Alíz T.Y. Owolabi scite author profile

Background: Rapid asexual replication of blood stage malaria parasites is responsible for the severity of disease symptoms and fuels the production of transmission forms. Here, we demonstrate that the Plasmodium chabaudi’s schedule for asexual replication can be orchestrated by isoleucine, a metabolite provided to the parasite in periodic manner due to the host’s rhythmic intake of food. Methods: We infect female C57BL/6 and Per1/2-null TTFL clock-disrupted mice with 1×105 red blood cells containing P. chabaudi (DK genotype). We perturb the timing of rhythms in asexual replication and host feeding-fasting cycles to identify nutrients with rhythms that match all combinations of host and parasite rhythms. We then test whether perturbing the availability of the best candidate nutrient in vitro elicits changes their schedule for asexual development. Results: Our large-scale metabolomics experiment and follow up experiments reveal that only one metabolite - the amino acid isoleucine – fits criteria for a time-of-day cue used by parasites to set the schedule for replication. The response to isoleucine is a parasite strategy rather than solely the consequences of a constraint imposed by host rhythms, because unlike when parasites are deprived of other essential nutrients, they suffer no apparent costs from isoleucine withdrawal. Conclusions: Overall, our data suggest parasites can use the daily rhythmicity of blood-isoleucine concentration to synchronise asexual development with the availability of isoleucine, and potentially other resources, that arrive in the blood in a periodic manner due to the host’s daily feeding-fasting cycle. Identifying both how and why parasites keep time opens avenues for interventions; interfering with the parasite’s time-keeping mechanism may stall replication, increasing the efficacy of drugs and immune responses, and could also prevent parasites from entering dormancy to tolerate drugs.

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Daily rhythms of both host and parasite affect antimalarial drug efficacy

Owolabi

Reece

Schneider

2021

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Background and objectives Circadian rhythms contribute to treatment efficacy in several non-communicable diseases. However, chronotherapy (administering drugs at a particular time-of-day) against infectious diseases has been overlooked. Yet, the daily rhythms of both hosts and disease-causing agents can impact the efficacy of drug treatment. We use the rodent malaria parasite Plasmodium chabaudi, to test if the daily rhythms of hosts, parasites, and their interactions, affect sensitivity to the key antimalarial, artemisinin. Methodology Asexual malaria parasites develop rhythmically in the host’s blood, in a manner timed to coordinate with host daily rhythms. Our experiments coupled or decoupled the timing of parasite and host rhythms, and we administered artemisinin at different times of day to coincide with when parasites were either at an early (ring) or later (trophozoite) developmental stage. We quantified the impacts of parasite developmental stage, and alignment of parasite and host rhythms, on drug sensitivity. Results We find that rings were less sensitive to artemisinin than trophozoites, and this difference was exacerbated when parasite and host rhythms were misaligned, with little direct contribution of host time-of-day on its own. Furthermore, the blood concentration of haem at the point of treatment correlated positively with artemisinin efficacy but only when parasite and host rhythms were aligned. Conclusions and implications Parasite rhythms influence drug sensitivity in vivo. The hitherto unknown modulation by alignment between parasite and host daily rhythms suggests that disrupting the timing of parasite development could be a novel chronotherapeutic approach. Lay Summary We reveal that chronotherapy (providing medicines at a particular time-of-day) could improve treatment for malaria infections. Specifically, parasites’ developmental stage at the time of treatment and the coordination of timing between parasite and host both affect how well antimalarial drug treatment works.

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Synchrony between daily rhythms of malaria parasites and hosts is driven by an essential amino acid

Prior

Middleton

Owolabi

et al. 2020

Preprint

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The replication of blood-stage malaria parasites is synchronised to the host’s daily feeding rhythm. We demonstrate that a metabolite provided to the parasite from the host’s food can set the schedule for Plasmodium chabaudi’s intraerythrocytic development cycle (IDC). First, a large-scale screen reveals multiple rhythmic metabolites in the blood that match the timing of the IDC, but only one - the amino acid isoleucine - that malaria parasites must scavenge from host food. Second, perturbing the timing of isoleucine provision and withdrawal demonstrate that parasites use isoleucine to schedule and synchronise their replication. Thus, periodicity in the concentration of isoleucine in the blood, driven by host-feeding rhythms, explains why timing is beneficial to the parasite and how it coordinates with host rhythms. Blood-stage replication of malaria parasites is responsible for the severity of disease symptoms and fuels transmission; disrupting metabolite-sensing by parasites offers a novel intervention to reduce parasite fitness.

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Alíz T.Y. Owolabi

Synchrony between daily rhythms of malaria parasites and hosts is driven by an essential amino acid

Daily rhythms of both host and parasite affect antimalarial drug efficacy

Synchrony between daily rhythms of malaria parasites and hosts is driven by an essential amino acid

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