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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)
The effect of pentoxifylline, a phosphodiesterase inhibitor, was investigated on the development of cerebral
malaria
in Plasmodium berghei K 173 infected C57/B16 mice. No significant differences occurred in the course of parasitemia and survival time after infection between control mice and pentoxifylline treated mice. Moreover, no differences were observed between the groups with respect to the occurrence of cerebral
malaria
. The only striking difference was that pentoxifylline treatment selectively prevented neuronal cell damage in the sector
CA1
of the hippocampus. These findings are in contrast to previous studies, where pentoxifylline prevented cerebral
malaria
in P. berghei ANKA infected CBA/Ca mice, another widely used model of cerebral
malaria
. Obvious differences exist between these models.
...
PMID:Selective damage of hippocampal neurons in murine cerebral malaria prevented by pentoxifylline. 843 93
Plasmodiumfalciparum is responsible for the majority of life-threatening cases of human
malaria
. The global emergence of drug-resistant malarial parasites necessitates identification and characterization of novel drug targets. Carbonic anhydrase (CA) is present at high levels in human red cells and in P. falciparum. Existence of at least three isozymes of the alpha < class was demonstrated in P. falciparum and a rodent malarial parasite Plasmodium berghei. The major isozyme
CA1
was purified and partially characterized from P. falciparum (PfCA1). A search of the malarial genome database yielded an open reading frame similar to the alpha-CAs from various organisms, including human. The primary amino acid sequence of the PfCA1 has 60% identity with a rodent parasite Plasmodium yoelii enzyme (PyCA). The single open reading frames encoded 235 and 252 amino acid proteins for PfCA1 and PyCA, respectively. The highly conserved active site residues were also found among organisms having alpha-CAs. The PfCA1 gene was cloned, sequenced and expressed in Escherichia coli. The purified recombinant PfCA1 enzyme was catalytically active. It was sensitive to acetazolamide and sulfanilamide inhibition. Kinetic properties of the recombinant PfCA1 revealed the authenticity to the wild type enzyme purified from P. falciparum in vitro culture. Furthermore, the PfCA1 inhibitors acetazolamide and sulfanilamide showed good antimalarial effect on the in vitro growth of P. falciparum. Our molecular tools developed for the recombinant enzyme expression will be useful for developing potential antimalarials directed at P. falciparum carbonic anhydrase.
...
PMID:Plasmodium falciparum carbonic anhydrase is a possible target for malaria chemotherapy. 1549 96
Plasmodium falciparum is the protozoan parasite responsible for the majority of life-threatening cases of human
malaria
, causing more than one million deaths a year. The global emergence of drug-resistant malarial parasites necessitates identification and characterization of novel drug targets. At present, alpha-carbonic anhydrase (CA) genes are identified in limited numbers of parasites in both protozoa and helminthes, however, the malarial genes are found in four species of Plasmodium. The CA gene of P. falciparum encodes an alpha-carbonic anhydrase enzyme possessing catalytic properties distinct of that of the human host
CA I
and II isozymes. P. falciparum native and recombinant enzymes have been prepared. A library of aromatic sulfonamides, most of which were Schiff's bases derived from sulfanilamide/homosulfanilamide/4-aminoethyl-benzenesulfonamide and substituted-aromatic aldehydes, or ureido-substituted sulfonamides are very good inhibitors for P. falciparum enzyme with K(i) values in the range of 80 nM-0.50 microM. The 4-(3,4-dichlorophenylureido-ethyl)-benzenesulfonamide is the most effective antimalarial activity against growth of P. falciparum in vitro with an IC(50) of 2 microM. The structure of the groups substituting the aromatic-ureido- or aromatic-azomethine fragment of the molecule and the length of the parent sulfonamide (i.e., from sulfanilamide to 4-aminoethylbenzenesulfonamide) from which the Schiff's base obtained, are the critical parameters for the enzyme inhibitory activities of these aromatic sulfonamide derivatives, both against the malarial as well as human enzymes. This review provides further support that the CA may have essential roles in the parasite metabolism. Thus, the aromatic sulfonamide CA inhibitors may have potential for development of novel antimalarial drugs.
...
PMID:The alpha-carbonic anhydrase from the malaria parasite and its inhibition. 1833 8
Cerebral malaria (CM) is a severe complication of Plasmodium falciparum infection responsible for thousands of deaths in children in sub-Saharan Africa. CM pathogenesis remains incompletely understood but a number of effectors have been proposed, including plasma microparticles (MP). MP numbers are increased in CM patients' circulation and, in the mouse model, they can be localised within inflamed vessels, suggesting their involvement in vascular damage. In the present work we define, for the first time, the protein cargo of MP during experimental cerebral
malaria
(ECM) with the overarching hypothesis that this characterisation could help understand CM pathogenesis. Using qualitative and quantitative high-throughput proteomics we compared MP proteins from non-infected and P. berghei ANKA-infected mice. More than 360 proteins were identified, 60 of which were differentially abundant, as determined by quantitative comparison using TMT
TM
isobaric labelling. Network analyses showed that ECM MP carry proteins implicated in molecular mechanisms relevant to CM pathogenesis, including endothelial activation. Among these proteins, the strict association of
carbonic anhydrase I
and S100A8 with ECM was verified by western blot on MP from DBA/1 and C57BL/6 mice. These results demonstrate that MP protein cargo represents a novel ECM pathogenic trait to consider in the understanding of CM pathogenesis.
...
PMID:Exploring experimental cerebral malaria pathogenesis through the characterisation of host-derived plasma microparticle protein content. 2791 75
The radial distribution of Plasmodium vivax malaria burden has evoked enormous concern among the global research community. In this study, we have investigated the serum proteome alterations in non-severe vivax
malaria
patients before and during patient recuperation starting from the early febrile to the defervescence and convalescent stages of the infection. We have also performed an extensive quantitative proteomics analysis to compare the serum proteome profiles of vivax
malaria
patients with low (LPVM) and moderately-high (MPVM) parasitemia with healthy community controls. Interestingly, some of the serum proteins such as Serum amyloid A, Apolipoprotein A1, C-reactive protein, Titin and Haptoglobin, were found to be sequentially altered with respect to increased parasite counts. Analysis of a longitudinal cohort of
malaria
patients indicated reversible alterations in serum levels of some proteins such as Haptoglobin, Apolipoprotein E, Apolipoprotein A1,
Carbonic anhydrase 1
, and Hemoglobin subunit alpha upon treatment; however, the levels of a few other proteins did not return to the baseline even during the convalescent phase of the infection. Here we present the first comprehensive serum proteomics analysis of vivax
malaria
patients with different levels of parasitemia and during the acute and convalescent phases of the infection.
...
PMID:Quantitative Proteomics Analysis of Plasmodium vivax Induced Alterations in Human Serum during the Acute and Convalescent Phases of Infection. 2866 26
