Modulation of Biological Functions of Naegleria fowleri Amoebae by Growth Medium
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Abstract:
Two strains of Naegleria fowleri amoebae were studied when the amoebae were maintained in the same growth medium or in two different media. A weakly pathogenic strain of N. fowleri , LEE, and a highly pathogenic strain, LEEmpCl, were compared for growth properties, the presence or absence of surface structures termed food cups, cytopathogenicity, cellular locomotion, susceptibility to complement‐mediated lysis and immunological relatedness by western immunoblot analysis when grown in Nelson medium or in Cline medium. The two different strains of N. fowleri , LEE and LEEmpCl, were more similar in protein profiles and functional activity when both strains were grown in the same nutritional medium. Differences in growth, proteins synthesized, cytopathogenicity, susceptibility to complement lysis and rate of locomotion were noted when the same strain was grown in different media. Naegleria fowleri grown in Cline medium demonstrated an increased rate of growth, an increase in its rate of locomotion, an increased resistance to complement lysis, and destroyed target nerve cells by contact‐dependent lysis. In contrast, the same strain of amoeba grown in Nelson medium showed slower growth, destroyed target cells by trogocytosis, and was less resistant to complement‐mediated lysis.Keywords:
Naegleria fowleri
Naegleria
Strain (injury)
Here we present the first attempt to quantify Legionella pneumophila cell numbers within individual amoeba hosts that may be released into engineered water systems. The maximum numbers of culturable L. pneumophila cells grown within Acanthamoeba polyphaga and Naegleria fowleri were 1,348 (mean, 329) and 385 (mean, 44) CFU trophozoite(-1), respectively.
Naegleria
Naegleria fowleri
Legionella
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Using scanning electron microscopy, we observed sucker-like structures on amoebae of 13 human isolates of Naegleria fowleri. The number of suckers per amoeba seemed to vary according to the virulence of the strain. We propose the term amoebastome to describe this unique sucker-like structure of N. fowleri.
Naegleria fowleri
Sucker
Naegleria
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Naegleria fowleri
Naegleria
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Summary An experiment was performed which confirmed a previous finding that mice are protected against Naegleria fowleri infection by immunization with amoeba‐free supernatant from amoeba cultures. Histological observations suggested that this protection is expressed mainly at the nasal mucosa and possibly results from the combined effects of polymorphonuclear leucocyte‐mediated killing of the amoeba and mechanical elimination of the organisms by extensive shedding of necrotic epithelium.
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Naegleria
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Naegleria fowleri
Naegleria
Lytic cycle
Entamoeba
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Naegleria fowleri is a free-living amoeba, known as a causative agent for a fatal disease of the central nervous system (CNS) in man such as Primary amoebic meningoencephalitis (PAM). Factors contributing to its pathogenicity and its distribution in the environment have been investigated by previous researchers. In case of its pathogenicity, several enzymes such as phospolipase A and sphingomyelinase, have been proposed to probably act as aggressors in promoting PAM but no study so far have been conducted to investigate the presence of proteinase enzyme in this amoeba although a 56kDa cystein proteinase enzyme has been identified in Entamoeba histolytica as an important contributing factor in the amoeba's virulence. In this preliminary study, a pathogenic amoeba, Naegleria fowleri (strain NF3) was examined for the presence of proteinases. Samples of enzymes in this amoeba were analysed by electrophoresis using SDS-PAGE-gelatin gels. The results showed that this amoeba possesses at least two high molecular weight proteinases on gelatin gels; their apparent molecular weights are approximately 128 kDa and approximately 170 kDa. Band of approximately 128 kDa enzyme is membrane-associated and its activity is higher at alkaline pH compared with lower pH; at lower pH, its activity is greatly stimulated by DTT. The approximately 170 kDa band enzyme appears to be inactivated at pH 8.0, at lower ph its activity is higher and DTT-dependance. The activity of this enzyme is partially inhibited by inhibitor E-64 but markedly inhibited to antipain suggesting it belongs to the cysteine proteinase group.
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Naegleria
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Naegleria fowleri the causative agent of Primary Amoebic Meningoencephalitis, is ubiquitously distributed worldwide in various warm aquatic environments and soil habitats. The present study reports on the presence of Naegleria spp. in various water bodies present in Rohtak and Jhajjar district, of state Haryana, India. A total of 107 water reservoirs were screened from summer till autumn (2012 and 2013). In order to isolate Naegleria spp. from the collected water samples, the water samples were filtered and the trapped debris after processing were transferred to non-nutrient agar plates already seeded with lawn culture of Escherichia coli. Out of total 107 water samples, 43 (40%) samples were positive by culture for free living amoeba after incubation for 14 days at 37°C. To identify the isolates, the ITS1, 5.8SrDNA and ITS2 regions were targeted for PCR assay. Out of total 43 positive samples, 37 isolates were positive for Naegleria spp. using genus specific primers and the most frequently isolated species was Naegleria australiensis. Out of 37 Naegleria spp. positive isolates, 1 isolate was positive for Naegleria fowleri. The sequence analysis revealed that the Naegleria fowleri strain belonged to Type 2.
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Naegleria fowleri
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Background Members of the genus Naegleria are free-living amoebae distributed in various aquatic environments. Naegleria fowleri is the only species that can cause fatal primary amoebic meningoencephalitis in humans. Materials and methods A total of 48 Nile water samples were collected from the water stream passing though Cairo. The samples were processed for the detection of Naegleria spp. using non-nutrient agar at 45°C. The isolates of Naegleria spp. were identified based on the morphologic criteria of trophozoite, flagellated and cyst stages. Molecular characterization of the isolates was performed using PCR. Results The obtained results showed that Naegleria spp. were found in 45.8% of Nile water samples by means of microscopic examination. Seasonally, the highest prevalence of Naegleria spp. was recorded in summer (66.7%). Moreover, the highest prevalence of N. fowleri was recorded in summer (25%). Conclusion The occurrence of heat-tolerant Naegleria spp., especially N. fowleri, in Nile water should be considered as a potential health threat.
Naegleria
Naegleria fowleri
Isolation
Fresh water
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Naegleria fowleri
Naegleria
Hot spring
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