Molecular and physiological differentiation between pathogenic and nonpathogenic Acanthamoeba

In this study, 14 isolates of Acanthamoeba from both clinical and environmental sources belonging to seven different species were assayed for tolerance of high osmotic pressure, temperature tolerance, extracellular proteases, and cytopathic effects (CPE) on immortalized rabbit corneal epithelial cells. On the basis of the results, amoeba isolates were divided into pathogenic and nonpathogenic groups. Ribosomal DNA sequencing was performed on these isolates. Phylogenetic relationships revealed that all the pathogenic strains tested clustered together as one group, while nonpathogenic strains clustered into other groups. Sequence comparisons with previously published sequences determined that among the six new pathogenic isolates used in this study, five belong to T4 genotype and one to T11. This is the first report of a T11 genotype being found in Acanthamoeba keratitis. Received: 1 November 2001 / Accepted: 31 December 2001     

Morphological,physiological, molecular and phylogenetic characterization of new environmental isolates of <Emphasis Type="Italic">Acanthamoeba</Emphasis> spp. from the region of Bratislava,Slovakia

Protozoa of the genus Acanthamoeba are organisms that can be generally found in the environment. The focus of this study is the detection of the presence of Acanthamoeba in different water sources and samples taken from airconditioning units. The identification of Acanthamoeba isolates was based on the morphology of cysts and trophozoites as well as PCR amplification with a genus specific primer pair JDP1 and JDP2. Growth characteristics and temperature tolerance were monitored. The pathogenic potential was tested in vitro on Vero cell cultures. Genotype identification was based on the sequencing of the GTSA.B1 PCR amplimer of 18S ribosomal DNA. The data obtained revealed that the isolates belong to T3 and T4 genotypes. One T3 and one T4 isolate contain a group I intron. The 933 base pair intron found in a genotype T4 isolate is considerably larger compared to formerly described introns of Acanthamoeba griffini (genotype T3) and A. Lenticulata (genotype T5). This is the first report detailing the environmental distribution of the Acanthamoeba genotypes in the region of Bratislava, Slovakia.     

Pathogenicity, Morphology, and Differentiation of Acanthamoeba

Acanthamoeba keratitis is sight threatening corneal infection caused by pathogenic Acanthamoeba. Previous studies have shown the genotypic differences between pathogenic and non-pathogenic species/strains of Acanthamoeba. In this study, we examined the morphological differences between pathogenic and non-pathogenic species/strains using scanning electron microscopy. Pathogenic Acanthamoeba exhibited higher number of acanthopodia (structures associated with the binding of amoeba to the target cells) as compared to non-pathogens. In addition, interactions of amoeba with the corneal epithelial cells were studied. Only pathogenic amoeba exhibited adhesion to epithelial cells. Further results indicated that phagocytosis occurs in the pathogenic amoeba by the formation of amoebastome (characteristic of amoeba phagocyte). This study showed that Acanthamoeba phagocytosis may be both an efficient means of obtaining nutrients for the amoeba and a significant factor in the pathogenesis of Acanthamoeba infections. Received: 2 April 2001 / Accepted: 12 April 2001     

Isolation and Genotyping of Acanthamoeba Strains from Soil Sources from Jamaica,West Indies

Acanthamoeba spp. are opportunistic pathogens that are ubiquitous in nature. Many species of this genus are responsible for a fatal encephalitis and keratitis in humans and other animals. Seventy‐two soil samples were collected from the parishes across Jamaica and assessed for the presence of Acanthamoeba spp. Cultivation was carried out on non‐nutrient agar plates seeded with heat killed Escherichia coli. PCR and sequencing of the DF3 region were carried out in order to genotype the isolated strains of Acanthamoeba. Thermotolerance and osmotolerance assays were utilized to investigate the pathogenic potential of the Acanthamoeba isolates. Acanthamoeba spp. was isolated from 63.9% of soil samples. Sequencing of the DF3 region of the 18S rDNA resulted in the identification of genotypes T4, T5, and T11. T4 genotype was most frequently isolated. Most isolates were thermotolerant or both thermotolerant and osmotolerant, indicating that they may present the potential to cause disease in humans and other animals.     

