Decoding substrate recognition in malapain-2 through structural and mutational insights
Sian D’silva, Hương Giang Lȇ, Byoung-Kuk Na, Soumyananda Chakraborti

TL;DR
The study explores how malapain-2, a protease from Plasmodium malariae, recognizes substrates, revealing differences from similar enzymes in other malaria parasites.
Contribution
The study identifies structural and mutational features in malapain-2 that explain its unique substrate specificity compared to FP-2A.
Findings
MP-2 prefers arginine at the P2 position, unlike FP-2A which prefers hydrophobic residues.
Structural differences in the S2 sub-pocket of MP-2 account for its distinct substrate preference.
Mutagenesis and simulations confirm the role of specific residues in substrate accommodation.
Abstract
Cysteine proteases of the falcipain (FP) family are essential for the survival and pathogenicity of Plasmodium parasites and represent promising targets for antimalarial drug development. These enzymes mediate haemoglobin degradation during the intraerythrocytic stage, providing nutrients and facilitating parasite growth. While FP-family proteases from P. falciparum (e.g., FP-2A and FP-3) are well-characterized, their orthologs in less-studied species like P. malariae remain poorly understood. Given the rising concern over drug-resistant malaria and mixed-species infections, targeting diverse FP-family ortholog enzymes in other human malaria parasites is a timely and promising therapeutic strategy. In this study, we investigated malapain-2 (MP-2), a cysteine protease from P. malariae belonging to the FP-2A/FP-3 subfamily, with the aim of characterizing its substrate specificity and…
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Taxonomy
TopicsCalpain Protease Function and Regulation · RNA regulation and disease · interferon and immune responses
