Abstract
Despite an unprecedented 2 decades of success, the combat against malaria - the mosquito-transmitted disease caused by Plasmodium parasites - is no longer progressing. Efforts toward eradication are threatened by the lack of an effective vaccine and a rise in antiparasite drug resistance. Alternative approaches are urgently needed. Repurposing of available, approved drugs with distinct modes of action are being considered as viable and immediate adjuncts to standard antimicrobial treatment. Such strategies may be well suited to the obligatory and clinically silent first phase of Plasmodium infection, where massive parasite replication occurs within hepatocytes in the liver. Here, we report that the widely used antidiabetic drug, metformin, impairs parasite liver stage development of both rodent-infecting Plasmodium berghei and human-infecting P. falciparum parasites. Prophylactic treatment with metformin curtails parasite intracellular growth in vitro. An additional effect was observed in mice with a decrease in the numbers of infected hepatocytes. Moreover, metformin provided in combination with conventional liver- or blood-acting antimalarial drugs further reduced the total burden of P. berghei infection and substantially lessened disease severity in mice. Together, our findings indicate that repurposing of metformin in a prophylactic regimen could be considered for malaria chemoprevention.
Highlights
Malaria continues to be a global health problem, limiting economic growth and progress in high-burden communities
Summary of C57BL/6 mice infected with GFP-expressing P. berghei sporozoites and treated with metformin, primaquine, and mefloquine, alone or in combination as described in Figures 1 and 3
Prepatency was determined by detecting the presence of GFP+ red blood cells via flow cytometry analysis
Summary
Malaria continues to be a global health problem, limiting economic growth and progress in high-burden communities. Malaria infection begins in the liver, an obligatory step where mosquito-delivered Plasmodium sporozoites invade hepatocytes and replicate within a parasitophorous vacuole. This affords the parasite the protection and resources to multiply from 1 initial infectious parasite into thousands of daughter merozoites. These are released to the bloodstream and go on to infect erythrocytes, commencing the symptomatic, cyclic, and pathogenic blood stage of infection [2]. The liver stage of malaria infection is important for development of sterile immunity and holds promise for vaccine development [3]
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