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Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Malaria
proteinases appear to function in the release of merozoites from infected erythrocytes and the invasion of merozoites into erythrocytes. Chymostatin, an inhibitor of
chymotrypsin-like
proteinases, inhibits
malaria
invasion and also inhibits apparent autoproteolysis of a 101-kDa acidic-basic repeat antigen (p101-ABRA) that is found in the vacuolar space surrounding merozoites in Plasmodium falciparum-infected erythrocytes. After purification by a monoclonal antibody (MAb 3D5), p101-ABRA degrades into smaller fragments in the absence of chymostatin. In this study fluorogenic proteinase substrates of the type peptidyl-7-amino-4-trifluoromethyl coumarin with phenylalanine or tyrosine linked to AFC were used to characterize chymotryptic-like activity associated with p101-ABRA. When p101-ABRA from the cell extract of P. falciparum-schizont-infected erythrocytes was affinity purified on MAb 3D5 beads, chymotryptic-like activity bound to the beads. Seventy-four percent to 96% of the activity detected using MeOSuc-KLF-AFC, Suc-LLVY-AFC, or SY-AFC at a pH optimum of 7.0 was removed from the extract and 6 to 33% was detected on the washed beads. Attempts to recover active enzyme eluted from the beads were not successful. Enzymes cleaving two other substrates (MeOSuc-AAPM-AFC and F-AFC) did not significantly bind to mAB 3D5 beads. Chymotryptic-like activity was also associated with p101-ABRA in fractions from sequential DEAE-Sephacel chromatography, Sephacryl S-200 chromatography, and nondenaturing polyacrylamide gel electrophoresis.
...
PMID:Plasmodium falciparum: chymotryptic-like proteolysis associated with a 101-kDa acidic-basic repeat antigen. 149 72
The acidic basic repeat antigen (ABRA) of Plasmodium falciparum has been localised on the merozoite surface and in the parasitophorous vacuole. It is one of the antigens enriched in the clusters of merozoites formed with growth inhibitory immune serum and possesses
chymotrypsin-like
activity. Chymostatin, an inhibitor of chymotrypsin, inhibits
malaria
invasion as well as autoproteolysis of ABRA. Based on these characteristics of ABRA, it seems important for invasion and should be investigated as a target for vaccine and drug design. For the functional characterisation of this protein, the full-length mature ABRA protein and its fragments with/without the putative protease active site were cloned, expressed and purified from Escherichia coli. The polyclonal serum raised against recombinant ABRA fragment recognised a parasite protein with a mobility of 101 kDa in an immunoblot assay and showed immunofluorescence activity with a schizont-rich preparation of P. falciparum. Using a partially purified fragment containing the putative active site and fluorogenic and chromogenic substrates, we established that the protease activity of ABRA resides in the N-terminal portion of the protein and the highly charged C-terminal part of the protein is not required for this activity. The protease activity of ABRA was inhibited with serine protease inhibitors like chymostatin and phenyl methyl sulfonyl fluoride (PMSF) whereas leupeptin was not able to inhibit this enzyme activity. These results clearly indicated that ABRA is a protease with
chymotrypsin-like
specificity. This is the first report describing the expression and characterisation of recombinant ABRA protein.
...
