Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The knob-associated histidine rich protein (KAHRP) of Plasmodium falciparum plays an important role in the pathophysiology of cerebral malaria. In the present study, the immunogenic C-terminal repeat domain of the KAHRP gene was amplified, cloned and sequenced from the Indian (RJ181) and Honduran (HB3) isolates of P. falciparum. Based on the number and types of repeats in the domain, we report here the presence of three unique variant forms of KAHRP among these isolates. The Indian isolate (RJ181) contained four units of the decapeptide repeats whereas the Honduran isolate (HB3) contained two forms i.e. one form containing four decapeptide repeats plus a tetrapeptide subunit and the other form containing three decapeptide repeats plus a tetrapeptide subunit. Thus, all together, the number of KAHRP variants is increased to five which includes previously described two variants, each containing either 3 or 5 decapeptide repeats. This high rate of variability in the antigenic domain of the KAHRP gene via deletion or addition of whole or part of the decapeptide units could be involved in the evasion of host immune system possibly by providing the speculative complementarity to the vargene product. The results of the present study will be useful in designing the suitable molecular therapeutic reagents for cerebral malaria.
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PMID:Variations in the C-terminal repeats of the knob-associated histidine-rich protein of Plasmodium falciparum. 912 77

The iron-containing superoxide dismutase (FeSOD) gene from three human malaria species, namely Plasmodium ovale, P. malariae and P. vivax, was amplified by polymerase chain reaction, cloned and then sequenced. Comparisons of their deduced amino acid sequences with that of the FeSOD from P. falciparum revealed a very low polymorphism at the FeSOD locus in human malaria species. One P. ovale and the P. vivax FeSOD genes presented the same nucleotide sequence as that of the P. falciparum strain HB3 whereas the second P. ovale and the P. malariae genes exhibited two punctual mutations. These mutations did not affect the function and structure of the enzyme. The FeSOD polymorphism was so low that no phylogenetic relationship among human malaria species could be proposed, but this conservative structure strengthened the potentiality of this enzyme as a possible target for antimalarial drugs.
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PMID:Cloning and characterization of iron-containing superoxide dismutase from the human malaria species Plasmodium ovale, P. malariae and P. vivax. 1059 26

The declining efficacy of chloroquine and pyrimethamine/sulphadoxine in the treatment of human malaria has led to the use of newer antimalarials such as mefloquine and artemisinin. Sequence polymorphisms in the pfmdr1 gene, the gene encoding the plasmodial homologue of mammalian multidrug resistance transporters, have previously been linked to resistance to chloroquine in some, but not all, studies. In this study, we have used a genetic cross between the strains HB3 and 3D7 to study inheritance of sensitivity to the structurally unrelated drugs mefloquine and artemisinin, and to several other antimalarials. We find a complete allelic association between the HB3-like pfmdr1 allele and increased sensitivity to these drugs in the progeny. Different pfmdr1 sequence polymorphisms in other unrelated lines were also associated with increased sensitivity to these drugs. Our results indicate that the pfmdr1 gene is an important determinant of susceptibility to antimalarials, which has major implications for the future development of resistance.
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PMID:Increased sensitivity to the antimalarials mefloquine and artemisinin is conferred by mutations in the pfmdr1 gene of Plasmodium falciparum. 1084 81

The structure of the genomic region located upstream of the gametocyte-specific gene pfg27/25 of Plasmodium falciparum was analysed in laboratory lines and field isolates of the parasite. The gene is located in a subtelomeric region of chromosome 13 in parasite clones 3D7 and HB3. Analysis of laboratory lines and field isolates of P. falciparum indicated that polymorphism upstream of pfg27/25 is mainly due to the structure of a repetitive DNA region located at about half a kilobase from the pfg27/25 coding sequence. Different types of repetitive sequences are present in this region, whose copy number is variable in different parasite lines. In addition a GC-rich sequence element contained in this region, which is proposed to be the startpoint of pfg27/25 mRNA, presents either a direct or a reverse orientation in different parasite lines. Genomic deletions upstream of the pfg27/25 gene are also described in two laboratory lines of the parasite, which eliminate two newly identified malaria genes. orf P and orf Gap, from the genome of these parasites. One of them, orf Gap, deleted from the reference parasite clone 3D7, is abundantly expressed as mature mRNA in asexual parasites. PCR analysis on 64 field isolates of P. falciparum indicated that orf P and orf Gap sequences are present in all tested samples of naturally propagating parasites.
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PMID:Repetitive sequences upstream of the pfg27/25 gene determine polymorphism in laboratory and natural lines of Plasmodium falciparum. 1107 Dec 80

