Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches

Detalhes bibliográficos
Autor(a) principal: Bellini, Natalia Karla
Data de Publicação: 2020
Tipo de documento: Tese
Idioma: eng
Título da fonte: Biblioteca Digital de Teses e Dissertações da USP
Texto Completo: https://www.teses.usp.br/teses/disponiveis/76/76132/tde-25082021-090243/
Resumo: Free Living Amoeba (FLA) has gained increasing visibility due to human health concerns. They are unicellular heterotrophic protozoans, widely spread in nature. Water is the main source of amoebic contaminations that may result in encephalitis, keratitis, and skin infections. Pathogenic species belong to the Naegleria, Acanthamoeba, Sappinia, Balamuthia, and Hartmannella genera. To date, there is a lack of effective treatment and accurate diagnosis for amoebic infections, which has motivated the environmental characterization of FLA as a human health risk assessment strategy. However, FLA epidemiology in Brazil is scarce, contrasting with the country´s freshwater abundance. To address this gap, the present research aimed at the FLA characterization along the Monjolinho River, São Carlos, Brazil. The water abiotic evaluation as well as the morphological, and molecular investigation of FLA encompasses the central methodology. Dissolved oxygen and electrical conductivity were measured as the most informative features to inspect anthropogenic driving forces acting upon the hydric ecosystem. Eutrophic sites, downstream of the urban areas, were revealed as hotspots to a diversity of FLA. Non-nutrient agar (NNA) plates seeding confirmed the amoeba growth by light and electron microscopy characterization. Based on these results, relevant taxonomic details (e.g.: flagella, cyst walls, and pseudopodia branching patterns) were described to all FLA life cycle stages. Axenization attempts revealed the persistence of bacteria contamination, suggestive of the presence of amoebic resistant microorganisms, enhancing its threat to humans. Molecular characterization enabled us to detect the potentially pathogenic genera Naegleria (N. australiensis and N. phillipinensis), Acanthamoeba (A. genotype T4 and A. hatchetti), and Hartmanella (V. vermiforms); besides the non-pathogenic Vannela sp, Stenamoeba, Filamoeba, and Naegleria (N. canariensisi, N.gruberi, and N. dobsoni). In this work, the knowledge of FLA distribution allowed the recognition of Brazilian freshwaters as suitable ecological niches to FLA spread, as well as the development of the methodology necessary for the future identification and characterization of FLA in the environment. Although conducted to a local extend, this research suggests that other FLA genus can be equally isolated in Brazilian freshwater systems that can finally booster later expansion to other water streams.
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spelling Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approachesDiversidade de amebas de vida livre no Rio Monjolinho no estado de São Paulo – abordagens morfológicas e molecularesAmebas de vida-livreAmoeba resistant microorganismsFree-living amoebaMicrorganismos resistentes a amebasProtozoários transmitidos pela águaWaterborne protozoanFree Living Amoeba (FLA) has gained increasing visibility due to human health concerns. They are unicellular heterotrophic protozoans, widely spread in nature. Water is the main source of amoebic contaminations that may result in encephalitis, keratitis, and skin infections. Pathogenic species belong to the Naegleria, Acanthamoeba, Sappinia, Balamuthia, and Hartmannella genera. To date, there is a lack of effective treatment and accurate diagnosis for amoebic infections, which has motivated the environmental characterization of FLA as a human health risk assessment strategy. However, FLA epidemiology in Brazil is scarce, contrasting with the country´s freshwater abundance. To address this gap, the present research aimed at the FLA characterization along the Monjolinho River, São Carlos, Brazil. The water abiotic evaluation as well as the morphological, and molecular investigation of FLA encompasses the central methodology. Dissolved oxygen and electrical conductivity were measured as the most informative features to inspect anthropogenic driving forces acting upon the hydric ecosystem. Eutrophic sites, downstream of the urban areas, were revealed as hotspots to a diversity of FLA. Non-nutrient agar (NNA) plates seeding confirmed the amoeba growth by light and electron microscopy characterization. Based on