Phagocytic Activity of Three Naegleria Strains in the Presence of Erythrocytes of Various Types1

The phagocytic activities of N. lovaniensis (Aq/9/1/45D) and N. gruberi (1518/1f and 1518/1e) were studied in the presence of erythrocytes of various species: chicken, rabbit, goat, and human (A⁺, B⁺, and AB⁺ were tested). The percentage of amoebae with ingested red cells, the phagocytic index (PhI), can be considered as an expression of phagocytic activity. Under given conditions (erythrocyte concentration, incubation time, age of amoebic cultures) each strain of Naegleria prefers one erythrocyte type. Thus, for 72-h cultures, N. lovaniensis ingested more A⁺ type erythrocytes than did N. gruberi strains but had very low affinity for rabbit red cells except when very high concentrations were tested. Naegleria gruberi 1f was the most active of the three strains towards rabbit and B⁺ and AB⁺ human erythrocytes, but very low PhIs were obtained with goat erythrocytes. Naegleria gruberi le exhibited high phagocytic activity for every erythrocyte type except for rabbit red cells.     

Restriction endonuclease analysis of mitochondrial DNA as an aid in the taxonomy of Naegleria and Vahlkampfia

Using restriction enzyme analysis, mitochondrial DNA fragment patterns from seven strains of pathogenic and nonpathogenic Naegleria and one strain of Vahlkampfia were compared to estimate nucleotide sequence divergence. Significantly high levels of estimated genetic variation between strains of N. gruberi, N. fowleri, and N. jadini support the current taxonomic level of the individual Naegleria species and suggest a distinct phylogeny for each group. Naegleria lovaniensis, strain TS, was shown to have significant nucleotide sequence homology with N. gruberi, strain EGs, suggesting that the two groups share a close taxonomic relationship. The pathogenic strain MB-41 of N. fowleri exhibited distinct genetic divergence from the highly homologous, pathogenic strain Nf66 and the drug-cured strain 6088. Morphologically distinct strains EGs and 1518/la of N. gruberi exhibited significantly large sequence divergence consistent with a more distant taxonomic relationship. Amoebae from the genus Vahlkampfia expressed genetic similarity with strains of N. gruberi.     

Cytopathology of pathogenic and nonpathogenic Naegleria species for cultured rat neuroblastoma cells.

The cytopathology for rat neuroblastoma cells (B-103) and the pathogenicity for B6C3F1 mice of four species of Naegleria have been compared. Both live amoebae and cell-free extracts of N. australiensis, N. fowleri, N. gruberi, and N. lovaniensis added to 51Cr-labeled B-103 cells caused release of radiolabel. All four species of Naegleria exhibited surface extensions termed food cups. Only N. fowleri and N. australiensis were pathogenic for mice. Electron microscopic observations of cultures of either N. australiensis or N. lovaniensis with B-103 cells established that the cytopathology involved lysis of the B-103 target cells.     

Cytopathology of pathogenic and nonpathogenic Naegleria species for cultured rat neuroblastoma cells

The cytopathology for rat neuroblastoma cells (B-103) and the pathogenicity for B6C3F1 mice of four species of Naegleria have been compared. Both live amoebae and cell-free extracts of N. australiensis, N. fowleri, N. gruberi, and N. lovaniensis added to 51Cr-labeled B-103 cells caused release of radiolabel. All four species of Naegleria exhibited surface extensions termed food cups. Only N. fowleri and N. australiensis were pathogenic for mice. Electron microscopic observations of cultures of either N. australiensis or N. lovaniensis with B-103 cells established that the cytopathology involved lysis of the B-103 target cells.     

Discontinuous genetic variation among mesophilic Naegleria isolates: further evidence that N. gruberi is not a single species.

Naegleria isolates which are currently placed in the type species N. gruberi display great genetic, physiological and morphological heterogeneity. There are two possible interpretations of the nature of this species--that N. gruberi is a species complex or that it is a single continuously variable species. To distinguish between these alternatives, allelic states were determined for 33 loci in 74 new isolates selected to represent wide geographic sources and diverse temperature limits for growth. The results were compared with data for culture collection strains of N. gruberi and other species in the genus. The isolates formed a discontinuous series of clusters, separated by genetic distances similar to those separating the better-characterised taxa N. fowleri, N. lovaniensis, N. jadini, N. australiensis australiensis and N. australiensis italica. Culture collection strains assigned to N. gruberi fell into six distinct clusters, while other clusters were not represented by reference strains. The data are most consistent with the interpretation that N. gruberi is a group of several distinct species, each equivalent to the recently described species in the genus. Naegleria andersoni andersoni and N. andersoni jamiesoni also formed two distinct clusters, equivalent to species. Characteristics temperature limits for growth show that the mesophilic species are ecological as well as genetic entities.     