PMID:Expression and characterisation of Plasmodium falciparum acidic basic repeat antigen expressed in Escherichia coli. 1069 51
Serine repeat antigen 5 (SERA5) is an abundant antigen of the human
malaria
parasite Plasmodium falciparum and is the most strongly expressed member of the nine-gene SERA family. It appears to be essential for the maintenance of the erythrocytic cycle, unlike a number of other members of this family, and has been implicated in parasite egress and/or erythrocyte invasion. All SERA proteins possess a central domain that has homology to papain except in the case of SERA5 (and some other SERAs), where the active site cysteine has been replaced with a serine. To investigate if this domain retains catalytic activity, we expressed, purified, and refolded a recombinant form of the SERA5 enzyme domain. This protein possessed
chymotrypsin-like
proteolytic activity as it processed substrates downstream of aromatic residues, and its activity was reversed by the serine protease inhibitor 3,4-diisocoumarin. Although all Plasmodium SERA enzyme domain sequences share considerable homology, phylogenetic studies revealed two distinct clusters across the genus, separated according to whether they possess an active site serine or cysteine. All Plasmodia appear to have at least one member of each group. Consistent with separate biological roles for members of these two clusters, molecular modeling studies revealed that SERA5 and SERA6 enzyme domains have dramatically different surface properties, although both have a characteristic papain-like fold, catalytic cleft, and an appropriately positioned catalytic triad. This study provides impetus for the examination of SERA5 as a target for antimalarial drug design.
...
PMID:Enzymic, phylogenetic, and structural characterization of the unusual papain-like protease domain of Plasmodium falciparum SERA5. 1367 69
Plasmodium falciparum serine repeat antigen 5 (SERA5) is a target for both drug and vaccine intervention against
malaria
. SERA5 is secreted in the parasitophorous vacuole where it is proteolytically processed before schizont rupture. Among the processed products is a 50.8-kDa central domain of the protease, which possesses
chymotrypsin-like
activity and consists of a 28.9-kDa catalytic domain with a 21.9-kDa N-terminal prodomain, which remain attached together. Because SERA5 has been implicated in merozoite egress from host erythrocytes, the effect of the prodomain and a heptapeptide derived from its C-terminus spanning from D(560) to F(566) (DNSDNMF) on parasite growth was studied. When E. coli-expressed prodomain was incubated with parasite culture, a significant delay in transition from schizont to ring stages was observed up to nanomolar concentrations. The peptide, DNSDNMF also showed similar effects but at nearly 1000-fold higher concentrations. The peptide was also found to interact with the catalytic domain. These data demonstrate the crucial role of SERA5 prodomain for the egress process. Given the inhibitory potential of the prodomain for the parasite, we suggest that peptidomimetic inhibitors based on SERA5 prodomain sequences can be developed as future therapeutics against
malaria
.
...
PMID:Inhibitory potential of prodomain of Plasmodium falciparum protease serine repeat antigen 5 for asexual blood stages of parasite. 2229 57
Splenomegaly, a major symptom in
Plasmodium infection
, is extensively studied for its immunopathological role in mice
malaria
model infected with Plasmodium berghei ANKA. The status of autophagic regulation in hosts in
malaria
pathogenesis remains unreported till date. This study demonstrated the autophagy, proteasomal degradation and NRF2-KEAP1 antioxidant pathway status in the host during
Plasmodium infection
taking murine spleen as our organ of interest. Initial staining and autophagic gene expression indicate a possibility of autophagic pathway activation. Although the conversion of LC3A to LC3B and lysosome-autophagosome fusion increases, the final degradation step remains incomplete. Resultant upregulation of p62 and its altered phosphorylated status enhances its binding to keap1 causing NRF2 translocation to the nucleus. NRF2 act as transcription factor upregulating p62 level itself leading to an autoinduction loop of p62 expression. Interestingly, enhancement of P62 interaction with proteasome subunit RPT1 indicates a possible role in transporting ubiquitinated cargo to proteasome complex. Ubiquitination level increased with subsequent upregulation of all three modes of proteasomal degradation i.e trypsin-like, caspase-like and especially
chymotrypsin-like
. Sqstm1/p62 plays a critical central role in regulating autophagy, proteasomal degradation, and NRF2-KEAP1 pathway. The incomplete autophagic flux in the final step may be a key therapeutic target, as autophagic degradation and subsequent pathogenic peptide presentation is of utmost necessity for downstream immune response.
...
PMID:Partial impairment of late-stage autophagic flux in murine splenocytes leads to sqstm1/p62 mediated nrf2-keap1 antioxidant pathway activation and induced proteasome-mediated degradation in malaria. 3269 18