Molecular Characterization of Acanthamoeba spp. Occurring in Water Bodies and Patients in Poland and Redefinition of Polish T16 Genotype

Acanthamoeba genus is divided into 20 genotypes (T1–T20) on the basis of the gene encoding 18S rRNA sequence. Using of at least 2 kbp gene fragments is strongly recommended to identify new genotypes and 5% difference is commonly used as a criterion of new genotypes, however, this value is questionable. In this paper, Polish Acanthamoeba strains described earlier on the basis of ~850 bp Ami fragment of 18S rRNA gene as T4, T11 and a new T16 genotype, have been analyzed using near‐complete sequence of the gene. This analysis was needed because the Ami fragment does not reveal full variability within 18S rRNA gene. Phylogenetic analysis based on Ami fragment is biased by artifacts in the construction of the tree, so the fragment should not be used for identification of new putative Acanthamoeba genotypes. The analysis confirmed that the Polish sequences represent T4 and T11 genotypes and that the strains described earlier as T16 genotype are in fact a new subgroup of the T20 genotype and that this genotype should be divided into two subgroups: T20a (two strains described by [J. Eukaryot. Microbiol. 62 (2015) 69]) and T20b (11 Polish strains described in this study). The T20b subgroup was isolated from both clinical samples and water bodies used by people as bathing places and there is a risk of infection for humans during contact with water.     

Genotyping of Acanthamoeba isolates from clinical and environmental specimens in Iran

In this study, 15 Acanthamoeba isolates from AK patients and 10 environmental samples (water, soil and animal-origin samples) were classified at the genotype level based on the sequence analysis of the Diagnostic Fragment 3 (DF3) of Acanthamoeba small subunit rRNA gene. The obtained results revealed that most of these Acanthamoeba strains belonged to genotype T4 both in clinical and environmental samples. The presence T11 genotype in clinical samples was also revealed after the genotyping analysis and to our knowledge this is the first report of T11 genotype in Iran. Moreover, the isolation of T4 genotype from cow faeces in this study highlights a possible transmission of Acanthamoeba through animal faeces in Iran.Overall, the widespread distribution of pathogenic Acanthamoeba T4 across the environmental sources and the increasing number of contact lens wearers in Iran, demands more awareness within the public and health professionals as this pathogen is emerging as a risk for human health in Iran and worldwide.     

A systematic analysis of Acanthamoeba genotype frequency correlated with source and pathogenicity: T4 is confirmed as a pathogen-rich genotype

Acanthamoeba is a genus of facultative human parasites that is currently classified into 17 genotypes (T1–T17) each of which arguably represents a species. These amoebae cause Acanthamoeba Keratitis (AK) a disease of the eye, and a rare but usually fatal Granulatomous Acanthamoeba Encephalitis (GAE). A database of strains derived from the literature and a number of fresh isolates has been constructed to detect trends of pathogenic and other associations with these genotypes. One genotype in particular, T4, was found to be over represented in human disease. The prevalence of this genotype has been commented upon previously, however T4 is also the most common type isolated from the environment. Our statistical analysis of the database allows us to claim that T4 is in fact the genotype most often associated with human disease, even after its abundance in the general environment is taken into account. T3 and T11 are closest relatives to T4 and they are the second and third most often associated with AK. A number of other more subtle correlations also emerge from this analysis.     

Correlations between Morphological, Molecular Biological, and Physiological Characteristics in Clinical and Nonclinical Isolates of Acanthamoeba spp.

Eleven Acanthamoeba isolates, obtained from Acanthamoeba keratitis patients, from contact lens cases of non-Acanthamoeba keratitis patients, from asymptomatic individuals, from necrotic tissue, and from tap water and two reference strains were investigated by morphological, molecular biological, and physiological means in order to discriminate clinically relevant and nonrelevant isolates. All clinically relevant isolates showed Acanthamoeba sp. group II morphology. 18S ribosomal DNA sequencing revealed sequence type T4 to be the most prevalent group among the isolates and also the group recruiting most of the pathogenic strains. Interestingly, within T4 the strains of no clinical relevance clustered together. Moreover, physiological properties appeared to be highly consistent with initial pathogenicity and with sequence clustering. Altogether, the results of our study indicate a correlation between the phylogenetic relationship and pathogenicity.     

Potentially Pathogenic Acanthamoeba Isolated from a Hospital in Brazil

Studies on free-living amoebae (FLA), has been increased in recent years, especially related to the genus Acanthamoeba, because these organisms are widely found in the environment. The present work isolated and characterized this organism from biofilms and dust in hospital environment. 135 samples were collected in 15 different environments in a hospital at the south of Brazil. Thirty-one (23%) isolates were identified as morphologically belonging to the Acanthamoeba genus and 10 of these were submitted to temperature and osmotolerance tests as criterion for evaluation of the viability and pathogenicity. The tests indicate that four (40%) of these isolates could be potentially pathogenic because grew at high temperature (40°C) and osmolarity (mannitol 1 M). Some isolates genotypes were determined after ribosomal DNA sequencing. These data revealed that three dust isolates belong to T4, two biofilm isolates to T5 and one dust isolate to T3 genotype. Therefore, Acanthamoeba found in the hospital environment represents a risk for people that circulate there.     

