Inhibition of Plasmodium falciparum Oocyst Production by Membrane-Permeant Cysteine Protease Inhibitor E64d

Abstract: During asexual intraerythrocytic growth, Plasmodium falciparum utilizes hemoglobin obtained from the host red blood cell (RBC) as a nutrient source. Papain-like cysteine proteases, falcipains 2 and 3, have been reported to be involved in hemoglobin digestion and are targets of current antimalarial drug development efforts. However, their expression during gametocytogenesis, which is required for malaria parasite transmission, has not been studied. Many of the available antimalarials do not inhibit development … Show more

“…In total, 341 oocysts were produced in the 70 mosquitoes fed with DMSO-treated parasites, while no oocysts were produced by epoxomicin-treated parasites and only a total of 3 oocysts were produced in the 43 mosquitoes fed ALLN-treated parasites. This is similar to the significant block found with E64d and suggests that both the cysteine proteases and the proteasome play important roles in sporogonic development (10).…”

“…5). In contrast, ALLN did effectively block Pfs230 processing, as expected from our previous work using the cysteine protease inhibitor E64d (10). The lack of effect of epoxomicin on Pfs230 processing is consistent with its reported specificity for the proteasome, not cysteine proteases.…”

“…The prolonged period required for P. falciparum gametocyte maturation in the human host suggests that malaria can be transmitted for several weeks after asexual parasites are eliminated (23). Thus, the development of drugs that are effective against both asexual-stage parasites and gametocytes may directly decrease malaria morbidity and mortality and reduce the spread of the disease.Cysteine protease and proteasome inhibitors have been found to affect asexual intraerythrocytic parasites and are being evaluated as possible antimalarial agents (4,7,10,15,(19)(20)(21)25). However, their effect on the 10-to 12-day course of intraerythrocytic gametocyte development has not been reported.…”

“…Cysteine protease and proteasome inhibitors have been found to affect asexual intraerythrocytic parasites and are being evaluated as possible antimalarial agents (4,7,10,15,(19)(20)(21)25). However, their effect on the 10-to 12-day course of intraerythrocytic gametocyte development has not been reported.…”

“…However, their effect on the 10-to 12-day course of intraerythrocytic gametocyte development has not been reported. Proteasome inhibitors also have not been tested on parasites taken up by a mosquito, while cysteine protease inhibitors have been shown to significantly decrease P. falciparum gamete surface antigen processing, oocyst production, and sporozoite maturation (7,10). The dual cysteine and serine protease inhibitors L-1-tosylamide-2-phenylethyl-chloromethyl ketone (TPCK) and N␣-p-tosyl-L-lysine chloromethyl ketone (TLCK) also have been reported to reduce P. falciparum exflagellation and the transmission of Plasmodium berghei to mosquitoes (22,26).…”

The Proteasome Inhibitor Epoxomicin Has Potent Plasmodium falciparum Gametocytocidal Activity

“…In total, 341 oocysts were produced in the 70 mosquitoes fed with DMSO-treated parasites, while no oocysts were produced by epoxomicin-treated parasites and only a total of 3 oocysts were produced in the 43 mosquitoes fed ALLN-treated parasites. This is similar to the significant block found with E64d and suggests that both the cysteine proteases and the proteasome play important roles in sporogonic development (10).…”

“…5). In contrast, ALLN did effectively block Pfs230 processing, as expected from our previous work using the cysteine protease inhibitor E64d (10). The lack of effect of epoxomicin on Pfs230 processing is consistent with its reported specificity for the proteasome, not cysteine proteases.…”

“…The prolonged period required for P. falciparum gametocyte maturation in the human host suggests that malaria can be transmitted for several weeks after asexual parasites are eliminated (23). Thus, the development of drugs that are effective against both asexual-stage parasites and gametocytes may directly decrease malaria morbidity and mortality and reduce the spread of the disease.Cysteine protease and proteasome inhibitors have been found to affect asexual intraerythrocytic parasites and are being evaluated as possible antimalarial agents (4,7,10,15,(19)(20)(21)25). However, their effect on the 10-to 12-day course of intraerythrocytic gametocyte development has not been reported.…”

“…Cysteine protease and proteasome inhibitors have been found to affect asexual intraerythrocytic parasites and are being evaluated as possible antimalarial agents (4,7,10,15,(19)(20)(21)25). However, their effect on the 10-to 12-day course of intraerythrocytic gametocyte development has not been reported.…”

“…However, their effect on the 10-to 12-day course of intraerythrocytic gametocyte development has not been reported. Proteasome inhibitors also have not been tested on parasites taken up by a mosquito, while cysteine protease inhibitors have been shown to significantly decrease P. falciparum gamete surface antigen processing, oocyst production, and sporozoite maturation (7,10). The dual cysteine and serine protease inhibitors L-1-tosylamide-2-phenylethyl-chloromethyl ketone (TPCK) and N␣-p-tosyl-L-lysine chloromethyl ketone (TLCK) also have been reported to reduce P. falciparum exflagellation and the transmission of Plasmodium berghei to mosquitoes (22,26).…”

The Proteasome Inhibitor Epoxomicin Has Potent Plasmodium falciparum Gametocytocidal Activity

The proteolytic repertoire of malaria parasites

Proteases of Parasitic Protozoa – Current Status and Validation