UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Freeze-thawing of blood infected with malaria parasites is a technique which brings about the destruction of all stages except the merozoites and makes possible investigations on the behaviour of these merozoites and the schizogonic rhythm of each species. Merozoites of Plasmodium y. yoelii remain in the blood during the 24 hrs. following inoculation; it is concluded that their penetration in the erythrocytes occurs gradually during this time. Synchronism is poor. Merozoites of P. vinckei petteri penetrate rapidly inside the erythrocytes independently of the time of inoculation. Infection is therefore synchronous and does not follow the circadian rhythm of the host. Penetration of merozoites of P. c. chabaudi is predominant at midnight when rodents are maintained with a normal circadian rhythm (light from 8 am to 8 pm) and predominant at noon when the rhythm of the host is inverted (light from 8 pm to 8 am). Infection is therefore synchronous and follows the host rhythm. The three species of plasmodia coexisting in Thamnomys rutilans from CAR show the same periodicity of 24 hrs. but, because of differences in the biology of the merozoites, they occupy three distinct niches. These notions have great practical implications in chronotherapy, as many data lead to the idea that merozoites are drug resistant.
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PMID:[Timing niches of 3 species of Plasmodium coexisting in a rodent in Central Africa]. 210 60

We analyzed the biological role of nitric oxide (NO) during murine Trypanosoma cruzi infection. Infection of mice with T. cruzi markedly increased NO synthesis. Administration of N-nitro-L-arginine methyl-esther (L-NAME) intraperitoneally or intragastrically diminished endogenous NO synthesis and resistance of mice to acute infection with three biologically different strains of T. cruzi. Mice protected against challenge with T. cruzi by transfer of T-cell-enriched populations from chronically infected animals, showed higher serum nitrate levels than controls non-transferred, or transferred, with T cells from non-immune mice. Administration of L-NAME abrogated transfer of resistance, suggesting NO participation in this process. Depletion of T cells from the transferred population abolished both protection and NO3- increase. On the contrary, mice chronically infected with T. cruzi showed no increased parasitemia or death upon treatment with L-NAME. The NO donor drug S-nitroso-acetyl-penicillamine was able to kill tissue culture or bloodstream trypomastigotes in vitro at biologically relevant concentrations. Conversely, NO appeared not to play a role in formation of inflammatory foci during T. cruzi infection, since infected mice treated with L-NAME showed no reduced inflammation.
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PMID:Role of nitric oxide in resistance and histopathology during experimental infection with Trypanosoma cruzi. 853 88

Four-day-old BALB/c mice were infected by the oral administration of 50,000 Cryptosporidium parvum oocysts, and the resulting infection was scored histologically and by counting colonic oocysts. Infection occurred in the ileum and proximal colon (but not duodenum and jejunum), peaked on days 14 to 18, and was cleared between days 24 and 30. Nitric oxide (NO) appeared to play a protective role in this model as evidenced by the facts that plasma nitrite and nitrate levels increased during the period of peak parasitosis; immunohistochemically detected inducible nitric oxide synthase (iNOS) was increased in the ileum and colon enterocytes of infected animals; the NOS inhibitor L-N-iminoethyl lysine or N-nitro-L-arginine methyl ester (L-NAME) decreased the elevated plasma nitrite and nitrate levels while exacerbating the infection and increasing oocyst shedding; administration of a NO donor, S-nitroso-N-penicillamine, reduced oocyst and infection scores; and neonatal iNOS knockout mice exhibited a slightly longer infection than control animals. The oral administration of oocysts to L-NAME-treated BALB/c mice, but not control animals, between 24 and 40 days old resulted in the fecal excretion of oocysts 1 week later. Administration of the antioxidant ascorbic acid also exacerbated the C. parvum infection, suggesting a protective role for reactive nitrogen and/or reactive oxygen compounds, while administration of the superoxide scavenger superoxide dismutase exacerbated the infection. Taken together these data suggest that both reactive nitrogen and reactive oxygen species play protective roles in experimental cryptosporidiosis.
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PMID:Reactive nitrogen and oxygen species ameliorate experimental cryptosporidiosis in the neonatal BALB/c mouse model. 1053 Dec 44

Tissue kallikrein cleaves kininogen substrate to produce vasoactive kinin peptides that have been implicated to play a role in the proliferation of vascular smooth muscle cells (VSMC). In order to explore potential roles of the kallikrein-kinin system in vascular biology, we evaluated the effects of adenovirus-mediated kallikrein gene delivery on neointima formation in balloon-injured rat artery. Infection of isolated rat aortic segments with adenovirus containing the human tissue kallikrein gene resulted in a time-dependent secretion of recombinant human tissue kallikrein, and significant increases in nitric oxide (NOx) and guanosine 3',5'-cyclic monophosphate (cGMP) levels post gene transfer. Human tissue kallikrein gene was delivered locally via adenoviral vectors into left common carotid artery after balloon angioplasty. Two weeks following gene transfer, we observed a 39% reduction in intima/media ratio at the injured vessel as compared to that of rats receiving control virus (n = 8, P < .01). Delivery of N(omega)-nitro-L-arginine methyl ester (L-NAME), a NOx synthase inhibitor via minipump for 2 weeks, blocked the protective effect and reversed the intima/media ratio to that of control rats (n = 5, P < .01). These results indicated that human tissue kallikrein gene delivery inhibits neointima formation via NO-cGMP signaling pathway. This study provides new insights into the role of the vascular kallikrein-kinin system and may have significant implications for gene therapy in treating occlusive vascular diseases.
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PMID:Adenovirus-mediated kallikrein gene transfer inhibits neointima formation via increased production of nitric oxide in rat artery. 1060 37