Genetic Characterization of Clinical Acanthamoeba Isolates from Japan using Nuclear and Mitochondrial Small Subunit Ribosomal RNA

Because of an increased number of Acanthamoeba keratitis (AK) along with associated disease burdens, medical professionals have become more aware of this pathogen in recent years. In this study, by analyzing both the nuclear 18S small subunit ribosomal RNA (18S rRNA) and mitochondrial 16S rRNA gene loci, 27 clinical Acanthamoeba strains that caused AK in Japan were classified into 3 genotypes, T3 (3 strains), T4 (23 strains), and T5 (one strain). Most haplotypes were identical to the reference haplotypes reported from all over the world, and thus no specificity of the haplotype distribution in Japan was found. The T4 sub-genotype analysis using the 16S rRNA gene locus also revealed a clear sub-conformation within the T4 cluster, and lead to the recognition of a new sub-genotype T4i, in addition to the previously reported sub-genotypes T4a-T4h. Furthermore, 9 out of 23 strains in the T4 genotype were identified to a specific haplotype ({"type":"entrez-nucleotide","attrs":{"text":"AF479533","term_id":"28194589","term_text":"AF479533"}}AF479533), which seems to be a causal haplotype of AK. While heterozygous nuclear haplotypes were observed from 2 strains, the mitochondrial haplotypes were homozygous as T4 genotype in the both strains, and suggested a possibility of nuclear hybridization (mating reproduction) between different strains in Acanthamoeba. The nuclear 18S rRNA gene and mitochondrial 16S rRNA gene loci of Acanthamoeba spp. possess different unique characteristics usable for the genotyping analyses, and those specific features could contribute to the establishment of molecular taxonomy for the species complex of Acanthamoeba.     

Pathogen–pathogen interactions: a comparative study of Escherichia coli interactions with the clinical and environmental isolates of Acanthamoeba

In this study, we compared the interactions of invasive and non-invasive strains of E. coli with clinical and environmental isolates of Acanthamoeba. The environmental isolate of Acanthamoeba exhibited significantly higher association with E. coli compared with the clinical isolates of Acanthamoeba. The ratio of E. coli per amoebae was more than 8-fold higher in the environmental isolate compared with the clinical isolates of Acanthamoeba. Interestingly, non-pathogenic environmental Acanthamoeba showed uptake and/or survival of the non-invasive E. coli. In contrast, clinical isolates of Acanthamoeba did not support uptake and/or survival of non-invasive E. coli. Using several mutants derived from K1, we demonstrated that outer membrane protein A (OmpA) and lipopolysaccharide (LPS) are crucial bacterial determinants responsible for E. coli K1 interactions and in the intracellular survival of E. coli in Acanthamoeba. The use of Acanthamoeba as a model to study E. coli K1 pathogenesis and to understand bacterial immune evasion strategies is discussed further.     

Twenty Years of Acanthamoeba Diagnostics in Austria

Acanthamoebae are the causative agents of an often seriously progressing keratitis (AK) occurring predominantly in contact lens wearers and can cause several disseminating infections potentially resulting in granulomatous amoebic encephalitis (GAE) in the immunocompromised host. Our institution is the Austrian reference laboratory for Acanthamoeba diagnostics and the aim of this study was to give an overview of proven cases of Acanthamoeba infections in Austria during the past 20 yr. All samples of patients with suspected AK or GAE were screened for Acanthamoeba spp. by culture and/or PCR and the detected amoebae were genotyped. Altogether, 154 cases of AK and three cases of GAE were diagnosed. Age of the AK patients ranged from 8 to 82 yr (mean 37.8) and 58% of the patients were female. Approximately 89% of the AK patients were contact lens wearers, almost all cases were unilateral and 19% of the patients required a keratoplasty. Age of the GAE patients ranged from 2 to 25 yr (mean 14.7), all were HIV‐negative, but two were severely immunosuppressed at the time of diagnosis. The predominant genotype in the AK cases was T4, other genotypes found were T3, T5, T6, T10 and T11. The three GAE cases involved genotypes T2, T4 and T5.     