The recent availability of the Plasmodium falciparum genome sequence has opened up convenient, large-scale analysis of transcriptional products in malaria. Protocols for cDNA labelling, cDNA hybridisation, and fluorescent signal detection developed for other organisms can be applied directly to malaria. However, P. falciparum offers unique challenges in data analysis due to stochastic variability in expression of some gene products, such as variable erythrocyte surface proteins. Careful comparison of global transcriptional patterns in two well-studied clones of P. falciparum (Dd2 and HB3) indicates that reliable, stable transcriptional alterations in malaria can be readily distinguished from stochastic processes. To do this, we utilised a complex experimental design which involves a combination of self-hybridisations and cross-hybridisations between two independently grown parasite populations for each clone being examined (for short, we call this a '2x2 CombiScan'). While even a simple 2x2 CombiScan required 12 microarray hybridisations, the effort generated output that was highly interpretable. Reliable RNA transcriptional differences between Dd2 and HB3 could be readily visualised using public algorithms for data normalisation and clustering.
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PMID:Stochastic versus stable transcriptional differences on Plasmodium falciparum DNA microarrays. 1243 38

Plasmodium falciparum is the causative agent of the most burdensome form of human malaria, affecting 200-300 million individuals per year worldwide. The recently sequenced genome of P. falciparum revealed over 5,400 genes, of which 60% encode proteins of unknown function. Insights into the biochemical function and regulation of these genes will provide the foundation for future drug and vaccine development efforts toward eradication of this disease. By analyzing the complete asexual intraerythrocytic developmental cycle (IDC) transcriptome of the HB3 strain of P. falciparum, we demonstrate that at least 60% of the genome is transcriptionally active during this stage. Our data demonstrate that this parasite has evolved an extremely specialized mode of transcriptional regulation that produces a continuous cascade of gene expression, beginning with genes corresponding to general cellular processes, such as protein synthesis, and ending with Plasmodium-specific functionalities, such as genes involved in erythrocyte invasion. The data reveal that genes contiguous along the chromosomes are rarely coregulated, while transcription from the plastid genome is highly coregulated and likely polycistronic. Comparative genomic hybridization between HB3 and the reference genome strain (3D7) was used to distinguish between genes not expressed during the IDC and genes not detected because of possible sequence variations. Genomic differences between these strains were found almost exclusively in the highly antigenic subtelomeric regions of chromosomes. The simple cascade of gene regulation that directs the asexual development of P. falciparum is unprecedented in eukaryotic biology. The transcriptome of the IDC resembles a "just-in-time" manufacturing process whereby induction of any given gene occurs once per cycle and only at a time when it is required. These data provide to our knowledge the first comprehensive view of the timing of transcription throughout the intraerythrocytic development of P. falciparum and provide a resource for the identification of new chemotherapeutic and vaccine candidates.
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PMID:The transcriptome of the intraerythrocytic developmental cycle of Plasmodium falciparum. 1759 92

Four series of C-10 non-acetal dimers were prepared from key trioxane alcohol 10beta-(2-hydroxyethyl)deoxoartemisinin (9b). All of the dimers prepared displayed potent low nanomolar antimalarial activity versus the K1 and HB3 strains of Plasmodium falciparum. The most potent compound assayed was phosphate dimer 14a, which was greater than 50 times more potent than the parent drug artemisinin and about 15 times more potent than the clinically used acetal artemether. In contrast to their potent activity versus malaria parasites, virtually all of the dimers expressed poor anticancer activity apart from the trioxane phosphate ester dimers 14a and 14b, which expressed nanomolar growth inhibitory (GI50) values versus a range of cancer cell lines in the NCI 60 human cell line screen. Further detailed studies on these dimers in vitro in HL60 cells demonstrate that both phosphate ester dimers (14a and 14b) are more potent than the anticancer agent doxorubicin. Interestingly, phosphate ester monomers 9c and 9d, antimalarially active in the low nanomolar region versus P. falciparum, are inactive as anticancer agents even at concentrations in the millimolar region. This observation emphasizes the importance of two trioxane units for high antiproliferative activity, and we propose that the nature of the linker in dimers of this type plays a crucial role in imparting potent anticancer activity.
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PMID:Antimalarial and antitumor evaluation of novel C-10 non-acetal dimers of 10beta-(2-hydroxyethyl)deoxoartemisinin. 1497 9

