considering this metabolite in treatment protocols.
Article Abstract
Background: The most widely used anti-malarial drug artemisinin (ART) is metabolized extensively, but the therapeutic capacity of its major metabolite remains unknown. Whether the major metabolite of ART (ART-M) contributes to its antiplasmodial potency was investigated in this study.
Methods: The metabolite identification and enzyme phenotyping of ART were performed using human liver microsomes (HLMs). The stereostructure of the major metabolite ART-M was elucidated by spectroscopic and X-ray crystallographic analysis. The anti-malarial activity of ART-M against two reference Plasmodium strains (Pf3D7 and PfDd2) was evaluated. The pharmacokinetic profiles of ART and its metabolite ART-M were investigated in healthy Chinese subjects after a recommended two-day oral dose of ART plus piperaquine. Pharmacodynamic parameters based on minimum inhibitory concentration (MIC) and free plasma concentration were employed to evaluate the therapeutic potency of ART-M, including fAUC/MIC, fC/MIC and T > MIC.
Results: A major metabolite 10β-hydroxyartemisinin (ART-M) was found for ART in human, and CYP3A4/3A5 was the major enzymes responsible for ART 10β-hydroxylation. Compared with ART (MIC, 10.1 nM against Pf3D7), weaker antiplasmodial activity was found for ART-M (MIC, 61.4 nM against Pf3D7). However, a 3.5-fold higher maximal free plasma concentration was achieved for ART-M (fC, 180.0 nM vs. 51.8 nM for ART). ART-M displayed comparable antiplasmodial potency to ART, in terms of fAUC/MIC (12.5 h), fC/MIC (2.8) and T > MIC (5 h).
Conclusions: The major metabolite 10β-hydroxyartemisinin contributes to the antiplasmodial efficacy of ART, which should be considered when evaluation of ART dosing regimens and/or clinical outcomes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11539713 | PMC |
| http://dx.doi.org/10.1186/s12936-024-05163-y | DOI Listing |
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