Comparative Study of Six Strains of Naegleria with Special Reference to Nonpathogenic Variants of Naegleria fowleri*

SYNOPSIS. Naegleria fowleri strains HB-1 and KUL, pathogenic for humans, Naegleria gruberi strain 1518/1e, and 3 strains (Vm1, LvH₁, and LvH₂) of Naegleria isolated from a body of water polluted with thermal effluents were compared in an attempt at specific identifications of the latter strains. The 3 environmental isolates were morphologically almost identical with N. fowleri and had almost the same temperature tolerance, although at 37 and 42 C the growth rates of LvH₁ and LvH₂ were higher than those of the human pathogen, N. fowleri, and of isolate Vm1, which was pathogenic for mice. Serologic examinations by indirect fluorescent antibody method revealed a very close relationship of the new isolates with the human pathogens. While Vm1 was indistinguishable from N. fowleri, LvH₁ and LvH₂ were not, when cross-absorbed antisera were used. Of all the strains examined, only the 2 LvH isolates were not inhibited by amphotericin B, while only N. gruberi was not inhibited by fumagillin. The cytopathic effect in Vero cell cultures suggested that the LvH strains could have a certain degree of virulence, although this was not confirmed by intranasal and intracerebral inoculations of mice. The cytopathic effects of the human pathogens and of the isolate pathogenic for mice were related to their virulence for mice. It is concluded that there exists an intermediate form between N. gruberi and N. fowleri, with a strong relationship to the latter species. We refer to such strains as nonpathogenic variants of N. fowleri. Further research is needed to reveal their place in the taxonomy.     

Discontinuous Genetic Variation Among Mesophilic Naegleria Isolates: Further Evidence that N. gruberi Is Not a Single Species

Naegleria isolates which are currently placed in the type species N. gruberi display great genetic, physiological and morphological heterogeneity. There are two possible interpretations of the nature of this species–that N. gruberi is a species complex or that it is a single continuously variable species. To distinguish between these alternatives, allelic states were determined for 33 loci in 74 new isolates selected to represent wide geographic sources and diverse temperature limits for growth. The results were compared with data for culture collection strains of N. gruberi and other species in the genus. The isolates formed a discontinuous series of clusters, separated by genetic distances similar to those separating the better-characterised taxa N. fowleri, N. lovaniensis, N. jadini, N. australiensis australiensis and N. australiensis italica . Culture collection strains assigned to N. gruberi fell into six distinct clusters, while other clusters were not represented by reference strains. The data are most consistent with the interpretation that N. gruberi is a group of several distinct species, each equivalent to the recently described species in the genus. Naegleria andersoni andersoni and N. andersoni jamiesoni also formed two distinct clusters, equivalent to species. Characteristic temperature limits for growth show that the mesophilic species are ecological as well as genetic entities.     

High-Resolution Polyacrylamide Gradient Gel Electrophoresis (PGGE) of Isoenzymes from Five Naegleria Species

ABSTRACT. High-resolution polyacrylamide gradient gel electrophoresis (PGGE) was used to separate isoenzymes of 12 Naegleria strains: one N. australiensis , two N. lovaniensis , one N. jadini , two N. gruberi isolated from environmental samples, and six N. fowleri strains isolated from patients with primary amoebic meningoencephalitis. Of the eight enzymes studied, seven showed zymograms with interspecific variation that identified all the species tested. Although the six N. fowleri strains were biochemically the most homogeneous, they showed intraspecific isoenzyme variation that allowed them to be grouped into four zymodemes. The PGGE technique, which separates isoenzymes by their molecular shape, is both sensitive and economical. It offers an addition or an attractive alternative to isoelectric focusing which has commonly been used to aid species identification of Naegleria by separating isoenzymes by their isoelectric point.     

Genetic Variations in the Internal Transcribed Spacer and Mitochondrial Small Subunit rRNA Gene of Naegleria spp.

