Defense Peptides Engineered from Human Platelet Factor 4 Kill Plasmodium by Selective Membrane Disruption

Cell Chemical Biology
Nicole LawrenceBrendan J McMorran

Abstract

Malaria is a serious threat to human health and additional classes of antimalarial drugs are greatly needed. The human defense protein, platelet factor 4 (PF4), has intrinsic antiplasmodial activity but also undesirable chemokine properties. We engineered a peptide containing the isolated PF4 antiplasmodial domain, which through cyclization, retained the critical structure of the parent protein. The peptide, cPF4PD, killed cultured blood-stage Plasmodium falciparum with low micromolar potency by specific disruption of the parasite digestive vacuole. Its mechanism of action involved selective penetration and accumulation inside the intraerythrocytic parasite without damaging the host cell or parasite membranes; it did not accumulate in uninfected cells. This selective activity was accounted for by observations of the peptide's specific binding and penetration of membranes with exposed negatively charged phospholipid headgroups. Our findings highlight the tremendous potential of the cPF4PD scaffold for developing antimalarial peptide drugs with a distinct and selective mechanism of action.

Citations

Oct 30, 2020·Arteriosclerosis, Thrombosis, and Vascular Biology·Irina Portier, Robert A Campbell
Feb 4, 2021·ACS Chemical Biology·Grégoire J-B PhilippeSónia T Henriques
Mar 30, 2021·Frontiers in Cellular and Infection Microbiology·Coralie BouletTeresa G Carvalho

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