Trophozoites of the malaria parasite Plasmodium falciparum hydrolyze erythrocyte hemoglobin in an acidic food vacuole to provide amino acids for parasite protein synthesis. Cysteine protease inhibitors block hemoglobin degradation, indicating that a cysteine protease plays a key role in this process. A principal trophozoite cysteine protease was purified by affinity chromatography. Sequence analysis indicated that the protease is encoded by a previously unidentified gene, falcipain-2. Falcipain-2 was predominantly expressed in trophozoites, was concentrated in food vacuoles, and was responsible for at least 93% of trophozoite soluble cysteine protease activity. A construct encoding mature falcipain-2 and a small portion of the prodomain was expressed in Escherichia coli and refolded to active enzyme. Specificity for the hydrolysis of peptide substrates by native and recombinant falcipain-2 was very similar, and optimal at acid pH in a reducing environment. Under physiological conditions (pH 5.5, 1 mM glutathione), falcipain-2 hydrolyzed both native hemoglobin and denatured globin. Our results suggest that falcipain-2 can initiate cleavage of native hemoglobin in the P. falciparum food vacuole, that, following initial cleavages, the protease plays a key role in rapidly hydrolyzing globin fragments, and that a drug discovery effort targeted at this protease is appropriate.
In the malaria parasite Plasmodium falciparum, erythrocytic trophozoites hydrolyse haemoglobin to provide amino acids for parasite protein synthesis. Cysteine protease inhibitors block parasite haemoglobin hydrolysis and development, indicating that cysteine proteases are required for these processes. Three papain-family cysteine protease sequences have been identified in the P. falciparum genome, but the specific roles of their gene products and other plasmodial proteases in haemoglobin hydrolysis are uncertain. Falcipain-2 was recently identified as a principal trophozoite cysteine protease and potential drug target. The present study characterizes the related P. falciparum cysteine protease falcipain-3. As is the case with falcipain-2, falcipain-3 is expressed by trophozoites and appears to be located within the food vacuole, the site of haemoglobin hydrolysis. Both proteases require a reducing environment and acidic pH for optimal activity, and both prefer peptide substrates with leucine at the P(2) position. The proteases differ, however, in that falcipain-3 undergoes efficient processing to an active form only at acidic pH, is more active and stable at acidic pH, and has much lower specific activity against typical papain-family peptide substrates, but has greater activity against native haemoglobin. Thus falcipain-3 is a second P. falciparum haemoglobinase that is particularly suited for the hydrolysis of native haemoglobin in the acidic food vacuole. The redundancy of cysteine proteases may offer optimized hydrolysis of both native haemoglobin and globin peptides. Consideration of both proteases will be necessary to evaluate cysteine protease inhibitors as antimalarial drugs.
New drugs to treat malaria are urgently needed. Cysteine proteases of malaria parasites offer potential new chemotherapeutic targets. Cysteine protease inhibitors block parasite hemoglobin hydrolysis and development, indicating that cysteine proteases play a key role in hemoglobin degradation, a necessary function of erythrocytic trophozoites. These inhibitors also block the rupture of erythrocytes by mature parasites, suggesting an additional role for cysteine proteases in the hydrolysis of erythrocyte cytoskeletal proteins. Recent studies have shown that the repertoire of cysteine proteases of malaria parasites is larger than was previously realized. Plasmodium falciparum, the most virulent human malaria parasite, expresses three papain-family cysteine proteases, known as falcipains. All three proteases are expressed by trophozoites and hydrolyze hemoglobin at acidic pH, suggesting roles in this process. Falcipain-2 also hydrolyzes ankyrin at neutral pH, suggesting additional activity against erythrocyte cytoskeletal targets. Multiple orthologs of the falcipains have been identified in other plasmodial species. Analysis of orthologs from animal model rodent parasites identified similar features, but some noteworthy biochemical differences between the cysteine proteases. These differences must be taken into account in interpreting in vivo experiments. A number of small molecule cysteine protease inhibitors blocked parasite hemoglobin hydrolysis and development, and inhibitory effects against parasites generally correlated with inhibition of falcipain-2. Some compounds also cured mice infected with otherwise lethal malaria infections. Current research priorities are to better characterize the biological roles and biochemical features of the falcipains. In addition, efforts to identify optimal falcipain inhibitors as antimalarials are underway.