ABSTRACT: Naegleria spp. are widely distributed free-living amebas, but one species in the genus, N. fowleri , causes acute fulminant primary amebic meningoencephalitis in humans and other animals. Thus, it is important to differentiate N. fowleri from the rest in the genus of Naegleria , and to develop tools for the detection of intra-specific genetic variations. In this study, one isolate each of N. australiensis, N. gruberi, N. jadini , and N. lovaniensis and 22 isolates of N. fowleri were characterized at the internal transcribed spacers (ITS) and mitochondrial small subunit rRNA (mtSSU rRNA) gene. The mtSSU rRNA primers designed amplified DNA of all isolates, with distinct sequences obtained from all species examined. In contrast, the ITS primers only amplified DNA from N. lovaniensis and N. fowleri , with minor sequence differences between the two. Three genotypes of N. fowleri were found among the isolates analyzed in both the mtSSU rRNA gene and ITS. The extent of sequence variation was greater in the mtSSU rRNA gene, but the ITS had the advantage of length polymorphism. These data should be useful in the development of molecular tools for rapid species differentiation and genotyping of Naegleria spp.     

High-resolution polyacrylamide gradient gel electrophoresis (PGGE) of isoenzymes from five Naegleria species

High-resolution polyacrylamide gradient gel electrophoresis (PGGE) was used to separate isoenzymes of 12 Naegleria strains: one N. australiensis, two N. lovaniensis, one N. jadini, two N. gruberi isolated from environmental samples, and six N. fowleri strains isolated from patients with primary amoebic meningoencephalitis. Of the eight enzymes studied, seven showed zymograms with interspecific variation that identified all the species tested. Although the six N. fowleri strains were biochemically the most homogeneous, they showed intraspecific isoenzyme variation that allowed them to be grouped into four zymodemes. The PGGE technique, which separates isoenzymes by their molecular shape, is both sensitive and economical. It offers an addition or an attractive alternative to isoelectric focusing which has commonly been used to aid species identification of Naegleria by separating isoenzymes by their isoelectric point.     

Naegleria fowleri: functional expression of the Nfa1 protein in transfected Naegleria gruberi by promoter modification

To establish a transient transfection system in a Naegleria, we constructed three nfa1-pEGFP-N1 vectors by the promoter replacement and insertion of a nfa1 gene and transfected the DNAs into Naegleria gruberi using a lipid reagent. The transfection efficiency and usefulness of the three modified vectors were estimated by identifying the expressions of the EGFP and Nfa1 protein from N. gruberi. After transfection, the Nfa1 protein was functionally expressed on pseudopodia of N. gruberi. The strong GFP fluorescence was observed in N. gruberi transfected with the actin-nfa1-pEGFP-N1 vector, of which the CMV promoter region in the expression vector was replaced with the actin 5' UTR region. Additionally, when transgenic N. gruberi trophozoites were co-cultured with CHO target cells, the Nfa1 protein was also located on cytoplasm and pseudopodia, especially on a food cup that was formed in contact with target cells as it shown in pathogenic N. fowleri.     

Sterol biosynthesis via cycloartenol and other biochemical features related to photosynthetic phyla in the amoeba Naegleria lovaniensis and Naegleria gruberi

The sterols and sterol precursors of two amoebae of the genus Naegleria, Naegleria lovaniensis and Naegleria gruberi were investigated. Cycloartenol, the sterol precursor in photosynthetic organisms, is present in both amoebae. In N. lovaniesis, it is accompanied by lanosterol and parkeol, as well as by the 24,25-dihydro derivatives of these triterpenes. One of the most striking features of these amoebae is the accumulation of 4 alpha-methylsterols which are present in similar amounts as those of 4,4-desmethylsterols (3-5 mg/g, dry weight). 4 alpha-Methylergosta-7,22-dienol was identified as a new compound. Ergosterol was the major 4,4-desmethylsterol, accompanied by small amounts of C27 and other C28 sterols. Treatment of N. lovaniensis with fenpropimorph modified the sterol pattern of this amoeba and inhibited its growth. This fungicide, known to inhibit steps of sterol biosynthesis in fungi and plants, induced the disappearance of 4 alpha-methyl-delta 7-sterols and the appearance of the unusual delta 6,8,22-ergostatrienol as in A. polyphaga. These results might be explained by a partial inhibition of the delta 8----delta 7 isomerase, the small amounts of delta 7-sterols formed being converted into ergosterol which is still present in fenpropimorph-exposed cells. De novo sterol biosynthesis in N. lovaniensis was shown by incorporation of [1-14C]acetate into sterols and sterol precursors, especially cycloartenol. Lanosterol and parkeol were not significantly labelled. Furthermore, [3-3H]squalene epoxide was efficiently cyclized by a cell-free system of this amoeba into cycloartenol, and again no significant radioactivity was detected in lanosterol and parkeol. This shows that cycloartenol, the sterol precursor in plants and algae, is also the sterol precursor in Naegleria species, and that these amoebae, like A. polyphaga, are related by some biosynthetic pathways to photosynthetic phyla. Lanosterol, the sterol precursor in non-photosynthetic phyla (animal and fungi) and parkeol are more likely dead-ends of this biosynthetic pathway. The peculiar phylogenetic position of these protozoa was further emphasized by the action of indole acetic acid and other auxine-like compounds on their growth. Indeed amoebic growth was enhanced in the presence of these higher plant growth hormones. The differences in the sterol composition of the protozoa we have hitherto examined is related to their sensitivity toward polyene macrolide antibiotics.(ABSTRACT TRUNCATED AT 400 WORDS)     

