UMLS:C0155339 - FACTA Search

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Query: UMLS:C0155339 (Brown)
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The effect of induction of an acute-phase response and its mediators on the development of liver schizonts of the rodent malaria parasite Plasmodium berghei was investigated in Brown Norway rats. Subcutaneous injection of turpentine oil 24 h or 5 min before inoculation of sporozoites resulted in 80% and 35% reduction of schizont development, respectively. Turpentine oil induced high plasma levels of interleukin-6 (IL-6). Intraperitoneal administration of IL-1, IL-6 or both, significantly reduced liver schizont development. This reduction was also present if IL-6 had been administered 24 h after sporozoite inoculation. Inhibition induced by IL-1 could be prevented by simultaneous administration of polyclonal anti-IL-6. Administration of polyclonal anti-IL-6 without IL-1 resulted in a 40% increase of liver schizonts compared to control animals. We conclude that induction of an acute-phase response during experimental Plasmodium berghei infections in Brown Norway rats, strongly inhibits liver schizont development and that IL-6 is a key mediator in this process.
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PMID:Cytokines inhibit the development of liver schizonts of the malaria parasite Plasmodium berghei in vivo. 151 19

By using a specific, repetitive DNA probe, we have been able to detect picograms of P. berghei DNA. With this probe we have determined that: a) P. berghei, inoculated into Norway Brown rats, reaches its peak of proliferation in the liver 44 h after infection; b) gamma interferon inhibits in a dose-dependent fashion the development of liver exoerythrocytic forms (EEF) in vivo and in vitro, and; c) endogenous gamma interferon inhibits the development of EEF in hosts immunized with irradiated sporozoites. Related with and derived from these findings, we have found that, in order to obtain an effective immunity against malaria in experimental animal models, effector mechanisms mediated by T cells are required. This is substantiated by the following facts: a) immune hosts inoculated with monoclonal antibodies against gamma interferon reversed their immunity against a sporozoite challenge; b) This immunity was also reversed when the animals were depleted from their CD8 positive cytotoxic T cells. Therefore, sterile immunity against this parasite requires not only the presence of antibodies but also the inhibition of the EEF by gamma interferon with participation of CD8 positive T cells.
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PMID:[Use a of DNA probe to detect cellular immunity against intracellular parasitism]. 172 69

DNA encoding an antigen of 101,000 apparent molecular weight from the human malaria parasite Plasmodium falciparum was cloned and sequenced. Genomic DNA from the Camp strain covering the complete coding region along with cDNA from the FCR3 strain covering 81% of the coding region were obtained. The cloned DNA specified a full-length protein of 743 amino acids which included two tandemly repeated regions, one near the amino terminus containing eight hexapeptide repeats of sequence TVNDEDED, and the second near the carboxyl terminus containing primarily KE and KEE repeats. The latter repeated region is encoded by a 174-base stretch of mRNA containing only a single pyrimidine. Except for a putative leader sequence located at the amino terminus of the protein, the protein is hydrophilic and highly charged with a calculated isoelectric point of 5.6. Sequences from the Camp and FCR3 strains are very close and are also nearly identical to the partial cDNA sequence of the acidic basic repeated antigen (ABRA) protein from the FC27 strain (Stahl, H.D., Bianco, A.E., Crewther, R.F., Anders, R.F., Kyne, A.P., Coppel, R. L., Mitchell, G.F., Kemp, D.J., and Brown, G.V. (1986) Mol. Biol. Med. 3, 351-368). ABRA was previously shown to be located at the merozoite surface and in the parasitophorous vacuole. Because of its location and because it becomes complexed to merozoites when schizonts rupture in the presence of immune serum, ABRA is a candidate component of a malaria vaccine.
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PMID:Primary structure of a Plasmodium falciparum malaria antigen located at the merozoite surface and within the parasitophorous vacuole. 304 68