Purpose – The purpose of this paper is to examine the relationship among job involvement, organizational commitment, team commitment and professional commitment and to explore generational differences for these variables. Design/methodology/approach – It used structured questionnaire survey approach for which data were collected from 477 full-time employees of 13 organizations from diverse sectors in India. Respondents were categorized into four generational cohorts following the classification reported in Robbins et al. (2011). Findings – The findings of the study indicated that professional commitment is negatively related with job involvement, affective organizational commitment, normative organizational commitment, and team commitment. Job involvement, affective and normative organizational commitment, and team commitment were positively correlated. Differences were observed among Generation Y, Generation X, Liberals, and Socialist for job involvement, affective organizational commitment, normative organizational commitment, professional commitment, and team commitment. Generation Y, for example, was found high in professional commitment, while Socialist were found higher on affective organizational commitment compared to other generations. Practical implications – Findings suggests that there is a decrease in job involvement, affective organizational commitment, normative organizational commitment, and increase in professional commitment in young generations. Organizations need to take consideration this while designing the HR policies for employees’ engagement. Originality/value – The contribution of the study lies in examining the employees’ attitude to different dimensions of work life and differences among Indian generations.
The molecular mechanism of chloroquine resistance in Plasmodium falciparum remains uncertain. Polymorphisms in the pfcrt and pfmdr-1 genes have been associated with chloroquine resistance in vitro, although field studies are limited. In evaluations of known polymorphisms in parasites from patients with uncomplicated malaria in Kampala, Uganda, the presence of 8 pfcrt mutations and 2 pfmdr-1 mutations did not correlate with clinical response to therapy with chloroquine. Most notably, the pfcrt lysine-->threonine mutation at position 76, which recently correlated fully with chloroquine resistance in vitro, was present in 100% of 114 isolates, of which about half were from patients who recovered clinically after chloroquine therapy. These results suggest that, although key pfcrt polymorphisms may be necessary for the elaboration of resistance to chloroquine in areas with high levels of chloroquine resistance, other factors, such as host immunity, may contribute to clinical outcomes.
In the malaria parasite Plasmodium falciparum, erythrocytic trophozoites hydrolyse haemoglobin to provide amino acids for parasite protein synthesis. Cysteine protease inhibitors block parasite haemoglobin hydrolysis and development, indicating that cysteine proteases are required for these processes. Three papain-family cysteine protease sequences have been identified in the P. falciparum genome, but the specific roles of their gene products and other plasmodial proteases in haemoglobin hydrolysis are uncertain. Falcipain-2 was recently identified as a principal trophozoite cysteine protease and potential drug target. The present study characterizes the related P. falciparum cysteine protease falcipain-3. As is the case with falcipain-2, falcipain-3 is expressed by trophozoites and appears to be located within the food vacuole, the site of haemoglobin hydrolysis. Both proteases require a reducing environment and acidic pH for optimal activity, and both prefer peptide substrates with leucine at the P2 position. The proteases differ, however, in that falcipain-3 undergoes efficient processing to an active form only at acidic pH, is more active and stable at acidic pH, and has much lower specific activity against typical papain-family peptide substrates, but has greater activity against native haemoglobin. Thus falcipain-3 is a second P. falciparum haemoglobinase that is particularly suited for the hydrolysis of native haemoglobin in the acidic food vacuole. The redundancy of cysteine proteases may offer optimized hydrolysis of both native haemoglobin and globin peptides. Consideration of both proteases will be necessary to evaluate cysteine protease inhibitors as antimalarial drugs.
Falcipain-2, a cysteine protease and essential hemoglobinase of Plasmodium falciparum, is a potential antimalarial drug target. We compared the falcipain-2 sequences and sensitivities to cysteine protease inhibitors of five parasite strains that differ markedly in sensitivity to established antimalarial drugs. The sequence of falcipain-2 was highly conserved, and the sensitivities of all of the strains to falcipain-2 inhibitors were very similar. Thus, cross-resistance between cysteine protease inhibitors and other antimalarial agents is not expected in parasites that are now circulating and falcipain-2 remains a promising chemotherapeutic target.
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