Abstract
Homeostasis of the trace element copper is essential to all eukaryotic life. Copper serves as a cofactor in metalloenzymes and catalyses electron transfer reactions as well as the generation of potentially toxic reactive oxygen species. Here, we describe the functional characterization of an evolutionarily highly conserved, predicted copper-transporting P-type ATPase (CuTP) in the murine malaria model parasite Plasmodium berghei. Live imaging of a parasite line expressing a fluorescently tagged CuTP demonstrated that CuTP is predominantly located in vesicular bodies of the parasite. A P. berghei loss-of-function mutant line was readily obtained and showed no apparent defect in in vivo blood stage growth. Parasite transmission through the mosquito vector was severely affected, but not entirely abolished. We show that male and female gametocytes are abundant in cutp− parasites, but activation of male microgametes and exflagellation were strongly impaired. This specific defect could be mimicked by addition of the copper chelator neocuproine to wild-type gametocytes. A cross-fertilization assay demonstrated that female fertility was also severely abrogated. In conclusion, we provide experimental genetic and pharmacological evidence that a healthy copper homeostasis is critical to malaria parasite fertility of both genders of gametocyte and, hence, to transmission to the mosquito vector.
Highlights
Copper is a trace element essential to all eukaryotic life and functions as a cofactor in many key enzymes, such as mitochondrial cytochrome c oxidase and superoxide dismutase
Homeostasis of the trace element copper is essential to all eukaryotic life
Copper serves as a cofactor in metalloenzymes and catalyses electron transfer reactions as well as the generation of potentially toxic reactive oxygen species
Summary
Copper is a trace element essential to all eukaryotic life and functions as a cofactor in many key enzymes, such as mitochondrial cytochrome c oxidase and superoxide dismutase. The relatively abundant red blood cell derived copper superoxide dismutase taken up along with haemoglobin in the parasite food vacuole was suggested as one possible source (Rasoloson et al, 2004). One or both of the putative Ctr copper transport proteins could be involved in import. Localization of the P. falciparum copper transport protein (PF3D7_1439000) to the erythrocyte and parasite plasma membranes could support a role in either import or export (Choveaux et al, 2012)
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