The effect of artemisinin on the ph of plasmodium falciparum digestive vacuole
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Date
2020-06
Authors
Ibrahim, Nadiah
Journal Title
Journal ISSN
Volume Title
Publisher
Pusat Pengajian Sains Kesihatan, Universiti Sains Malaysia
Abstract
Artemisinin, a highly potent antimalarial drug is widely used due to the
rapid killing of Plasmodium parasites. However, artemisinin has been reported to
have reduced susceptibility against P. falciparum in Southeast Asia demanding for
new antimalarial drugs that have a similar mode of action with artemisinin. To date,
the precise mechanism of action of artemisinin remains disputable despite decades of
research. Recent evidence showed that artemisinin might have a direct inhibition of
proton pump, V-type H+-ATPase located on the membrane of parasite’s digestive
vacuole, in which the inhibition causes pH alteration in the acidic organelle. Hence,
the pH of the digestive vacuole of parasites treated with artemisinin was measured in
this study by using flow cytometry. The flow cytometry-based assay was optimised
to measure the digestive vacuole pH using a ratiometric pH indicator, fluorescein
isothiocyanate (FITC)-dextran loaded into the parasite’s digestive vacuole. A
standard pH calibration curve is generated by using the isolated trophozoite stage
parasites suspended in buffers with different pH in the presence of an ionophore,
carbonyl-cyanide m-chlorophenylhydrazone (CCCP). Without CCCP, the steadystate
digestive vacuole pH showed an acidic value of 5.42 ± 0.11. Next, the
antimalarial activity of artemisinin was evaluated by using a 4-hour drug pulse assay
to determine the 50% inhibitory concentration (IC50-4 hours) and sub-lethal concentrations
(caused less than 25% parasite death). Mid ring stage parasites were pulsed with
different concentrations of artemisinin (0-1000 nM) for 4 hours (mimic in vivo
exposure) and then washed to remove the drugs. The parasite cultures were
continually cultured for 24 hours to examine its growth and 48 hours to examine its
viability. Sub-lethal concentrations (15 and 30 nM) were selected from this study to
ensure the digestive vacuole pH change observed in the subsequent experiment was
not due to parasite death. Using the similar assay of 4-hour drug pulse on mid ring
stage parasites, the sub-lethal concentrations increased the digestive vacuole pH by
0.49 (15 nM, pH = 5.7 ± 0.1) and 1.56 pH unit (30 nM, pH = 6.77 ± 0.48),
respectively as compared with the untreated parasites (pH = 5.21 ± 0.04). The same
assay was performed at mid trophozoite stage parasites to enable direct measurement
of the digestive vacuole pH. The pH of the digestive vacuole was increased by 1 (15
nM, pH = 6.6 ± 0.1) and 1.48 pH unit (30 nM, pH = 7.1 ± 0.08), respectively as
compared with the untreated parasites (pH = 5.6 ± 0.1). A similar result of the
digestive vacuole pH alteration caused by a standard V-type H+-ATPase inhibitor,
concanamycin A was observed (pH = 7.4 ± 0.1). In conclusion, the result showed
that artemisinin, like concanamycin A may inhibit the V-type H+-ATPase, which
caused the pH alteration in the digestive vacuole. The flow cytometry-based assay in
this study provides a simple and accurate model for the measurement of digestive
vacuole pH with a simultaneous evaluation on parasite growth and viability
following treatment with other antimalarial drugs.
Description
Keywords
Artemisinin