The kinetics of uptake and accumulation of 3,6-bis-ω-diethylamino-amyloxyxanthone by the human malaria parasite Plasmodium falciparum

Jane Xu Kelly; R. W. Winter; Anda Cornea; David H. Peyton; David J. Hinrichs; Michael Riscoe

doi:10.1016/S0166-6851(02)00118-4

The kinetics of uptake and accumulation of 3,6-bis-ω-diethylamino-amyloxyxanthone by the human malaria parasite Plasmodium falciparum

Jane Xu Kelly, R. W. Winter, Anda Cornea, David H. Peyton, David J. Hinrichs, Michael Riscoe

Molecular Microbiology and Immunology

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Malarial parasites rely on the digestion of hemoglobin during the intra-erythrocytic stage. The enzymatic degradation of hemoglobin yields amino acids for parasite survival, and free heme which is detoxified by conversion to an aggregate of dimeric heme known as hemozoin. Xanthones have been found to subvert this process by formation of soluble drug-heme complexes. We have optimized the simple hydroxyxanthone structure to include side chains with protonatable nitrogen atoms to enhance interaction with the propionate groups of heme and to target the drug to the parasite digestive vacuole. One member of this optimized class of compounds, 3,6-bis-ω-diethylaminoamyloxyxanthone (C5), was used as a prototype for mechanistic studies. By HPLC analysis we demonstrate that the drug accumulates in the digestive vacuole from 5 to ∼33 000 μM within 1 h of exposure to parasitized red cells. Confocal fluorescence microscopy was used to visualize the accumulation process directly and to document the colocalization of the drug with the acidophilic dye, LysoTracker Red.

Original language	English (US)
Pages (from-to)	47-54
Number of pages	8
Journal	Molecular and Biochemical Parasitology
Volume	123
Issue number	1
DOIs	https://doi.org/10.1016/S0166-6851(02)00118-4
State	Published - Aug 7 2002

Keywords

Chemotherapy
Confocal fluorescence microscopy
Digestive vacuole
Heme
Hemozoin
Malaria
Plasmodium falciparum
Xanthone

ASJC Scopus subject areas

Parasitology
Molecular Biology

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10.1016/S0166-6851(02)00118-4

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title = "The kinetics of uptake and accumulation of 3,6-bis-ω-diethylamino-amyloxyxanthone by the human malaria parasite Plasmodium falciparum",

abstract = "Malarial parasites rely on the digestion of hemoglobin during the intra-erythrocytic stage. The enzymatic degradation of hemoglobin yields amino acids for parasite survival, and free heme which is detoxified by conversion to an aggregate of dimeric heme known as hemozoin. Xanthones have been found to subvert this process by formation of soluble drug-heme complexes. We have optimized the simple hydroxyxanthone structure to include side chains with protonatable nitrogen atoms to enhance interaction with the propionate groups of heme and to target the drug to the parasite digestive vacuole. One member of this optimized class of compounds, 3,6-bis-ω-diethylaminoamyloxyxanthone (C5), was used as a prototype for mechanistic studies. By HPLC analysis we demonstrate that the drug accumulates in the digestive vacuole from 5 to ∼33 000 μM within 1 h of exposure to parasitized red cells. Confocal fluorescence microscopy was used to visualize the accumulation process directly and to document the colocalization of the drug with the acidophilic dye, LysoTracker Red.",

keywords = "Chemotherapy, Confocal fluorescence microscopy, Digestive vacuole, Heme, Hemozoin, Malaria, Plasmodium falciparum, Xanthone",

author = "Kelly, {Jane Xu} and Winter, {R. W.} and Anda Cornea and Peyton, {David H.} and Hinrichs, {David J.} and Michael Riscoe",

note = "Funding Information: This project received financial support from the Collins Medical Trust of Oregon (R. Winter), the Medical Research Foundation of Oregon (M.K. Riscoe), the Merit Review Program of the Department of Veterans Affairs (M.K. Riscoe and D.J. Hinrichs) and from Interlab Corporation (Lake Oswego, OR).",

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AU - Kelly, Jane Xu

AU - Winter, R. W.

AU - Cornea, Anda

AU - Peyton, David H.

AU - Hinrichs, David J.

AU - Riscoe, Michael

N1 - Funding Information: This project received financial support from the Collins Medical Trust of Oregon (R. Winter), the Medical Research Foundation of Oregon (M.K. Riscoe), the Merit Review Program of the Department of Veterans Affairs (M.K. Riscoe and D.J. Hinrichs) and from Interlab Corporation (Lake Oswego, OR).

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N2 - Malarial parasites rely on the digestion of hemoglobin during the intra-erythrocytic stage. The enzymatic degradation of hemoglobin yields amino acids for parasite survival, and free heme which is detoxified by conversion to an aggregate of dimeric heme known as hemozoin. Xanthones have been found to subvert this process by formation of soluble drug-heme complexes. We have optimized the simple hydroxyxanthone structure to include side chains with protonatable nitrogen atoms to enhance interaction with the propionate groups of heme and to target the drug to the parasite digestive vacuole. One member of this optimized class of compounds, 3,6-bis-ω-diethylaminoamyloxyxanthone (C5), was used as a prototype for mechanistic studies. By HPLC analysis we demonstrate that the drug accumulates in the digestive vacuole from 5 to ∼33 000 μM within 1 h of exposure to parasitized red cells. Confocal fluorescence microscopy was used to visualize the accumulation process directly and to document the colocalization of the drug with the acidophilic dye, LysoTracker Red.

AB - Malarial parasites rely on the digestion of hemoglobin during the intra-erythrocytic stage. The enzymatic degradation of hemoglobin yields amino acids for parasite survival, and free heme which is detoxified by conversion to an aggregate of dimeric heme known as hemozoin. Xanthones have been found to subvert this process by formation of soluble drug-heme complexes. We have optimized the simple hydroxyxanthone structure to include side chains with protonatable nitrogen atoms to enhance interaction with the propionate groups of heme and to target the drug to the parasite digestive vacuole. One member of this optimized class of compounds, 3,6-bis-ω-diethylaminoamyloxyxanthone (C5), was used as a prototype for mechanistic studies. By HPLC analysis we demonstrate that the drug accumulates in the digestive vacuole from 5 to ∼33 000 μM within 1 h of exposure to parasitized red cells. Confocal fluorescence microscopy was used to visualize the accumulation process directly and to document the colocalization of the drug with the acidophilic dye, LysoTracker Red.

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KW - Confocal fluorescence microscopy

KW - Digestive vacuole

KW - Heme

KW - Hemozoin

KW - Malaria

KW - Plasmodium falciparum

KW - Xanthone

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The kinetics of uptake and accumulation of 3,6-bis-ω-diethylamino-amyloxyxanthone by the human malaria parasite Plasmodium falciparum

Abstract

Keywords

ASJC Scopus subject areas

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