A Plasmodium falciparum lysophospholipase regulates fatty acid acquisition for membrane biogenesis to enable schizogonic asexual division

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Plasmodium falciparum lysophospholipase 3 (PfLPL3) regulates fatty acid acquisition for neutral and phospholipid synthesis, essential for membrane biogenesis and parasite propagation during asexual blood stages.

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Abstract

Phospholipid metabolism is crucial for membrane biogenesis and homeostasis during the intracellular life cycle of Plasmodium falciparum. To generate large amounts of phospholipids required during blood stages, the parasite massively scavenge, recycle and reassemble host lipids. P. falciparum possesses an unusual large number of lysophospholipases. However, their functional roles and importance remain to be elucidated. Here, we functionally characterized one of P. falciparum lysophospholipase (PfLPL3) (Gene ID PF3D7_1476800), to reveal its critical role in parasite propagation during asexual blood stages. We generated a transgenic parasite line using GFP-glmS C-terminal tagging approach, for localization as well as inducible knockdown of PfLPL3. PfLPL3 displayed a dynamic localization throughout asexual stages, mainly localizing in the host parasite interface: parasitophorous vacuole space and expanding into the tubulovesicular network within the host cell. Inducible knock-down of PfLPL3 hindered normal intraerythrocytic cycle, specifically causing disruption in parasite development from trophozoites to schizont, as well as reduction in number of merozoites progenies. Thus, down-regulation of PfLPL3 significantly inhibited parasite growth suggesting its critical role for proper parasite propagation during blood stages. Detailed lipidomic analyses showed that PfLPL3 generates fatty-acids for the synthesis of neutral lipids DAG and TAG, whilst controlling the timely synthesis of phospholipids that are crucial for membrane biogenesis required for merozoite development during asexual cycle. Setting up an in vitro activity based screening of Malaria Box allowed identification of specific inhibitors of PfLPL3 having potent parasitical efficacies. These compounds are pertinent both as anti-malarial drug candidates and chemical tools specifically targeting membrane biogenesis during asexual blood stages.

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