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)

Aotus lemurinus griseimembra is considered one of the best nonhuman primate species for malarial studies because of its susceptibility to infection by Plasmodium falciparum asexual blood stages. However, reproducible transmission of infective P. falciparum sporozoites by mosquito inoculation has been difficult to achieve even in splenectomized monkeys. Characterization of an Aotus-P. falciparum cyclical transmission model has become a top priority as a result of the significant progress toward the development of preerythrocytic malaria vaccines. Herein, we describe a reproducible model developed using intact A. lemurinus griseimembra monkeys intravenously inoculated with sporozoites from a monkey-adapted P. falciparum (Santa Lucia) strain and a wild Falciparum-Cali-Colombia-4 (FCC-4) strain. Sporozoites were obtained by salivary gland dissection of laboratory-reared Anopheles albimanus mosquitoes. Parasitemia was monitored by thick-smear microscopy, parasite lactate dehydrogenase (pLDH) determination, and mosquito xenodiagnosis. The last method proved to be the most sensitive method for monitoring parasitemias. Infection with the Santa Lucia strain showed a mean prepatent period of 16 days (range 6-21 days), whereas infection with the wild FCC-4 strain resulted in a 24-day prepatent period. Mean peak parasite density was approximately 900 parasites/microliter for both parasite strains. The prepatent period, the peak of parasitemia, and the duration of patency were independent of the size of the sporozoite inoculum and the presence of spleen in the host. This model is being successfully used to test the protective efficacy of P. falciparum preerythrocytic vaccine candidates.
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PMID:Reproducible infection of intact Aotus lemurinus griseimembra monkeys by Plasmodium falciparum sporozoite inoculation. 1219 21

In order to document the evolution of the chemoresistance of Plasmodium falciparum to chloroquine in Madagascar, a study was carried out in Sainte-Marie island located at 6 km on the eastern border of the country. Symptomatic malaria patients who satisfied criteria for resistance testing, were recruited by a process of passive case detection at two clinics. These patients were enrolled in a sensitivity 14-day in vivo test for uncomplicated P. falciparum malaria attacks. All subjects received a supervised therapeutic regimen of chloroquine (25 mg base/kg over 3 days). Parasitemia and symptoms were monitored for 14 days. 62 (93.9%) out of the 66 enrolled patients completed the 14-day follow-up. A total of 50 of 62 patients (80.6%) presented an adequate clinical response. Early and late treatment failures were observed in 3 (4.8%) and 9 (14.5%) patients respectively. Failure therapeutic treatments treated with sulfadoxine-pyrimethamine were successful. Chloroquine remains effective in the treatment of malaria due to P. falciparum and therefore its choice as a first line drug remains justified. Likewise, guidelines for the use of sulfadoxine-pyrimethamine as second line drug are adequate. In vitro, 4 resistances out of 27 successful tests to chloroquine (14.8%) and 1 resistance out of 25 successful tests to mefloquine (4%) were recorded. No resistance to quinine nor to amodiaquine were noticed. Alternative antimalarial drugs such as quinine, amodiaquine or mefloquine can be used in patients for whom the treatment with chloroquine is not possible. Nevertheless, the level of therapeutic failures to chloroquine detected in this study highlights the need and importance of drug sensitivity test for the development of a rational national antimalarial drug policy.
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PMID:[Chemosensitivity of Plasmodium falciparum in Sainte Marie island, east coast of Madagascar: in vivo and in vitro studies]. 1246 30

The New World primate Aotus nancymaae is susceptible to infection by the human malaria parasite Plasmodium vivax and has therefore been recommended by the World Health Organization as a model for malaria vaccine candidate evaluation. We report the isolation, adaptation, titration and genetic characterization of a P. vivax wild strain in splenectomized A. nancymaae monkeys. Parasitemia remained high after 22 passages, reaching 7.88% by Giemsa and Acridine Orange staining and Real-Time PCR determination, making this P. vivax strain a highly infective and reliable asset to be used in P. vivax biological studies and vaccine development.
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PMID:A highly infective Plasmodium vivax strain adapted to Aotus monkeys: quantitative haematological and molecular determinations useful for P. vivax malaria vaccine development. 1292 28

