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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Methods were developed for the production of clinical grade
malaria
vaccine candidates expressed in E. coli by recombinant DNA technologies. The essential features of the purification protocol consist of (1) mechanical breakage of host cells and solubilization of the recombinant proteins in 6 M guanidine hydrochloride; (2) ammonium sulfate fractionation; (3) affinity chromatography on a Ni(2+)-chelate gel in the presence of 6 M guanidine hydrochloride; and (4) ion exchange chromatograph on a Phospho Ultrogel column in the presence of 6 M urea. The use of undesirable chemicals (PMSF, DFP, TFA, acetonitrile, etc.) was avoided rather than demonstrating their complete removal after the purification steps. Testing of chromatographic fractions for host-cell proteins and the elimination of fractions with E. coli protein content was found necessary to obtain a final product that contained less than 0.01% of host derived proteins. The recombinant proteins were renatured either from 8 M urea or from 6 M guanidine hydrochloride by increasing the pH to 10.5 in the presence of glycine and EDTA, reduction with
DTT
, dilution to a protein concentration below 1 mg.ml-1, and dialysis against 0.9% NaCl. The method presented here can be tailor-fit, with minor modification, for the purification of almost any recombinant protein and the final product satisfies current regulations concerning the production of clinically acceptable therapeutic products.
...
PMID:Preparation of clinical grade proteins produced by recombinant DNA technologies. 194 Mar 92
The Plateau, or more precisely the highlands, cover most of the central part of Madagascar with an altitude higher than 1,000 m. There the climate is tropical with a wet and hot season, from October through April coincident with further outbreaks of
malaria
. This alternates with a dry season from May through September when the temperature is not favorable to the development of the vectors and the extrinsic cycle of the parasite. The
malaria
is unstable. The short season of transmission is sometimes amplified by abnormally abundant rain or higher than average temperatures. The population can hardly develop self-protection. The epidemics are deadly. The transmission essentially occurs with Anopheles arabiensis, a zoophile species, exophage and occasionally anthropophile and A. funestus anthropophile and endophile. Starting in 1949, a program for fighting
malaria
was founded on drug prophylaxis and spraying persistent insecticides within the homes. This approach gave spectacular results with a prolonged elimination of the disease, the consequence of which was the establishment of the Zone of Surveillance of the High Plateau (ZSHP). With decreasing efforts of the fight, the transmission progressively resumed starting in 1975 with outbreaks of epidemics. The most deadly outbreak was between 1984 and 1987, marked by an increase of morbidity and mortality. The factors which favored further outbreaks of
malaria
are listed as follows: 1) a slackening of the surveillance system; 2) the socio-economic context leading to the weakness of the national sanitary system and the inaccessibility of the antimalaria medication for the rural masses; 3) the reappearance of A. funestus, an excellent vector which had been eliminated by the treatments between 1949 and 1960; 4) after the previous elimination, the quasi-total absence of self-protection for the population when subjected to a series of cyclones; 5) movements of nonprotected travellers migrating for agricultural work from the highlands towards the coasts or the slopes which are zones of more stable
malaria
. Starting in 1988, the Madagascan sanitary authorities, with international and bilateral help, established a strategic approach based on early drug therapy and spraying within the homes with
DTT
pm 75 at a dose of 2 g/m2. These operations could cover some focalized zones with habitants, numbering 720,000 from 1988 to 1989; 380,000 from 1989 to 1990; 480,000 from 1990 to 1991; and 2,400,000 from 1993 to 1994. The evaluation of the efficacy of these methods in fighting
malaria
showed spectacular and conclusive results for the epidemiological plan, including less prevalence of the parasite, morbidity and mortality. In addition, there were important impacts on the vectors, including decreases of vector-human contact, residual fauna and longevity.
...