Efficient adenovirus vector-mediated gene transfer depends on the presence of sufficient amounts of the high-affinity coxsackie-adenovirus (Ad) receptor (CAR) on the surface of the target cell leading to receptor-mediated endocytosis of the vector. The present study evaluates the effect of free cholesterol, a lipid component of endocytic vesicles, on Ad uptake into CAR-deficient cells. Infection in the presence of free cholesterol at its maximum solubility in water led to increased binding, uptake, and expression of Ad in human skin fibroblasts and alveolar macrophages, two primary human cells known to be deficient in CAR. The effect of free cholesterol was maximal at its solubility maximum in aqueous solution. Increase of Ad vector-mediated gene transfer with cholesterol was dependent on the lack of CAR receptor expression on the surface and was diminished by overexpression of CAR in CAR-deficient cells. Cholesterol-mediated increase of Ad-mediated gene expression was dependent on coincubation of both cholesterol and Ad and was not dependent on the cholesterol content of the cell. Increased Ad vector-mediated gene expression in the presence of free cholesterol was also observed in murine skin in vivo. Structural analysis of the Ad-cholesterol mixture showed complexation between Ad particles leading to formation of multivirus aggregates due to hydrophobic interaction. The addition of free cholesterol with Ad vectors may be a simple way to increase Ad-mediated gene transfer to cells that are poor targets due to their lack of a sufficient number of Ad receptors.
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PMID:Free cholesterol enhances adenoviral vector gene transfer and expression in CAR-deficient cells. 1093 10

CD40 is a receptor with numerous functions in the activation of antigen presenting cells (APCs), particularly dendritic cells (DC). Using phage display technology, we identified linear peptides containing a novel FPGN/S consensus sequence that enhances the binding of phage to a purified murine CD40-immunoglobulin (Ig) fusion protein (CD40-Ig), but not to Ig alone. To examine the ability the FPGN/S peptides to enhance adenoviral infection of CD40-positive cells, we used bifunctional peptides consisting of an FPGN-containing peptide covalently linked to an adenoviral knob-binding peptide (KBP). One of these, FPGN2-KBP, was able to enhance adenoviral infection of both murine and human DCs in a dose-dependent manner. FPGN2-KBP also improved infection of murine B cell blasts, a murine B lymphoma cell line (L10A), and immortalized human B cells. To demonstrate that enhancement of adenoviral infection depended on the presence of CD40, we analyzed infection of the breast cancer line, SKBR3, that does not express CD40 or the adenovirus cellular receptor, CAR. Infection of SKBR3 cells was enhanced by FPGN2-KBP following transient transfection with a plasmid vector that expresses murine CD40, but not when the cells were mock-transfected. In conclusion, we have isolated a peptide that binds to murine CD40, and promotes the uptake of adenoviruses into CD40-expressing cells of both murine and human origin, suggesting that it may have potential applications for antigen delivery to CD40-positive antigen-presenting cells.
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PMID:A peptide containing a novel FPGN CD40-binding sequence enhances adenoviral infection of murine and human dendritic cells. 1275 48

Infection of humans with Trypanosoma brucei causes sleeping sickness, which is invariably fatal if left untreated. The course of infection is characterised, among others, by multiple organ damage including cardiovascular dysfunctions such as hypotension and breakdown of the blood-brain barrier. The latter eventually leads to the parasite invasion into central nervous system and ultimately to the death of the patient. Nitric oxide (NO) synthesised from L-arginine via endothelial NO-synthase (eNOS) is involved in the control of vascular tone and permeability. The present study explores the effect of T. brucei infection on the endothelium-dependent in vitro vasomotor response of isolated mouse aortas. Aorta rings were suspended in organ chambers for isometric tension recording. The endothelium-dependent NO-mediated relaxation in response to acetylcholine (10(-9) to 10(-5) M) was markedly enhanced in the infected mice compared to controls (P<0.05), whereas the endothelium-independent vasodilation to an exogenous NO-donor, sodium nitroprusside, was comparable in both groups. Norepinephrine-stimulated contraction was also comparable in the absence or presence of the NO-synthase inhibitor N(omega)-Nitro-L-arginine methyl ester (L-NAME; 10(-4)M) in both groups. The enhanced endothelium-dependent relaxation in the infected mice correlated well with a 3.5-fold increase in eNOS protein level in these aortas as compared to those of control mice (P=0.05). Thus, T. brucei infection enhances eNOS protein expression in the endothelium, causing a pronounced vasodilation. Overproduction of NO in trypanosomiasis may be involved in the observed generalised hypotension and in an increased vascular permeability that facilitates T. brucei invasion into surrounding tissues and its penetration into the central nervous system in later phases of infection.
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PMID:Enhanced endothelial nitric oxide-synthase activity in mice infected with Trypanosoma brucei. 1312 32

