Localization of artesunate and its derivatives in the pregnant rat and fetus following oral administration and relationship to developmental toxicity.

BACKGROUND: The antimalarial drug artesunate affects erythroid cells leading to developmental toxicity and adult reticulocytopenia. We report on a kinetic study in rats and the tissue distribution of radioactivity following oral administration of [(3)H]-artesunate to pregnant rats using quantitative whole-body autoradiography (QWBA). METHODS: Rats were dosed orally with chlorproguanil/dapsone/artesunate (including 11.8 mg/kg artesunate) and plasma concentrations of artesunate and the active metabolite dihydroartemisinin (DHA) were determined. In the QWBA study, 6 rats received 13 mg/kg [(3)H]-artesunate on day 18 of gestation. Groups of 2 rats were euthanized at 1, 6, and 24 hours after dosing, rapidly frozen, and sectioned in a cryostat. Sagittal sections were freeze-dried and placed in contact with imaging plates. Tissue concentrations of radioactivity were quantified. RESULTS: Systemic exposure to DHA was up to 22-fold higher than the parent compound and was higher in non-pregnant females than males. In the QWBA study, high concentrations of radioactivity were seen in maternal tissues involved in absorption and excretion, the bone marrow and spleen. Fetal blood and liver levels were 3.8- to 8.8-fold higher than maternal blood levels at all timepoints. CONCLUSIONS: Excluding tissues involved in absorption and excretion, the highest concentrations of radioactivity were observed in tissues involved in hemoglobin synthesis and/or destruction in both the mother and the fetus and likely account for the maternal reticulocytopenia and embryotoxicity. Radioactivity concentrations in the fetal blood were 2.1- to 2.8-fold higher than maternal bone marrow at all timepoints and this difference could contribute to the lower dose threshold for embryotoxicity.

Developmental toxicity of artesunate in the rat: comparison to other artemisinins, comparison of embryotoxicity and kinetics by oral and intravenous routes, and relationship to maternal reticulocyte count.

BACKGROUND: The antimalarial, artesunate, is teratogenic and embryolethal in rats, with peak sensitivity on Days 10 and 11 postcoitum (pc). METHODS: We compared the developmental toxicity of structurally related artemisinins, dihdyroartemisinin (DHA), artemether (ARTM), and arteether (ARTE) to that of artesunate after oral administration to rats on Day 10 pc. In separate studies, embryolethality was characterized after single intravenous (IV) administration of artesunate on Day 11 pc, and toxicokinetic parameters following oral and IV administration were compared. Lastly, to determine whether maternal hematologic effects occurred at doses that affect embryonic erythroblasts, artesunate was orally administered on Day 11 pc at a dose that caused 100% embryolethality. RESULTS: All artemisinins caused the same pattern of embryolethality and fetal cardiovascular and skeletal abnormalities as previously shown for artesunate. In the IV study, marked postimplantation loss occurred at 1.5 and 3 mg/kg artesunate, but not at 0.75 mg/kg. Among the toxicokinetic parameters evaluated, only the DHA AUC(0-t) was similar at embryolethal oral and IV doses of artesunate. An embryolethal dose of artesunate caused a 15% decrease in maternal reticulocyte counts and no other hematologic effects. CONCLUSIONS: Several structurally related artemisinins cause similar developmental toxicity, suggesting an artemisinin class effect. Equally embryotoxic oral and IV treatments of one artemisinin compound (artesunate) produced similar systemic exposure to the artesunate metabolite, DHA, suggesting that DHA may be the proximate developmental toxicant. Embryolethal doses of artesunate only caused minor changes in maternal reticulocyte counts indicating that adult hematology parameters are not as sensitive as embryonic erythroblasts.