PMID:[Vector control in the epidemics of the Madagascar highlands]. 878 47
One major quantitative trait locus controls melanization of both
malaria
ookinetes and Sephadex CM beads in a refractory strain of the mosquito, Anopheles gambiae. Hemolymph transferred from a nonmelanizing, Plasmodium-susceptible strain (4arr) to a melanizing, Plasmodium-refractory strain (L35) caused a reduction in the melanization of CM beads. In addition, when beads were first incubated in vivo in susceptible mosquitoes and then recovered, washed, and transferred to refractory mosquitoes, a strong reduction in melanization was observed. No changes in melanization were observed when beads or hemolymph were transferred in the opposite direction or within a strain. Incubation of beads in vitro in refractory or susceptible hemolymph resulted in a reduction of melanization when these beads were subsequently transferred to refractory mosquitoes. This reduction was significantly stronger when susceptible hemolymph was used as the incubating medium. Protection from melanization was observed after 3-, 6-, and 24-h incubations of beads in susceptible mosquitoes with longer incubations resulting in greater protection. Treatment of protected beads with 1 M NaOH resulted in the loss of the protection but treatment with 1% sodium dodecyl sulfate (SDS), 1% SDS/
DTT
/boiling, or 1 M NaOAc (pH 8.9) did not. These results show that a melanization-preventing factor covalently binds to the surface of CM beads in susceptible mosquitoes and can subsequently prevent melanization in refractory mosquitoes.
...
PMID:A factor preventing melanization of sephadex CM C-25 beads in Plasmodium-susceptible and refractory anopheles gambiae. 970 28
The adherence of Plasmodium falciparum-infected RBC (IRBC) to postcapillary venular endothelium is an important determinant of the pathogenesis of severe
malaria
complications. Cytoadherence of IRBC to endothelial cells involves specific receptor/ligand interactions. The glycoprotein CD36 expressed on endothelial cells is the major receptor involved in this interaction. Treatment of CD36-expressing cells with reducing agents, such as
DTT
and N-acetylcysteine, was followed by CD36 conformational change monitorable by the appearance of the Mo91 mAb epitope. Only a fraction of the surface expressed CD36 molecules became Mo91 positive, suggesting the presence of two subpopulations of molecules with different sensitivities to reduction. The Mo91 epitope has been localized on a peptide (residues 260-279) of the C-terminal, cysteine-rich region of CD36. Treatment with reducing agents inhibited the CD36-dependent cytoadherence of IRBC to CD36-expressing cells and dissolved pre-existent CD36-mediated IRBC/CD36-expressing cell aggregates. CD36 reduction did not impair the functionality of CD36, since the reactivity of other anti-CD36 mAbs as well as the binding of oxidized low density lipoprotein, a CD36 ligand, were maintained. The modifications induced by reduction were reversible. After 14 h CD36 was reoxidized, the cells did not express the Mo91 epitope, and cytoadherence to IRBC was restored. The results indicate that IRBCs bind only to a redox-modulated fraction of CD36 molecules expressed on the cell surface. The present data indicate the therapeutic potential of reducing agents, such as the nontoxic drug N-acetylcysteine, to prevent or treat
malaria
complications due to IRBC cytoadhesion.
...
PMID:Cytoadherence of Plasmodium falciparum-infected erythrocytes is mediated by a redox-dependent conformational fraction of CD36. 1171 19
Malaria
parasite homogenate, the lipid extracts, and an unsaturated fatty acid, linoleic acid, which have been shown to promote beta-hematin formation in vitro, were used to investigate the mechanism of hemozoin biosynthesis, a distinct metabolic function of the
malaria
parasite. In vitro beta-hematin formation promoted by Plasmodium yoelii homogenate, the lipid extracts, and linoleic acid were blocked by ascorbic acid, reduced glutathione, sodium dithionite, beta-mercaptoethanol, dithiothreitol, and superoxide dismutase. Oxidized glutathione did not show any effect. Preoxidized preparations of the lipids extracts or the P. yoelii homogenate failed to catalyze beta-hematin formation. Depletion of oxygen in the reaction mixtures also inhibited the lipid-catalyzed beta-hematin formation. Under the reaction conditions similar to those used for the in vitro beta-hematin formation assay, the antioxidants and reducing agents mentioned above, except the
DTT
and beta-mercaptoethanol, did not cause degradation of heme. beta-Hematin formation was also inhibited by p-aminophenol, a free radical chain reaction breaker. Hemozoin biosynthesis within the digestive vacuoles of the
malaria
parasite may be a lipid-catalyzed physiochemical reaction. An oxidative mechanism may be proposed for lipid-mediated beta-hematin formation, which may be mediated by generation of some free radical intermediates of heme.
