Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.

An alternative antimalarial pathway of an 'outdated' drug, chloroquine (CQ), may facilitate its return to the shrinking list of effective antimalarials. Conventionally, CQ is believed to interfere with hemozoin formation at nanomolar concentrations, but resistant parasites are able to ef...

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Main Authors:	Ch’ng, J-H, Lee, Y-Q, Gun, SY, Chia, W-N, Chang, Z-W, Wong, L-K, Batty, KT, Russell, B, Nosten, F, Renia, L, Tan, KS-W
Format:	Article
Language:	English
Published:	2015
Subjects:	Antimalarials Chloroquine Malaria Plasmodium Open Access article
Online Access:	https://repository.li.mahidol.ac.th/handle/123456789/796
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Institution:	Mahidol University
Language:	English

id	th-mahidol.796
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spelling	th-mahidol.7962023-03-30T22:47:38Z Validation of a chloroquine-induced cell death mechanism for clinical use against malaria. Ch’ng, J-H Lee, Y-Q Gun, SY Chia, W-N Chang, Z-W Wong, L-K Batty, KT Russell, B Nosten, F Renia, L Tan, KS-W Ch’ng, J-H Mahidol University. Faculty of Tropical Medicine. Shoklo Malaria Research Unit, Mahidol-Oxford Tropical Medicine Research Unit. Antimalarials Chloroquine Malaria Plasmodium Open Access article An alternative antimalarial pathway of an 'outdated' drug, chloroquine (CQ), may facilitate its return to the shrinking list of effective antimalarials. Conventionally, CQ is believed to interfere with hemozoin formation at nanomolar concentrations, but resistant parasites are able to efflux this drug from the digestive vacuole (DV). However, we show that the DV membrane of both resistant and sensitive laboratory and field parasites is compromised after exposure to micromolar concentrations of CQ, leading to an extrusion of DV proteases. Furthermore, only a short period of exposure is required to compromise the viability of late-stage parasites. To study the feasibility of this strategy, mice malaria models were used to demonstrate that high doses of CQ also triggered DV permeabilization in vivo and reduced reinvasion efficiency. We suggest that a time-release oral formulation of CQ may sustain elevated blood CQ levels sufficiently to clear even CQ-resistant parasites. 2015-01-15T06:21:27Z 2016-10-10T09:04:54Z 2015-01-15T06:21:27Z 2016-10-10T09:04:54Z 2014 2015-01-13 2014-06 Article Ch'ng JH, Lee YQ, Gun SY, Chia WN, Chang ZW, Wong LK. et al.Validation of a chloroquine-induced cell death mechanism for clinical use against malaria. Cell Death Dis. 2014 Jun 26;5:e1305. 10.1038/cddis.2014.265. 2041-4889 (electronic) https://repository.li.mahidol.ac.th/handle/123456789/796 eng Mahidol University Cell death & disease application/pdf
institution	Mahidol University
building	Mahidol University Library
continent	Asia
country	Thailand Thailand
content_provider	Mahidol University Library
collection	Mahidol University Institutional Repository
language	English
topic	Antimalarials Chloroquine Malaria Plasmodium Open Access article
spellingShingle	Antimalarials Chloroquine Malaria Plasmodium Open Access article Ch’ng, J-H Lee, Y-Q Gun, SY Chia, W-N Chang, Z-W Wong, L-K Batty, KT Russell, B Nosten, F Renia, L Tan, KS-W Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
description	An alternative antimalarial pathway of an 'outdated' drug, chloroquine (CQ), may facilitate its return to the shrinking list of effective antimalarials. Conventionally, CQ is believed to interfere with hemozoin formation at nanomolar concentrations, but resistant parasites are able to efflux this drug from the digestive vacuole (DV). However, we show that the DV membrane of both resistant and sensitive laboratory and field parasites is compromised after exposure to micromolar concentrations of CQ, leading to an extrusion of DV proteases. Furthermore, only a short period of exposure is required to compromise the viability of late-stage parasites. To study the feasibility of this strategy, mice malaria models were used to demonstrate that high doses of CQ also triggered DV permeabilization in vivo and reduced reinvasion efficiency. We suggest that a time-release oral formulation of CQ may sustain elevated blood CQ levels sufficiently to clear even CQ-resistant parasites.
author2	Ch’ng, J-H
author_facet	Ch’ng, J-H Ch’ng, J-H Lee, Y-Q Gun, SY Chia, W-N Chang, Z-W Wong, L-K Batty, KT Russell, B Nosten, F Renia, L Tan, KS-W
format	Article
author	Ch’ng, J-H Lee, Y-Q Gun, SY Chia, W-N Chang, Z-W Wong, L-K Batty, KT Russell, B Nosten, F Renia, L Tan, KS-W
author_sort	Ch’ng, J-H
title	Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
title_short	Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
title_full	Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
title_fullStr	Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
title_full_unstemmed	Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
title_sort	validation of a chloroquine-induced cell death mechanism for clinical use against malaria.
publishDate	2015
url	https://repository.li.mahidol.ac.th/handle/123456789/796
_version_	1763490720628342784

Validation of a chloroquine-induced cell death mechanism for clinical use against malaria.

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