Nitric oxide (NO) has been implicated as a contributor to the host's innate defense against viral infections including those affecting the CNS. Reovirus infection of the CNS is a classic experimental system for understanding the pathogenesis of neurotropic viral infection. Infection with serotype 3 strains is associated with perturbations in various cellular signaling pathways including NF-kappaB and NO plays a regulatory role in many of these same pathways. We therefore examined whether NO production is dysregulated following reovirus serotype 3 strain Abney (T3A) infection of the mouse CNS. Nitric oxide synthase (NOS) activity was significantly higher in brain homogenates from T3A-infected animals compared to mock infected. Increased NOS activity correlated with inducible NOS (iNOS) expression in brain homogenates of T3A-infected animals. Expression of iNOS was confined to areas of viral infection and injury. T3A infection of primary neuronal and glial cultures was also associated with enhanced expression of iNOS. Immunocytochemical studies of primary glial cultures demonstrated that, in addition to its known neuronotropism, T3A was also capable of infecting immature microglial cells. T3A infection did not alter expression of either neuronal or endothelial NOS isoforms in neuronal or glial cultures or in mouse brain. The NO donor S-Nitroso-N-acetyl penicillamine (SNAP) significantly inhibited T3A growth in neuronal cultures, conversely the NOS inhibitor N-omega-Nitro-L-arginine methyl ester hydrochloride (L-NAME) augmented viral growth. Our findings provide the first evidence of reovirus-induced iNOS expression and the first demonstration that NO inhibits mammalian reovirus replication, suggesting that NO may play an antiviral role during reovirus infection.
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PMID:Reovirus infection of the CNS enhances iNOS expression in areas of virus-induced injury. 1600 84

The study subject was the white rat-males Wistar after intra-peritoneal injection of the mixture of St. aureus and B. pyocyaneus daily cultures in the dose calculated as 1 milliard microbial organisms of each species per 100 g b.w., as well as the vascular preparations isolated from aortas of those rats. The aim is to study nitric oxide role in the development of resistant hypotension under generalization of the purulent infection. Infection of the animals with a mixture of gram-positive and gram-negative cultures led to the development of the pathological process, which can be considered as a septic (bacterial) shock. A primary lowering of the vascular tone caused by depression of the myocardial pump and contractile functions was observed. Injection of methylene blue or NOS blockers (L-NAME, S-methyl-thiourea) to the infected animals in the moment of hypotension development caused only a short-term rise in blood pressure. Survival rate in such animals was significantly lower compared to the control infected animals. Repeated injections of those agents hastened death of the experimental animals. The experiments in vitro revealed no dilatory effect of acetylcholine with preserved sensitivity of the vascular preparations to adrenomimetics and exogenous nitric oxide in both control infected animals and animals injected with methylene blue or NOS blockers. The data obtained suggested that resistant hypertension in terminal stages of septic shock is nitric oxide-independent.
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PMID:[Inhibition of nitric oxide synthesis during bacterial shock does not prevent development of resistant hypotension and death in rats]. 1610 24

Glial fibrillary acidic protein (GFAP) is an intermediate filament protein abundantly expressed in malignant gliomas. We have constructed a novel oncolytic adenovirus, Ad5-gfa2(B)3-E1, for treatment of these tumors. In this construct, the E1 region is under control of the tissue-specific GFAP promoter (gfa2) with three additional copies of the glial specific 'B' enhancer. Infection of a GFAP-positive cell line with Ad5-gfa2(B)3-E1 resulted in E1A and E1B expression at 75% and 30% of the levels obtained after wtAd5 infection. Q-PCR showed that Ad5-gfa2(B)3-E1 replicated 4.5 times more efficiently in the GFAP-positive than in the GFAP-negative cell lines. Cell viability assays showed efficient elimination of GFAP-positive cells by Ad5-gfa2(B)3-E1, in some cell lines as efficiently as wtAd5, while the elimination was attenuated in GFAP-negative cell lines. When tested in human tumor xenografts in nude mice, Ad5-gfa2(B)3-E1 effectively suppressed the growth of GFAP-positive SNB-19 glial tumors but not of GFAP-negative A549 lung tumors. In Ad5-gfa2(B)3-E1, the E3 region was deleted to create space for future insertion of heterologous therapeutic genes. Experiments with dl7001, an E3-deleted variant of wtAd5, confirmed that the specificity of Ad5-gfa2(B)3-E1 replication was based on the promoter driving E1 and not on the E3 deletion. Strategies to further improve the efficacy of Ad5-gfa2(B)3-E1 for the treatment of malignant gliomas include the insertion of therapeutic genes in E3 or retargeting to receptors that are more abundantly expressed on primary glioma cells than CAR.
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PMID:Targeting malignant gliomas with a glial fibrillary acidic protein (GFAP)-selective oncolytic adenovirus. 1790 84

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