...
PMID:A physiochemical mechanism of hemozoin (beta-hematin) synthesis by malaria parasite. 1177 14
D-tyrosyl-tRNA(Tyr) deacylase (
DTD
) is an editing enzyme that removes D-amino acids from mischarged tRNAs. We describe an in-depth analysis of the
malaria
parasite Plasmodium falciparum
DTD
here. Our data provide structural insights into
DTD
complexes with adenosine and D-amino acids. Bound adenosine is proximal to the
DTD
catalysis site, and it represents the authentic terminal adenosine of charged tRNA.
DTD
-bound D-amino acids cluster at three different subsites within the overall active site pocket. These subsites, called transition, active, and exit subsites allow docking, re-orientation, chiral selection, catalysis, and exit of the free D-amino acid from
DTD
. Our studies reveal variable modes of D-amino acid recognition by DTDs, suggesting an inherent plasticity that can accommodate all D-amino acids. An in-depth analysis of native, ADP-bound, and D-amino acid-complexed
DTD
structures provide the first atomic snapshots of ligand recognition and subsequent catalysis by this enzyme family. We have mapped sites for the deacylation reaction and mark possible routes for entry and egress of all substrates and products. We have also performed structure-based inhibitor discovery and tested lead compounds against the
malaria
parasite P. falciparum using growth inhibition assays. Our studies provide a comprehensive structural basis for the catalytic mechanism of
DTD
enzymes and have implications for inhibition of this enzyme in P. falciparum as a route to inhibiting the parasite.
...
PMID:Ligand-bound structures provide atomic snapshots for the catalytic mechanism of D-amino acid deacylase. 2000 23
The phylum Apicomplexa comprises a group of obligate intracellular parasites of broad medical and agricultural significance, including Toxoplasma gondii and the
malaria
-causing Plasmodium spp. Key to their parasitic lifestyle is the need to egress from an infected cell, actively move through tissue, and reinvade another cell, thus perpetuating infection. Ca(2+)-mediated signaling events modulate key steps required for host cell egress, invasion and motility, including secretion of microneme organelles and activation of the force-generating actomyosin-based motor. Here we show that a plant-like Calcium-Dependent Protein Kinase (CDPK) in T. gondii, TgCDPK3, which localizes to the inner side of the plasma membrane, is not essential to the parasite but is required for optimal in vitro growth. We demonstrate that TgCDPK3, the orthologue of Plasmodium PfCDPK1, regulates Ca(2+) ionophore- and
DTT
-induced host cell egress, but not motility or invasion. Furthermore, we show that targeting to the inner side of the plasma membrane by dual acylation is required for its activity. Interestingly, TgCDPK3 regulates microneme secretion when parasites are intracellular but not extracellular. Indeed, the requirement for TgCDPK3 is most likely determined by the high K(+) concentration of the host cell. Our results therefore suggest that TgCDPK3's role differs from that previously hypothesized, and rather support a model where this kinase plays a role in rapidly responding to Ca(2+) signaling in specific ionic environments to upregulate multiple processes required for gliding motility.
...
PMID:TgCDPK3 regulates calcium-dependent egress of Toxoplasma gondii from host cells. 2322 9
The
malaria
parasite experiences a significant amount of redox stress during its growth in human erythrocytes and heavily relies on secretory functions for pathogenesis. Most certainly, the parasite is equipped with machinery to tackle perturbations in the secretory pathway, like the unfolded protein response pathway in higher eukaryotes. Our bioinformatics analysis revealed the complete absence of genes involved in the canonical unfolded protein response pathway in Plasmodium falciparum. Accordingly, the parasite was unable to up-regulate endoplasmic reticulum (ER) chaperones or ER-associated degradation in response to
DTT
-mediated ER stress. Global profiling of gene expression upon
DTT
treatment revealed a network of AP2 transcription factors and their targets being activated. The overall outcome was up-regulation of genes involved in protein export and the sexual stage of the parasite life cycle culminating in gametocytogenesis. Our results suggest that the
malaria
parasite uses ER stress as a cue to switch to the transmissible sexual stages.
...
PMID:Endoplasmic reticulum stress triggers gametocytogenesis in the malaria parasite. 2475 15