Molecular definition and the ubiquity of species in the genus Naegleria

To investigate the variability within species of the genus Naegleria, the ITS1,5.8S and ITS2 rDNA were sequenced of several strains of N. lovaniensis and its Western Australian variants, N. australiensis, N. fowleri, N. andersoni, N. jamiesoni, N. tihangensis, N. pringsheimi, N. pagei, N. gruberi sensu lato and a Naegleria lineage that lost a group I intron from the SSUrDNA twintron. As a result, it is possible to define a molecular species within the Naegleria genus. In addition, one strain of each different allozyme cluster was sequenced to investigate whether they belong to described species or should be treated as distinct new species. This leads to the proposal of eleven new species. The sequencing results from those Naegleria spp. of which several strains are available indicate that these species are ubiquitous. The only exception might be the species represented by the WA variants. However, there are still many Naegleria spp. for which only one strain has been isolated, hence, it is important that the search for more isolates should be continued worldwide.     

Naegleria fowleri and N. lovaniensis: differences in sensitivity to trimethoprim and other antifolates

The growth of Naegleria fowleri cultures in a BCS medium was not affected either by trimethoprim at 400 micrograms/ml or by aminopterine, 3,5-diaminopterine and methotrexate at 500 micrograms/ml. N. lovaniensis propagation in the same medium was inhibited with 10 micrograms/ml of trimethoprim, 50 micrograms/ml methotrexate and 100 micrograms/ml 3,5-diaminopteridine. Aminopterine was ineffective at a concentration of 500 micrograms/ml. The inhibitory effect of trimethoprim on N. lovaniensis cultures depended on the medium composition and could be neutralized by an addition of folic or tetrahydrofolic acids and a suspension of heat-killed Enterobacter aerogenes. Thymine, thymidine, hypoxantine and 2-amino-4-hydroxy-6-(tetrahydroxybutyl)-pteridine did not have an adverse effect. Trimethoprim activity in N. fowleri cultures could not be enhanced by the addition of Triton X-100 and Polymyxine B. Cryolyzate of N. fowleri amoebae did not influence the trimethoprim inhibition of N. lovaniensis cultures. Deviation in dihydrofolatereductase chemical structure or thymine dependency seems to be the probable explanation for N. fowleri antifolate resistance.     

Phagocytosis of erythrocytes by Acanthamoeba sp

Phagocytic recognition by the unicellular soil organism Acanthamoeba sp. (Neff strain) was examined with fresh or modified erythrocytes. Several parameters were studied of the interaction of glutaraldehyde-treated red cells with amoebae attached to glass. Attachment and ingestion steps of particle uptake were found to have differing temperature dependence. Particle-phagocyte interaction required the addition of Na⁺ or Ca²⁺ and was inhibited by high osmolarity or ionic strength. These features are similar to those previously described for mammalian macrophages. A quantitative spectrophotometric technique was adapted to the measurement of erythrocyte uptake after lysis of noningested red cells. Rates of uptake of six species of red cells spanned a 100-fold range. While untreated sheep red cells were taken up at very low rates, ingestion of red cells treated with aldehyde, tannic acid, polylysine, carbodiimide, ferrous sulfate or salt-free sucrose was appreciably increased. Some but not all of these modified red cells were previously found to interact with macrophages and insect hemocytes. Thus Acanthamoeba displays phagocytic recognition of untreated and modified erythrocytes. The results also indicate that the particle vocabulary ingested by the amoebae overlaps in part with that of certain metazoan phagocytes.     