Acanthamoeba mauritaniensis genotype T4D: An environmental isolate displays pathogenic behavior

Acanthamoeba spp. are free-living amoebae with a worldwide distribution. These amoebae can cause granulomatous amoebic encephalitis and amoebic keratitis in humans. Proteases are considered virulence factors in pathogenic Acanthamoeba. The objective of this study was to evaluate the behavior of Acanthamoeba mauritaniensis, a nonpathogenic amoeba. We analyzed the cytopathic effect of A. mauritaniensis on RCE1(5 T5) and MDCK cells and compared it to that of Acanthamoeba castellanii. A partial biochemical characterization of proteases was performed in total crude extracts (TCE) and conditioned medium (CM). Finally, we evaluated the effect of proteases on tight junction (TJ) proteins and the transepithelial electrical resistance of MDCK cells. The results showed that this amoeba can induce substantial damage to RCE1(5T5) and MDCK cells. Moreover, the zymograms and Azocoll assays of amoebic TCE and CM revealed different protease activities, with serine proteases being the most active. Furthermore, A. mauritaniensis induced the alteration and degradation of MDCK cell TJ proteins with serine proteases. After genotyping this amoeba, we determined that it is an isolate of Acanthamoeba genotype T4D. From these data, we suggest that A. mauritaniensis genotype T4D behaves similarly to the A. castellanii strain.     

Production and characterization of monoclonal antibodies to Acanthamoeba castellanii and their application for detection of pathogenic Acanthamoeba spp

Fourteen monoclonal antibodies (mAbs) were produced against a strain of Acanthamoeba castellanii isolated from a human cornea. The reactivity of the mAbs to reference strains of Acanthamoeba was examined by an indirect fluorescence antibody test (IFA) and Western immunoblot analysis. Nine mAbs reacted specifically with a known pathogenic reference strain of A. castellanii, but not with a non-pathogenic strain or other Acanthamoeba spp. The antigen recognized by these mAbs had a molecular mass of 17 kDa. The remaining five mAbs reacted with A. castellanii and A. polyphaga, members of group II (Pussard and Pons) but not with A. astronyxis (group I) or A. culbertsoni (group III). Western immunoblot analysis revealed that the latter mAbs stained many protein bands ranging from 30 to 150 kDa. None of the 14 mAbs reacted with Naegleria gruberi, N. fowleri, or Entamoeba histolytica. These observations suggest that an antigen common in group II as well as a pathogenic A. castellanii-specific antigen are present. Slot blot reactivity was comparable to the IFA. Under certain circumstances, therefore, slot blot analysis with a panel of mAbs should be helpful in the detection of keratitis-producing strains of Acanthamoeba.     

Pathogenic and Nonpathogenic Acanthamoeba spp. in Thermally Polluted Discharges and Surface Waters1

During spring and autumn, the total number of amoebae and the number of Acanthamoeba species able to grow at 37°C were determined in six thermally polluted factory discharges and the surrounding surface waters. The isolated Acanthamoeba strains were studied for growth in axenic medium, cytopathic effect in Vero cell cultures, and virulence in mice. Although more amoebae were isolated in autumn, the number of Acanthamoeba species was lower than in spring, when the percent of pathogenic strains among the isolates was highest. Higher concentrations of amoebae were found in warm discharges, and more virulent strains occurred in thermal discharges than in surface waters.     

Biological characterization of a clinical and an environmental isolate of <Emphasis Type="Italic">Acanthamoeba polyphaga</Emphasis>: analysis of relevant parameters to decode pathogenicity

Acanthamoeba spp. consists of free-living amoebae, widespread in nature, which occasionally can cause human infections including granulomatous amoebic encephalitis and amoebic keratitis. Acanthamoeba pathogenesis is not entirely known and correlations between pathogenic potential and taxonomy are complex issues. In order to decipher the definition of a pathogenic amoeba, the objective of this work was to decipher the definition of pathogenic amoeba by characterizing two isolates of Acanthamoeba polyphaga obtained from different origins (a keratitis patient and freshwater), looking for differences among them. The clinical isolate grew faster in Peptone-yeast extract-glucose (PYG) medium, transformed more rapidly from a trophozoite to cyst and exhibited increased cytopathic effect on cultured cells. Morphological differences were also noted, since freshwater amoebae presented more acanthopodia than the clinical isolate. Moreover, actin labeling demonstrated that microfilament organization varies between isolates, with the presence of locomotory structures as lobopodia and lamellipodia in the keratitis isolate, which were less adherent on plastic. Zymography demonstrated that the keratitis isolates presented higher proteolytic activity and also were more able to invade collagen matrices. Altogether, we conclude that a group of stable physiological characteristics exist in Acanthamoeba that can be related to pathogenicity.     