Malaria, a major endemic tropical disease, is caused by the infection of blood cells by Plasmodium protozoa. Most patients control their parasitemia by a not fully understood spleen-dependent mechanism. SDF-1alpha is a chemokine produced by stromal cells such as reticular spleen cells. Nitric oxide (NO) has several immune functions, including killing of intracellular pathogens and its function in malaria is debated. We have previously shown that SDF-1alpha production peaks during the ascending parasitemia in Plasmodium chabaudi infection and its supplementation in lethal models could reduce the parasitemia. In the present study, we analyzed SDF-1 production by spleen cells as related to NO metabolism in the P. chabaudi rodent malaria model using IFN-gamma; TNFR and iNOS-knockout mice or iNOS-blocked, L-NAME- or aminoguanidine-treated mice. Parasitemia and production of SDF-1alpha and SDF-1beta were determined by RT-PCR. In vitro NO production by spleen adherent cells was also tested. The data showed that parasitemia was less intense in both iNOS(-/-) or NO-inhibited mice than in controls, with increased and long-lasting production of SDF-1alpha mRNA. In the absence of cytokines involved in the final regulation of NO production by effector cells, as is the case for TNFR(-/-) and GKO mice, the infection progressed in an uncontrolled manner regardless of SDF-1alpha production, suggesting that these cytokines must be involved in the control of parasitemia after the SDF-1alpha dependent process. The SDF-1beta isoform was constitutive in all experiments, with elevated levels only clearly seen in TNFR(-/-) mice. We conclude that SDF-1 is involved in the promotion of parasitemia control in malaria, and excessive NO could affect its production.
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PMID:Stromal cell-derived factor-1 production by spleen cells is affected by nitric oxide in protective immunity against blood-stage Plasmodium chabaudi CR in C57BL/6j mice. 1455 70

Cell-mediated immunity (CMI) may be important in immunity against blood-stage malaria. Accordingly, we examined the role of type 1 cytokines in the resolution of Plasmodium chabaudi adami malaria in mice genetically modified to have type 1 cytokine gene defects. Parasitemia was prolonged in double knockout (IL-2(-/-), IFNgamma(-/-)) mice compared to control mice. Despite deficiencies in gammadelta T cell and B cell subsets, these mice produced anti-malarial antibodies and eventually cured their infections, possibly by antibody-mediated immunity. However, because acute P. c. adami parasitemia may also be suppressed by CMI, the requirements for IL-2 and IFNgamma were evaluated in mice lacking B cells and functional IL-2 or IFNgamma genes. Acute malaria in J(H)(-/-), IL-2(-/-) mice was prolonged, but eventually cured. In contrast, J(H)(-/-), IFNgamma(-/-) mice developed unremitting parasitemia. These data strongly suggest that IFNgamma, but not IL-2, plays an essential role in the expression of CMI against P. c. adami infections. This finding may prove useful in developing malarial vaccines aimed at inducing CMI.
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PMID:Plasmodium chabaudi adami: interferon-gamma but not IL-2 is essential for the expression of cell-mediated immunity against blood-stage parasites in mice. 1496 93

We studied the potential role of the Duffy antigen and glycophorin A as receptors for rodent malaria parasite invasion of erythrocytes. Parasitemia increased exponentially after infection with Plasmodium berghei NK65, P. chabaudi, and P. vinckei in Duffy antigen knockout, glycophorin A knockout, and wild-type mice, indicating that the Duffy antigen and glycophorin A are not essential for these malaria parasites. However, parasitemia of the Duffy antigen knockout mice infected with P. yoelii 17XL remained constant from day 5 to 14 after infection, and then decreased, resulting in autotherapy. The treatment of P. yoelii 17XL-infected Duffy antigen knockout mice with anti-CD4 antibody increased the parasitemia 15 days after infection and the mice eventually died, indicating that CD-4-positive cells play an important role in the clearance of P. yoelii 17XL at the late stage of the infection.
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PMID:Duffy antigen is important for the lethal effect of the lethal strain of Plasmodium yoelii 17XL. 1527 42

We describe a case of Plasmodium falciparum infection in a 25-year-old male patient with a myelodysplastic syndrome, who underwent allogeneic peripheral blood stem cell transplantation (PBSCT) in September 2003. Conditioning regimen consisted of total body irradiation (10 Gy) and cyclophosphamide 60 mg/kg for 2 days. A dose of 4 x 10(6) CD34+ cells/kg was transfused. Engraftment was well documented on day 17 post-transplantation. Spiking fevers occurred on days 19 and 21, associated with a pancytopenia, hepatosplenomegaly and neurological signs. P. falciparum parasites were found on the peripheral blood smear (parasitemia = 23%). Marrow aspiration showed P. falciparum parasites and proliferation of mature histiocytes with hemophagocytosis. Quinine 10 mg/kg i.v. three times a day for 10 consecutive days was given. The fever subsided within 3 days, and pancytopenia vanished in 14 days. Parasitemia cleared in 6 days. The patient left the unit on day 46 with no further complications. The screening of donors showed that infection was acquired from two blood units (from a single donor) given 5 days before transplantation. We report the first case of profound hemophagocytosis in immunosuppressed patient with malaria of high parasitemia after a bone marrow transplant.
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PMID:Plasmodium falciparum causing hemophagocytic syndrome after allogeneic blood stem cell transplantation. 1544 74