these results, relevant taxonomic details (e.g.: flagella, cyst walls, and pseudopodia branching patterns) were described to all FLA life cycle stages. Axenization attempts revealed the persistence of bacteria contamination, suggestive of the presence of amoebic resistant microorganisms, enhancing its threat to humans. Molecular characterization enabled us to detect the potentially pathogenic genera Naegleria (N. australiensis and N. phillipinensis), Acanthamoeba (A. genotype T4 and A. hatchetti), and Hartmanella (V. vermiforms); besides the non-pathogenic Vannela sp, Stenamoeba, Filamoeba, and Naegleria (N. canariensisi, N.gruberi, and N. dobsoni). In this work, the knowledge of FLA distribution allowed the recognition of Brazilian freshwaters as suitable ecological niches to FLA spread, as well as the development of the methodology necessary for the future identification and characterization of FLA in the environment. Although conducted to a local extend, this research suggests that other FLA genus can be equally isolated in Brazilian freshwater systems that can finally booster later expansion to other water streams.Amebas de vida livre (AVL) tem ganhado visibilidade devido à preocupação que provocam à saúde humana. São protozoários unicelulalres heterotróficos amplamente distribuídos na natureza, importantes para a saúde humana. A água é a principal fonte de contaminação por amebas, causando encefalites, ceratites, e infecções de pele. Espécies patogênicas pertencem aos gêneros Naegleria, Acanthamoeba, Sappinia, Balamuthia, e Hartmanella. Atualmente, os tratamentos e diagnósticos são pouco efetivos, o que impulsiona a caracterização ambiental de AVL como estratégia para monitoramento do risco de contaminação ao homem. Entretanto a epidemiologia de AVL no Brasil é pouco explorada, contrastando com a abundância do país em fontes de água doce. Para abordar esta lacuna, a presente pesquisa teve como objetivo a identificação de AVL no Rio Monjolinho, São Carlos, Brasil. A avaliação dos parâmetros abióticos da água, assim como investigação morfológica e molecular de AVL compuseram a metodologia central deste trabalho. Oxigênio dissolvido e condutividade elétrica foram os parâmetros limnologicos mais informativos para caracterizar as ações antropogênicas atuando sobre o ecossistema aquático. Sítios eutrofizados, à jusante da área urbana, revelaram ser foco para uma diversidade de AVL. As caracterizações por microscopia de luz e microscopia eletrônica confirmaram o crescimento de amebas em placas de ágar não nutritivo. Baseado nestes resultados, relevantes detalhes taxonômicos típicos dos estágios trofozoito, cisto, e flagelar (ex: flagelos, parede dos cistos e padrão de ramificação dos pseudopodes) foram evidenciados. Ensaios de axenização indicaram persistente contaminação bacteriana, possível consequência das AVLs atuando como reservatório para microrganismos resistentes à AVL, aumentando sua ameaça ao homem. A caracterização molecular permitiu a detecção de gêneros potencialmente patogênicos: Naegleria (N. australiensis and N. phillipinensis), Acanthamoeba (A. genotype T4 e A. hatchetti) e Hartmanella (V. vermiformis); além de não patogênicos Vannela, Stenamoeba, Filamoeba e Naegleria (N. canariensisi, N.gruberi, e N. dobsoni). No presente trabalho, o conhecimento da distribuição de AVLs permitiu o reconhecimento de corpos de água doce no Brasil como nichos ecológicos apropriados para a dispersão de AVL, assim como o desenvolvimento da metodologia necessária para a identificação e caracterização de AVL no ambiente em trabalhos futuros. Embora realizada em uma escala local, esta pesquisa sugere que outros gêneros de AVL podem ser igualmente isolados em sistemas de água doce do Brasil e, consequentemente impulsionar a expansão das investigações de AVL para outros sistemas aquáticos.Biblioteca Digitais de Teses e Dissertações da USPThiemann, Otavio HenriqueBellini, Natalia Karla2020-12-22info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisapplication/pdfhttps://www.teses.usp.br/teses/disponiveis/76/76132/tde-25082021-090243/reponame:Biblioteca Digital de Teses e Dissertações da USPinstname:Universidade de São Paulo (USP)instacron:USPLiberar o conteúdo para acesso público.info:eu-repo/semantics/openAccesseng2021-09-02T18:28:02Zoai:teses.usp.br:tde-25082021-090243Biblioteca Digital de Teses e Dissertaçõeshttp://www.teses.usp.br/PUBhttp://www.teses.usp.br/cgi-bin/mtd2br.plvirginia@if.usp.br|| atendimento@aguia.usp.br||virginia@if.usp.bropendoar:27212021-09-02T18:28:02Biblioteca Digital de Teses e Dissertações da USP - Universidade de São Paulo (USP)false
