Abstract
Plasmepsin II (PM II) is an aspartic protease active in hemoglobin (Hb) degradation in the protozoan parasite Plasmodium falciparum. A fluorescence-quenched octapeptide substrate based on the initial hemoglobin cleavage site is recognized well by PM II. C-terminal extension of this peptide has little effect, but N-terminal extension results in higher maximal velocity and dramatic concentration-dependent substrate inhibition. This inhibition, but not the rate stimulation, depends on the presence of a DABCYL group on the peptide N terminus. Using site-directed mutagenesis, we have identified PM II residues that interact with N-terminal amino acids of peptide substrates. The same residues influence degradation of Hb by PM II. Cathepsin E (CatE), a related mammalian aspartic protease, is also stimulated by N-terminally extended substrates. This suggests that distal substrate interactions as far out as P6 may be a general property of aspartic proteases and may be important in substrate and inhibitor recognition. Although PM II and CatE are similar in their ability to cleave Hb-based peptides and Hb alpha-chains, CatE is not able to degrade native Hb, which is a substrate for PM II. Based on these results, we propose that PM II may have the special feature of being a Hb denaturase.
Highlights
Aspartic proteases may be especially important for the survival of the parasite because inhibitors specific for this class of enzymes kill parasites early in their erythrocytic life cycle [5, 8]
We have identified Plasmepsin II (PM II) residues that interact with N-terminal amino acids of peptide substrates
PM II and Cathepsin E (CatE) are similar in their ability to cleave Hb-based peptides and Hb ␣-chains, CatE is not able to degrade native Hb, which is a substrate for PM II
Summary
Aspartic proteases may be especially important for the survival of the parasite because inhibitors specific for this class of enzymes kill parasites early in their erythrocytic life cycle [5, 8]. PM II and CatE are similar in their ability to cleave Hb-based peptides and Hb ␣-chains, CatE is not able to degrade native Hb, which is a substrate for PM II. Extending peptides beyond P4Ј did not result in either rate stimulation or substrate inhibition (Fig. 2B).
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