Antifolate drugs that target the biosynthesis and processing of essential folate cofactors are widely used for treatment of chloroquine-resistant falciparum malaria. Salvage of pre-formed folate can strongly compromise the efficacy of these drugs in vitro and the availability of folate from the human host in natural infections also influences therapeutic outcomes. To investigate how different parasite lines respond to the presence of exogenous folate, we measured the effect of the latter on the susceptibility of parasites to sulfa-drug blockage of folate biosynthesis, utilising the parents and 22 progeny of the HB3-Dd2 genetic cross of Plasmodium falciparum, together with selected unrelated lines. Complete linkage of the folate utilisation phenotype was observed to a DNA sequence of 48.6 kb lying between nucleotide positions 738,489 and 787,058 of chromosome 4 and encompassing the dihydrofolate reductase-thymidylate synthase (dhfr-ts) gene locus. Examination of the putative ORFs on this fragment upstream (3) and downstream (4) of dhfr-ts revealed no plausible candidate genes for folate processing. Similarly, a marked heterogeneity in the 5'-UTR regions of Dd2 and HB3, manifest as a directly repeated 256 bp sequence in the former, also did not correlate with the folate utilisation phenotype nor apparently influence levels of dhfr-ts transcripts or protein products. By contrast, the nature of the coding sequence of the dhfr domain appeared to play a direct role, with the single mutant (S108N) HB3-type utilising folic acid much less efficiently than other allelic variants. We also compared the processing of exogenous folic acid, folinic acid and p-aminobenzoic acid (pABA) in metabolic labelling studies of HB3 and Dd2. These support the view that DHFR is likely to have a low-level folate reductase activity as well as its normal function of reducing dihydrofolate to tetrahydrofolate, and that a significant hurdle in the utilisation of exogenous folic acid is the initial reduction of fully oxidised folic acid to dihydrofolate, an activity that the single mutant enzyme found in HB3 is postulated to perform particularly poorly. This would mirror earlier studies indicating that the DHFR activity of HB3 is also compromised relative to other variants.
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PMID:Genetic and metabolic analysis of folate salvage in the human malaria parasite Plasmodium falciparum. 1528 89

Folklore reports from Afghanistan prior to the wars described the use of aqueous root extracts of Cichorium intybus (L.) as a light-sensitive plant remedy for malaria. Preparative isolation and bioassay against HB3 clone of strain Honduras-1 of Plasmodium falciparum identified the previously known light-sensitive sesquiterpene lactones Lactucin and Lactucopicrin to be antimalarial compounds.
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PMID:Antimalarial activity of lactucin and lactucopicrin: sesquiterpene lactones isolated from Cichorium intybus L. 1550 74

The digestive vacuole of the malaria parasite Plasmodium falciparum is the site of action of several antimalarial drugs, such as chloroquine, which accumulate in this organelle due to their properties as amphiphilic weak bases that inhibit haem detoxification. It has been suggested that changes in the pH of the digestive vacuole, affecting either drug partitioning or haem solubility and/or biomineralization rates, would correlate with reduced intracellular chloroquine accumulation and, hence, would determine the chloroquine-resistance phenotype. The techniques previously used to quantify digestive vacuolar pH mainly relied on lysed or isolated parasites, with unpredictable consequences on internal pH homeostasis. In this study, we have investigated the baseline steady-state pH of the cytoplasm and digestive vacuole of a chloroquine-sensitive (HB3) and a chloroquine-resistant (Dd2) parasite using a pH-sensitive green fluorescent protein, termed pHluorin. This non-invasive technique allows for in vivo pH measurements in intact P. falciparum-infected erythrocytes under physiological conditions. The data suggest that the pH of the cytoplasm is approximately 7.15 +/- 0.07 and that of the digestive vacuole approximately 5.18 +/- 0.05. No significant differences in baseline pH values were recorded for the chloroquine-sensitive and chloroquine-resistant parasites.
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PMID:Quantitative pH measurements in Plasmodium falciparum-infected erythrocytes using pHluorin. 1738 32


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