dc.title.none.fl_str_mv Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
Diversidade de amebas de vida livre no Rio Monjolinho no estado de São Paulo – abordagens morfológicas e moleculares
title Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
spellingShingle Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
Bellini, Natalia Karla
Amebas de vida-livre
Amoeba resistant microorganisms
Free-living amoeba
Microrganismos resistentes a amebas
Protozoários transmitidos pela água
Waterborne protozoan
title_short Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
title_full Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
title_fullStr Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
title_full_unstemmed Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
title_sort Diversity of free-living amoebas in the Monjolinho River in São Paulo state – morphological and molecular approaches
author Bellini, Natalia Karla
author_facet Bellini, Natalia Karla
author_role author
dc.contributor.none.fl_str_mv Thiemann, Otavio Henrique
dc.contributor.author.fl_str_mv Bellini, Natalia Karla
dc.subject.por.fl_str_mv Amebas de vida-livre
Amoeba resistant microorganisms
Free-living amoeba
Microrganismos resistentes a amebas
Protozoários transmitidos pela água
Waterborne protozoan
topic Amebas de vida-livre
Amoeba resistant microorganisms
Free-living amoeba
Microrganismos resistentes a amebas
Protozoários transmitidos pela água
Waterborne protozoan
description Free Living Amoeba (FLA) has gained increasing visibility due to human health concerns. They are unicellular heterotrophic protozoans, widely spread in nature. Water is the main source of amoebic contaminations that may result in encephalitis, keratitis, and skin infections. Pathogenic species belong to the Naegleria, Acanthamoeba, Sappinia, Balamuthia, and Hartmannella genera. To date, there is a lack of effective treatment and accurate diagnosis for amoebic infections, which has motivated the environmental characterization of FLA as a human health risk assessment strategy. However, FLA epidemiology in Brazil is scarce, contrasting with the country´s freshwater abundance. To address this gap, the present research aimed at the FLA characterization along the Monjolinho River, São Carlos, Brazil. The water abiotic evaluation as well as the morphological, and molecular investigation of FLA encompasses the central methodology. Dissolved oxygen and electrical conductivity were measured as the most informative features to inspect anthropogenic driving forces acting upon the hydric ecosystem. Eutrophic sites, downstream of the urban areas, were revealed as hotspots to a diversity of FLA. Non-nutrient agar (NNA) plates seeding confirmed the amoeba growth by light and electron microscopy characterization. Based on these results, relevant taxonomic details (e.g.: flagella, cyst walls, and pseudopodia branching patterns) were described to all FLA life cycle stages. Axenization attempts revealed the persistence of bacteria contamination, suggestive of the presence of amoebic resistant microorganisms, enhancing its threat to humans. Molecular characterization enabled us to detect the potentially pathogenic genera Naegleria (N. australiensis and N. phillipinensis), Acanthamoeba (A. genotype T4 and A. hatchetti), and Hartmanella (V. vermiforms); besides the non-pathogenic Vannela sp, Stenamoeba, Filamoeba, and Naegleria (N. canariensisi, N.gruberi, and N. dobsoni). In this work, the knowledge of FLA distribution allowed the recognition of Brazilian freshwaters as suitable ecological niches to FLA spread, as well as the development of the methodology necessary for the future identification and characterization of FLA in the environment. Although conducted to a local extend, this research suggests that other FLA genus can be equally isolated in Brazilian freshwater systems that can finally booster later expansion to other water streams.
publishDate 2020
dc.date.none.fl_str_mv 2020-12-22
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dc.publisher.none.fl_str_mv Biblioteca Digitais de Teses e Dissertações da USP
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reponame:Biblioteca Digital de Teses e Dissertações da USP
instname:Universidade de São Paulo (USP)
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reponame_str Biblioteca Digital de Teses e Dissertações da USP
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