2004
DOI: 10.1023/b:biom.0000027704.53859.d3
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Both lactoferrin and iron influence aggregation and biofilm formation in Streptococcus mutans

Abstract: Streptococcus mutans, a gram-positive immobile bacterium, is an oral pathogen considered to be the principal etiologic agent of dental caries. Although some researches suggest that trace metals, including iron, can be associated with dental caries, the function of salivary iron and lactoferrin in the human oral cavity remains unclear. The data reported in this study indicates that iron-deprived saliva (Fe3+ < 0.1 microM) increases S. mutans aggregation and biofilm formation in the fluid and adherent phases as … Show more

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Cited by 84 publications
(48 citation statements)
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“…A major phenotype of interest for us is the ability of A. tumefaciens to attach to surfaces and form biofilms. Iron limitation has been demonstrated to influence biofilm formation in several other bacteria (31,36,68). The effects of iron limitation on the biofilm formation of A. tumefaciens were examined using static-culture biofilm assays with increasing concentrations of the iron chelator EDDHA and, in parallel, the commonly used iron chelator 2, 2=-dipyridyl (DIP).…”
Section: Manganese Uptake Is Required For Normal Tumorigenesis Bymentioning
confidence: 99%
See 1 more Smart Citation
“…A major phenotype of interest for us is the ability of A. tumefaciens to attach to surfaces and form biofilms. Iron limitation has been demonstrated to influence biofilm formation in several other bacteria (31,36,68). The effects of iron limitation on the biofilm formation of A. tumefaciens were examined using static-culture biofilm assays with increasing concentrations of the iron chelator EDDHA and, in parallel, the commonly used iron chelator 2, 2=-dipyridyl (DIP).…”
Section: Manganese Uptake Is Required For Normal Tumorigenesis Bymentioning
confidence: 99%
“…Conversely, under static culture conditions, high iron levels appear to inhibit surface-associated biofilm formation by P. aeruginosa (34,35). In contrast, static biofilm formation by the oral pathogen Streptococcus mutans appears to be induced by the addition of lactoferrin and by iron limitation in general (36). In addition to altering iron availability, perturbation of P. aeruginosa iron-responsive regulators has a dramatic effect on biofilm formation.…”
mentioning
confidence: 97%
“…Em relação ao S. mutans, estudos dos transportadores ABC restringem-se a transportadores de açúcar, metais, oligopeptídeos e aminoácidos (TAO et al, 1993;FRANCESCA et al, 2004;NEPOMUCENO et al;2007;DASHPER;RILEY;REYNOLDS, 1995). Em particular, a captação de glutamina nessa espécie está diretamente relacionada ao valor de pH intracelular e é estimulada pela presença de íons potássio (NOJI et al, 1988;SATO et al, 1989;DASHPER;RILEY;REYNOLDS, 1995 …”
Section: A Todos Os Funcionários Do Departamento De Microbiologia Dounclassified
“…O transporte de fosfato inorgânico (Pi), em conjunto com o transporte de componentes organo-fosfatados, são essenciais para o controle e regulação interna da homeostase do fósforo, relacionado à fontes de energia, biossíntese de DNA, RNA e fofolipídeos ( VAN VEEN et al, 1993 Em relação ao S. mutans, estudos dos transportadores ABC restringem-se a transportadores de açúcar, metais, oligopeptídeos e aminoácidos (DASHPER et al, 1995;FRANCESCA et al, 2004;NEPOMUCENO et al, 2007;TAO et al, 1993a).…”
Section: Sistema De Transporte De Fosfato Inorgânico Pstunclassified
“…Sendo a capacidade de aderência/produção de biofilme a mais relevantes, por se tratar do passo inicial e essencial para o desenvolvimento da cárie dental, permitindo o contato direto da bactéria (e por conseguinte de seus produtos metabólicos) à superfície dental, e dificultando o acesso da saliva à mesma, impedindo assim a ação tamponante, que essa promove na presença do ácido láctico produzido por S. mutans (HAMADA et al, 1980). Esta capacidade de aderir à superfície dental pode ser aferida, de modo indireto in vitro, pela aderência promovida em superfícies abióticas, como placas de polipropileno (FRANCESCA et al, 2004).…”
Section: Streptococcus Mutansunclassified