A 2.3 kb, 32P-labeled repetitive DNA probe of Plasmodium berghei was used to measure the amount of parasite DNA in the liver of Norway Brown rats and mice infected with sporozoites. Standard hybridization curves were obtained by probing different amounts (100 pg to 1 microgram) of P. berghei DNA immobilized on nitrocellulose filters. Host DNA did not interfere with hybridization specificity and sensitivity. A 100-fold increase in hepatic parasite DNA was detected between 25 h post-infection and the peak of parasite proliferation, detected at 44 h. The amount of parasite DNA increased with the number of injected sporozoites. At 5 h post-infection, a large proportion of parasite DNA was found in the spleen. However, this diminished with time and was negligible in amount at 25 h. A significant number of viable sporozoites were probably cleared in the spleen, since considerably more parasite DNA was found in the livers of splenectomized rats than in sham-operated counterparts. Although older rats develop much lower parasitemias upon inoculation of sporozoites, no significant differences were observed in the amount of parasite DNA in rats, 43 and 152 days old, injected with equal numbers of sporozoites. The higher resistance to malaria displayed by older rats is probably controlled by post-hepatic events. The infectivity of sporozoites for A/J mice was calculated to be about 1/20th that of Norway Brown rats.
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PMID:Infectivity of Plasmodium berghei sporozoites measured with a DNA probe. 352 38

Infections of mammalian malaria parasites start when sporozoites from an infected anopheline mosquito are injected into the bloodstream of the host. The sporozoites enter the hepatocytes and become transformed into exoerythrocytic schizonts. Since the discovery of the primate parasite Plasmodium cynomolgi in monkey hepatocytes and the rodent parasite Plasmodium berghei in hamster hepatocytes, the ultrastructure of these stages has been extensively studied both in primate and rodent plasmodia. These observations relate only to the development of the exoerythrocytic schizont 25 h after sporozoite injection until the final maturation (of P. berghei) 50 h post-inoculation. Recently, we have studied the route of entry of sporozoites across the cellular lining of liver sinusoids and invasion of the liver parenchymal cells by using transmission electron microscopy. The results of these studies in combination with other physiological experiments strongly suggested that the sporozoite was initially harboured by the Kupffer cell, from which the parasite escaped into the neighbouring hepatocyte. The migration of sporozoites from liver sinusoids to hepatocytes can be achieved within a few minutes. We present here the first ultrastructural observations on the natural transformation of intrahepatocytic sporozoites into exoerythrocytic forms in vivo, using the rodent malaria parasite P. berghei in a laboratory host, the Brown Norway rat. These observations complete the search for the final link in the life cycle of malaria parasites.
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PMID:Malaria parasites--discovery of the early liver form. 633 45

Sporozoites of the rodent malaria parasite Plasmodium berghei have been grown in primary cultures of hepatocytes from Brown Norway rats. The ultrastructure of in vitro grown exoerythrocytic forms was compared with that of parasites in vivo. Peculiar vesicles, previously not described in vivo, were identified and their possible origin is discussed. Otherwise, the fine structure of the hepatocytic stages grown in vitro was shown to be grossly similar to those in vivo. Therefore, electron microscopy of cultured exoerythrocytic parasites will contribute to the understanding of the cell biology and drug sensitivity of this elusive stage.
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PMID:Fine structure of Plasmodium berghei exoerythrocytic forms in cultured primary rat hepatocytes. 638 52

Both CD8+ T cells and IFN-gamma (IFN-gamma) are important components in the regulation of inducible-nitric oxide synthase (iNOS) which contribute to liver stage anti-malarial activity in rodents immunized with irradiated sporozoites. IFN-gamma, provided by malaria-specific CD8+ T cells, stimulates liver cells to produce nitric oxide (NO) for the destruction of infected hepatocytes or the parasite within these cells. To identify the cell source of iNOS in livers from Brown Norway rats challenged with Plasmodium berghei sporozoites, we probed tissue sections with antisera that recognize iNOS and the malarial exoerythrocytic stage parasite. Immunofluorescence analysis of parasitized livers demonstrate that 1) iNOS was found in infected hepatocytes, not Kupffer or endothelial cells; and 2) a higher proportion of infected hepatocytes express iNOS in immunized rats compared with naive animals after challenge. There was no immunoreactivity to the iNOS antisera in liver sections of immunized rats 15 h after sporozoite challenge, however, iNOS activity was present in 18% of the infected hepatocytes by 24 h and reached 81% by 31 h. In contrast, < 10% of the infected hepatocytes displayed iNOS activity in naive or immune animals 48 h after challenge. We also found a significant decrease in the ability of the immunized animals to express iNOS in response to sporozoite challenge by accelerating the removal of pre-existing irradiated-attenuated parasites from hepatocytes with the antimalarial drug, primaquine. Therefore, induction and maintenance of iNOS activity were dependent on intrahepatic persistence of the irradiated-attenuated parasite. These results suggest that liver-iNOS expression following sporozoite challenge is restricted to the infected hepatocyte and dependent on the presence of the irradiated-attenuated parasite in immune animals.
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PMID:Co-localization of inducible-nitric oxide synthase and Plasmodium berghei in hepatocytes from rats immunized with irradiated sporozoites. 753 96

