Poly-basic peptides and polymers as new drug candidates against Plasmodium falciparum

Sivakumar, Roshan; Floyd, Katherine; Erath, Jessey; Jacoby, Alex; Kim Kim, Jenny; Bayguinov, Peter O.; Fitzpatrick, James A. J.; Goldfarb, Dennis; Jovanovic, Marko; Tripathi, Abhai; Djuranovic, Sergej; Pavlovic-Djuranovic, Slavica

Background
Plasmodium falciparum, the malaria-causing parasite, is a leading cause of infection-induced deaths worldwide. The preferred treatment approach is artemisinin-based combination therapy, which couples fast-acting artemisinin derivatives with longer-acting drugs, such as lumefantrine, mefloquine, and amodiaquine. However, the urgency for new treatments has risen due to the parasite's growing resistance to existing therapies. In this study, a common characteristic of the P. falciparum proteome—stretches of poly-lysine residues, such as those found in proteins related to adhesion and pathogenicity—is investigated for its potential to treat infected erythrocytes.

Methods
This study utilizes in vitro culturing of intra-erythrocytic P. falciparum to assess the ability of poly-lysine peptides to inhibit the parasite’s growth, measured via flow cytometry of acridine orange-stained infected erythrocytes. The inhibitory effect of many poly-lysine lengths and modifications were tested this way. Affinity pull-downs and mass spectrometry were performed to identify the proteins interacting with these poly-lysines.

Results
A single dose of these poly-basic peptides can successfully diminish parasitemia in human erythrocytes in vitro with minimal toxicity. The effectiveness of the treatment correlates with the length of the poly-lysine peptide, with 30 lysine peptides supporting the eradication of erythrocytic parasites within 72 h. PEG-ylation of the poly-lysine peptides or utilizing poly-lysine dendrimers and polymers retains or increases parasite clearance efficiency and bolsters the stability of these potential new therapeutics. Lastly, affinity pull-downs and mass-spectrometry identify P. falciparum’s outer membrane proteins as likely targets for polybasic peptide medications.

Conclusion
Since poly-lysine dendrimers are already FDA-approved for drug delivery and this study displays their potency against intraerythrocytic P. falciparum, their adaptation as anti-malarial drugs presents a promising new therapeutic strategy for malaria.

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Also Published In

Title
Malaria Journal
DOI
https://doi.org/10.1186/s12936-024-05056-0

More About This Work

Published Here
December 27, 2024