Dual-Luciferase-Based Fast and Sensitive Detection of Malaria Hypnozoites for the Discovery of Anti-relapse Compounds.

Malaria hypnozoites are dormant parasite stages that reside inside hepatocytes. Upon activation, these stages can resume growth, causing new episodes of blood stage malaria infection. This chapter describes a fast and sensitive protocol for the detection of bioluminescent (BL) hypnozoites in vitro. Using transgenic Plasmodium cynomolgi parasites that differentially express the BL reporter proteins firefly luciferase and the ultrabright NanoLuc, hypnozoites can be distinguished from liver stage schizonts. This robust method sets the stage for implementation in large-scale drug screening platforms with the aim to find new compounds that eliminate hypnozoites.

Dual-Luciferase-Based Fast and Sensitive Detection of Malaria Hypnozoites for the Discovery of Antirelapse Compounds.

Efforts to eradicate Plasmodium vivax malaria are hampered by the presence of hypnozoites, persisting stages in the liver that can reactivate after prolonged periods of time enabling further transmission and causing renewed disease. Large-scale drug screening is needed to identify compounds with antihypnozoite activity, but current platforms rely on time-consuming high-content fluorescence imaging as read-out, limiting assay throughput. We here report an ultrafast and sensitive dual-luciferase-based method to differentiate hypnozoites from liver stage schizonts using a transgenic P. cynomolgi parasite line that contains Nanoluc driven by the constitutive hsp70 promoter, as well as firefly luciferase driven by the schizont-specific lisp2 promoter. The transgenic parasite line showed similar fitness and drug sensitivity profiles of selected compounds to wild type. We demonstrate robust bioluminescence-based detection of hypnozoites in 96-well and 384-well plate formats, setting the stage for implementation in large scale drug screens.

A dual fluorescent Plasmodium cynomolgi reporter line reveals in vitro malaria hypnozoite reactivation.

Plasmodium vivax malaria is characterized by repeated episodes of blood stage infection (relapses) resulting from activation of dormant stages in the liver, so-called hypnozoites. Transition of hypnozoites into developing schizonts has never been observed. A barrier for studying this has been the lack of a system in which to monitor growth of liver stages. Here, exploiting the unique strengths of the simian hypnozoite model P. cynomolgi, we have developed green-fluorescent (GFP) hypnozoites that turn on red-fluorescent (mCherry) upon activation. The transgenic parasites show full liver stage development, including merozoite release and red blood cell infection. We demonstrate that individual hypnozoites actually can activate and resume development after prolonged culture, providing the last missing evidence of the hypnozoite theory of relapse. The few events identified indicate that hypnozoite activation in vitro is infrequent. This system will further our understanding of the mechanisms of hypnozoite activation and may facilitate drug discovery approaches.