Abstract
The intraerythrocytic Plasmodium falciparum parasite converts most of host hemoglobin heme into a nontoxic heme crystal. Erythrocyte zinc protoporphyrin IX, normally present at 0.5 µM, which is a ratio of 1:40000 hemes, can elevate 10-fold in some of the anemias associated with malaria disease protection. This work examines a binding mechanism for zinc protoporphyrin IX inhibition of heme crystallization similar to the antimalarial quinolines. Zinc protoporphyrin IX neither forms crystals alone nor extends on preformed heme crystals. Inhibition of both seed heme crystal formation and crystal extension occurs with an inhibitory concentration (IC)50 of 5 µM. Field emission in-lens scanning electron microscopy depicts the transition and inhibition of heme monomer aggregates to heme crystals with and without seeding of preformed hemozoin templates. In vitro zinc protoporphyrin IX, like the quinolines, binds to heme crystals in a saturable, specific, pH, and time-dependent manner. The ratio at saturation is approximately 1 zinc protoporphyrin IX per 250 hemes of the crystal. Unlike the quinolines, zinc protoporphyrin IX binds measurably in the absence of heme. Isolated ring and trophozoite stage parasites have an elevated zinc protoporphyrin IX to heme ratio 6 to 10 times that in the erythrocyte cytosol, which also corresponds to elevated ratios found in heme crystals purified from Plasmodium parasites. This work implicates protection from malaria by a mechanism where elevated zinc protoporphyrin IX in anemic erythrocytes binds to heme crystals to inhibit further crystallization. In endemic malaria areas, severe iron deficiency anemia should be treated with antimalarials along with iron replenishment.
Highlights
During the erythrocytic stages of its infection, the malaria parasite degrades host hemoglobin to acquire essential amino acids [1,2]
Inhibition of this free heme or iron protoporphyrin IX (FePPIX) crystallization accounts for the mechanism by which the antimalarial quinolines act [5], controversy still exists over the exact mechanism of action of crystal inhibition after the quinolines 1st bind to FePPIX [6,7,8,9]
This work demonstrates a role for the naturally occurring Zinc protoporphyrin IX (ZnPPIX) in erythrocytes to inhibit FePPIX crystallization in Plasmodium by binding to the surface of FePPIX crystals
Summary
During the erythrocytic stages of its infection, the malaria parasite degrades host hemoglobin to acquire essential amino acids [1,2]. Toxic free heme or iron protoporphyrin IX (FePPIX), a byproduct of this proteolysis, is not catabolized by heme oxygenase as it is in mammalian cells, but instead is converted into a unique FePPIX crystal called hemozoin [3,4]. Inhibition of this FePPIX crystallization accounts for the mechanism by which the antimalarial quinolines act [5], controversy still exists over the exact mechanism of action of crystal inhibition after the quinolines 1st bind to FePPIX [6,7,8,9]. This observation may explain why quinidine is a more potent in vitro crystallization inhibitor than chloroquine, despite having a lower FePPIX affinity [8]
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