Target cell deformability determines the type of phagocytic mechanism used by Entamoeba histolytica-like,Laredo strain

Summary— Morphological study of red blood cell phagocytosis by Entamoeba histolytica-like (Laredo strain) has shown that this amoeba is able to ingest by two distinct mechanisms. One is classical phagocytosis and the other is by suction or microphagocytosis. Rigidification of red blood cells by treatment with glutaraldehyde shows that there is a correlation between the deformability of the ingested cell and the type of phagocytosis observed. Indeed, as the red cells become more rigid, less microphagocytosis is observed. To demonstrate that this shift in phagocytic mechanisms is not induced by the modification of a surface receptor by the glutaraldehyde treatment, the amoebas were fed with erythrocyte ghosts. Since these have lost most of their hemoglobin content, they are less rigid than the intact erythrocytes. The ghosts, even after glutaraldehyde treatment, are always ingested by microphagocytosis. These results have therefore led us to conclude that the type of erythrocyte phagocytosis used by E histolytica-like (Laredo strain) is determined by the deformability of the targetted red blood cells.     

Modification of low density lipoprotein metabolism by growth factors in cultured vascular cells and human skin fibroblasts. Dependence upon duration of exposure

Phospholipase A, sphingomyelinase and lysophospholipase activities were examined in cell homogenates and cell-free culture media of virulent and virulent-attenuated Naegleria fowleri and nonpathogenic Naegleria gruberi. Homogenates of virulent N. fowleri contained from 3 to 250 times the lipolytic activity of virulent-attenuated and non-pathogenic Naegleria spp. Similarly, the cell-free media of virulent N. fowleri cultures contained large quantities of phospholipase A, lysophospholipase and sphingomyelinase while comparable activities in the cell-free media of virulent-attenuated and nonpathogenic Naegleria spp. were only slightly, if at all, detectable. Lipolytic enzymes accumulated in the media of virulent N. fowleri cultures at various stages during growth but not in virulent-attenuated and nonpathogenic Naegleria cultures. In general, phospholipase A and sphingomyelinase accumulated during the log phase of growth while lysophospholipase appeared only in the late stationary phase. We conclude that pathogenic Naegleria contain potent lipolytic enzymes that are released selectively into the media during growth. These enzymes could contribute to the pathogenesis of Naegleria-induced primary amoebic meningoencephalitis.     

Phenotypic conversion of human erythrocytes by H-Y antigen

Summary Human male erythrocytes absorb H-Y antiserum while those of human females do not. Studies on the mode of attachment of H-Y antigen to the erythrocyte membrane reveal: (1) After several washes H-Y antigen can only be removed from male erythrocytes and not from other male cells such as granulocytes. (2) Female erythrocytes absorb exogenous H-Y antigen and thus become H-Y positive. (3) Complement mediated lysis of erythrocytes by H-Y antiserum is not sex specific but is dependent on the AB0 blood group type of the red blood cells. It is concluded that H-Y antigen is unspecifically attached to red blood cells and is therefore not an integral part of the erythrocyte membrane.This work was supported by the Deutsche Forschungsgemeinschaft (SFB 46 and Si 185/4)     

Differentiation of Naegleria fowleri and other naegleriae by polymerase chain reaction and hybridization methods

Abstract In order to detect and identify Naegleria fowleri strains an assay based on the Polymerase Chain Reaction (PCR) was evaluated. The amplified DNA fragments were detected by gel electrophoresis and ethidium bromide staining, followed by Southern blot hybridization with an internal digoxigenin-labeled probe. A set of primers (B1B2) which flank a 678-bp region within a virulence-associated gene, allowed for the highly specific identification of N. fowleri , since Naegleriae ( N. lovaniensis, N. australiensis, N. gruberi, N. andersoni and N. jadini ) and other Protozoa did not react. These primers did not detect amplification products from various organisms: Gram-positive bacteria, algae, y, yeasts and human DNA. Whereas a second set of primers (A1A2), which flank a different sequence, detected various Naegleriae and Acanthamoebae strains. After 40 amplification cycles, the limit of detection was a single cell (cyst or trophozoite). Thus, the PCR appears to be a rapid and powerful tool for identification and detection of N. fowleri .