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A lipocalin mediates unidirectional heme biomineralization in malaria parasites.


ABSTRACT: During blood-stage development, malaria parasites are challenged with the detoxification of enormous amounts of heme released during the proteolytic catabolism of erythrocytic hemoglobin. They tackle this problem by sequestering heme into bioinert crystals known as hemozoin. The mechanisms underlying this biomineralization process remain enigmatic. Here, we demonstrate that both rodent and human malaria parasite species secrete and internalize a lipocalin-like protein, PV5, to control heme crystallization. Transcriptional deregulation of PV5 in the rodent parasite Plasmodium berghei results in inordinate elongation of hemozoin crystals, while conditional PV5 inactivation in the human malaria agent Plasmodium falciparum causes excessive multidirectional crystal branching. Although hemoglobin processing remains unaffected, PV5-deficient parasites generate less hemozoin. Electron diffraction analysis indicates that despite the distinct changes in crystal morphology, neither the crystalline order nor unit cell of hemozoin are affected by impaired PV5 function. Deregulation of PV5 expression renders P. berghei hypersensitive to the antimalarial drugs artesunate, chloroquine, and atovaquone, resulting in accelerated parasite clearance following drug treatment in vivo. Together, our findings demonstrate the Plasmodium-tailored role of a lipocalin family member in hemozoin formation and underscore the heme biomineralization pathway as an attractive target for therapeutic exploitation.

SUBMITTER: Matz JM 

PROVIDER: S-EPMC7368307 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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A lipocalin mediates unidirectional heme biomineralization in malaria parasites.

Matz Joachim M JM   Drepper Benjamin B   Blum Thorsten B TB   van Genderen Eric E   Burrell Alana A   Martin Peer P   Stach Thomas T   Collinson Lucy M LM   Abrahams Jan Pieter JP   Matuschewski Kai K   Blackman Michael J MJ  

Proceedings of the National Academy of Sciences of the United States of America 20200629 28


During blood-stage development, malaria parasites are challenged with the detoxification of enormous amounts of heme released during the proteolytic catabolism of erythrocytic hemoglobin. They tackle this problem by sequestering heme into bioinert crystals known as hemozoin. The mechanisms underlying this biomineralization process remain enigmatic. Here, we demonstrate that both rodent and human malaria parasite species secrete and internalize a lipocalin-like protein, PV5, to control heme cryst  ...[more]

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