Prevalence of <Emphasis Type="Italic">Acanthamoeba</Emphasis> from Tap Water in Rio Grande do Sul,Brazil

A total of 136 samples of tap water were collected from state and municipal schools between March and November 2009. The samples were filtered through cellulose nitrate membranes that were seeded at non-nutrient agar 1.5% containing an overlayer of Escherichia coli suspension. Thirty-one (22.79%) tap water samples investigated were found positive for free-living amoebae (FLA). From these, 13 presented as FLA that seems to belong to the genus Acanthamoeba. All samples of FLA were cloned and identified as belonging to the genus Acanthamoeba by the morphology of cysts and trophozoites and by PCR using genus-specific primers that amplify the ASA.S1 region of 18S rDNA gene. Physiological tests of thermotolerance and osmotolerance were used to evaluate the pathogenicity of the isolates. The sequencing analysis by comparing the sequences submitted to GenBank, showed genotype distribution into groups T2, T2/T6, T6, and T4. In tests of thermotolerance and osmotolerance, 50% of the isolates had a low pathogenic potential. The results indicated the presence of Acanthamoeba in tap water in Rio Grande do Sul, Brazil, revealing its importance and the need for more epidemiological studies to determine their distribution in the environment and its pathogenic potential.     

Variation in pathogenicity of Fusarium verticillioides and resistance of maize genotypes to Fusarium ear rot

Abstract

The ineffective control measures of pathogens is due to variability among their populations. Hence, the study of pathogenic variation of Fusarium verticillioides strains on maize genotypes. Six F. verticillioides infected maize ear were randomly obtained from three agro-ecological zones in Southwest Nigeria. Pathogenicity of F. verticillioides strains at 1.0?×?10⁶ spores/mL were examined in vivo based on the rating scale of 1–7 on maize genotypes T2L COMP.1.STR SYN-W-1, PVA SYN 8F2, and T2L COMP.4. The pathogens were inoculated to the maize genotypes on 8th week for disease severity and were all moderately susceptible, however, genotype T2L COMP.4 was the most susceptible. It was observed that, 9.4% were classified as highly virulent, 12.5% as virulent, 37.5% as moderately virulent, 21.8% as slightly virulent, and 18.8% as non-virulent. In all, Fusarium verticillioides strains displayed different degrees of virulence, however, maize genotype T2L COMP.4 was the most susceptible to ear rot.     

Identification and properties of proteases from an Acanthamoeba isolate capable of producing granulomatous encephalitis

Background  

Granulomatous amoebic encephalitis due to Acanthamoeba is often a fatal human disease. However, the pathogenesis and pathophysiology of Acanthamoeba encephalitis remain unclear. In this study, the role of extracellular Acanthamoeba proteases in central nervous system pathogenesis and pathophysiology was examined.     

Evaluation of real‐time PCR methods for quantification of Acanthamoeba in anthropogenic water and biofilms

Aims: To assess two real‐time PCR methods (the Riviere and Qvarnstrom assays) for environmental Acanthamoeba. Methods and Results: DNA extracted from Acanthamoeba castellanii taken from water and biofilms of cooling towers was analysed by the Riviere and Qvarnstrom assays. To quantify environmental Acanthamoeba, the calibration curves (DNA quantity vs cell number) were constructed with samples spiked with A. castellanii. The calibration curves for both quantitative PCR assays showed low variation (coefficient of variation of C_t≤ 5·7%) and high linearity (R² ≥ 0·99) over six orders of magnitudes with detection limit of three cells per water sample. DNA quantity determined by Qvarnstrom assay was equivalent between trophozoites and cysts (P = 0·49), whereas a significant difference was observed with Riviere assay (P < 0·0001). Riviere assay failed to detect Acanthamoeba in 21% (15/71) of the environmental samples which were positively detected by Qvarnstrom assay, while one sample (1·4%) was shown positive by Riviere assay but negative by Qvarnstrom assay. Moreover, Acanthamoeba counts by Qvarnstrom assay were greater than those by Riviere assay (P < 0·0001). Conclusions: Qvarnstrom assay performs better than Riviere assay for detection and quantification of Acanthamoeba in anthropogenic water and biofilms. Significance and Impact of the Study: Qvarnstrom assay may significantly contribute to a better knowledge about the distribution and abundance of Acanthamoeba in environments.