The natural killer complex (NKC) is a genetic region of highly linked genes encoding several receptors involved in the control of NK cell function. The NKC is highly polymorphic, and allelic variability of various NKC loci has been demonstrated in inbred mice. Making use of BALB.B6-Cmv1r congenic mice, in which the NKC from disease-susceptible C57BL/6 mice has been introduced into the disease-resistant BALB/c background, we show here that during murine malaria infection, the NKC regulates a range of pathophysiological syndromes such as cerebral malaria, pulmonary edema, and severe anemia, which contribute to morbidity and mortality in human malaria. Parasitemia levels were not affected by the NKC genotype, indicating that control of malarial fatalities by the NKC cells does not operate through effects on parasite growth rate. Parasite-specific antibody responses and the proinflammatory gene transcription profile, as well as the TH1/TH2 balance, also appeared to be influenced by NKC genotype, providing evidence that this region, known to control innate immune responses via NK and/or NK T-cell activation, can also significantly regulate acquired immunity to infection. To date, NKC-encoded innate system receptors have been shown mainly to regulate viral infections. Our data provide evidence for critical NKC involvement in the broad immunological responses to a protozoan parasite.
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PMID:The natural killer complex regulates severe malarial pathogenesis and influences acquired immune responses to Plasmodium berghei ANKA. 1578 73

The aim of the present study was to assess the pharmacokinetics and the efficacy of a shorter than usual 5-day quinine treatment given orally to children in Cameroon with malaria caused by Plasmodium falciparum. Quinine (8.3 mg of base per kg of body weight every 8 h) was administered as a 2% formiate salt syrup for 5 days to 30 children (age range, 0.55 to 6.7 years) with uncomplicated falciparum malaria (initial parasitemia, 1.4 x 10(3) to 1.8 x 10(5)/microl). Quinine concentrations in plasma samples (five to nine per patient) were measured by liquid chromatography on days 1 to 3. Parasitemia was counted on days 0, 1, 2, 3, 4, 7, and 14. Pharmacokinetic and pharmacodynamic data were analyzed by population approaches by using NONMEM and WinBugs, respectively. The kinetics of quinine were best described by a one-compartment model with time-varying protein binding. Clearance and the volume of distribution were positively correlated with body weight and increased over time. Parasitemia was undetectable from day 3 to 14 in all children. The time to a 4-log reduction of the initial level of parasitemia (Ter) was related to the average quinine concentration from 0 to 72 h (Cav) as Ter = Tmin [1 + (C50/Cav)s], where sigmoidicity (s) is equal to 2, Tmin is the time to eradication at infinite Cav, and C50 is the value of Cav for which Ter is twice Tmin. The C50 distribution was unimodal, and all C50 values were less than 8 mg/liter, while Cav ranged from 5.9 to 18.3 mg/liter. The median (10th to 90th percentile) Ter was 47 h (range, 39 to 76 h). The efficacy of a 5-day treatment course should be evaluated in a larger clinical trial.
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PMID:Quinine pharmacokinetics and pharmacodynamics in children with malaria caused by Plasmodium falciparum. 1612 36

Historically, in vivo experiments of Plasmodium gallinaceum in chickens have caused high mortality. Perhaps because of this high mortality, it remains to be demonstrated whether recovered birds will resist a second episode of illness when re-exposed to infected mosquitoes. In the current study, groups of 10 chicks were infected with P. gallinaceum via mosquito bite. Parasitemia and anemia were followed by recovery in all birds, although they had persisting, low levels of parasitized erythrocytes (0.007 +/- 0.019%). Twenty-three days after the initial exposure, 10 recovered chicks were rechallenged with P. gallinaceum via mosquito bite; none of them developed clinical or hematological evidence of malaria, in contrast to matched control birds, which all became diseased (P < 0.001). Unlike previous studies, the current experiment had no mortality in chickens infected with P. gallinaceum by mosquito bite. Recovered birds resisted disease from re-exposure to the same organism. The duration and nature of immunity or premunition remain to be determined.
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PMID:Plasmodium gallinaceum: clinical progression, recovery, and resistance to disease in chickens infected via mosquito bite. 1635 20


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