Immunization with irradiated-attenuated malaria sporozoites has been shown to protect both rodents and humans against a homologous sporozoite challenge. Irradiated-attenuated sporozoites retain their capacity to invade hepatocytes and transform into trophozoites without undergoing complete schizogony. As a result, the minute size of these trophozoites (4-8 microns) makes their detection by conventional microscopy difficult. An additional problem lies in obtaining sufficient quantities of exoerythrocytic stages of attenuated parasites in vivo to study their antigenic repertoire and the sequence of events that occur after immunization of hosts. We have used a previously described method of inoculating Plasmodium berghei sporozoites directly into specific liver lobes (HPBI = hepatic portal branch inoculation) to improve parasite yields. Comparing HPBI with tail vein inoculation of sporozoites in Brown Norway rats and C57BL/6 mice revealed up to a 6-fold increase in hepatic parasite yields by HPBI method. The inoculation of 3 x 10(6) irradiated sporozoites via HPBI yielded 139 +/- 2 and 69 +/- 2 exoerythrocytic parasites per cm2 of liver in Brown Norway rats and C57BL/6 mice, respectively. The HPBI method therefore not only facilitates visualization of a large number of irradiated hepatic stage parasites within the defined lobes of the liver but also provides ample numbers of parasites for immunization and for immunological analysis.
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PMID:Plasmodium berghei: production and quantitation of hepatic stages derived from irradiated sporozoites in rats and mice. 787 79

The elimination of liver-stage malaria parasites by nitric oxide (NO)-producing hepatocytes is regulated by T cells. Both CD8+ and CD4+ T cells, which surround infected hepatocytes, are evident by 24 h after sporozoite challenge in Brown Norway rats previously immunized with irradiated Plasmodium berghei sporozoites. While the number of CD4+ T cells remained the same beyond 24 h postchallenge, the number of CD8+ T cells increased three- and sixfold by 31 and 44 h, respectively. This increase in the number of CD8+ T cells correlated with a decrease in the number of intrahepatic parasites. In immunized rats, intrahepatic parasites were reduced in number by 31 h after sporozoite challenge and cleared from the liver by 44 h, as visualized by P. berghei-specific DNA in situ hybridization. If immunized rats were treated with aminoguanidine, a substrate inhibitor of NO synthase, at the time of challenge, liver-stage protection was blocked, as shown by the increase in parasite liver burden. Further histological examination of infected livers from immunized animals treated with aminoguanidine revealed fewer and smaller cellular infiltrates surrounding the infected hepatocytes, and the number of CD8+ T cells that normally accumulate within the infiltrates was drastically reduced. Consequently, the infected hepatocytes were not cleared from the liver. We hypothesize that the early production of NO may promote the influx and/or enhance local proliferation of malaria parasite-specific CD8+ T cells or a CD8+ T-cell subset which is required for parasite clearance.
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PMID:Inhibition of nitric oxide interrupts the accumulation of CD8+ T cells surrounding Plasmodium berghei-infected hepatocytes. 928 67

Malaria is a problem of global importance, responsible for 1-2 million deaths per year, mainly in African children, as well as considerable morbidity manifested as severe anaemia and encephalopathy in young children. Fundamental to the development of new tools for malaria control in humans is an increased understanding of key features of malaria infection, such as the diversity of outcome in different individuals, the understanding of different manifestations of the disease and of the mechanisms of immunity that allow clinical protection in the face of ongoing low-grade infection (concomitant immunity or premunition). Here, Graham Brown and colleagues review some of the ways in which molecular approaches might be used to increase our understanding of the epidemiology and clinical manifestations of malaria, as discussed at the Molecular Approaches to Malaria conference (MAM2000), Lorne, Australia, 2-5 February 2000.
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PMID:Molecular approaches to epidemiology and clinical aspects of malaria. 1100 78

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