RESUMO
The objective of this study was to determine the ecological relationships between bacterial species that colonize infected root canals. Root canal bacteria recovered from one patient with pulp canal necrosis were evaluated in vitro for synergistic and antagonistic activities determined by mono and co-culture growth kinetics and the production of bacteriocin-like substances using the double layer diffusion method. Peptostreptococcus prevotii triggered a significant increase of Fusobacterium nucleatum growth, while the former bacteria did not affect the growth of P. prevotii. The bacterial species did not produce antagonism activity against itself or against any of the other two species. Despite many studies have demonstrated the capability of root canal microorganisms to produce antagonistic substances, these in vitro experimental tests show the synergistic effect of P. prevotii on the growth of F. nucleatum.
RESUMO
The production of antagonistic substance by bacterium present in the infected root canal system (RCS) probably is an important ecological factor for its successful colonization of the local. The objective of this study was to partially characterize an antagonistic substance produced by a Clostridium butyricum isolated from infected RCS.Production of inhibitory compound was evaluated by the agar double layer diffusion technique using Fusobacterium nucleatum and Bifidobacterium adolescentis as indicator bacteria. The physicochemical and biochemical factors tested for the partial characterization were influence of pH and temperature and susceptibility to the action of some proteolytic enzymes. An inhibition zone was observed against the two indicator strains and acidity and bacteriophage were rejected as responsible for this phenomenon. The inhibitory activity showed to be decreasing in a pH range from 3.5 to 6.5 and being stable at temperatures of 60º, 70º and 100ºC, but completely inactivated when exposed at 121ºC. The antagonistic activity was resistant to the proteolytic action of trypsin, a-chymotrypsin and papain. An antagonistic substance was produced by C. butyricum, which was thermo-resistant and probably of non-protein nature.
A produção de substâncias antagonistas por espécies bacterianas presentes em sistema de canais radiculares (SCR) infectados, tem um papel importante na colonização deste sítio. O objetivo deste estudo foi caracterizar parcialmente a substância antagonista produzida por amostra de Clostridium butyricum isolado de SCR infectados.A produção de substância antagonista foi avaliada pela técnica de difusão em ágar utilizando como bactérias indicadoras Fusobacterium nucleatum e Bifidobacterium adolescentis. Os parâmetros físico-químicos utilizados durante a caracterização parcial foram: pH, estabilidade térmica, susceptibilidade à ação das enzimas tripsina, a-quimiotripsina e papaína. Foi observada zona de inibição contra as duas amostras indicadoras e ainda foi demonstrado que ácidos e bacteriófagos não eram responsáveis por este fenômeno. A atividade inibitória mostrou-se diminuída em uma faixa de pH de 3.5 a 6.5 e estável em temperaturas de 60º, 70º e 100ºC, sendo completamente inativada quando exposta a 121ºC. A atividade antagonista foi resistente à ação das enzimas proteolíticas: tripsina, a-quimiotripsina e papaína. A substância antagonista produzida por C. butyricum é termoresistente e provavelmente de natureza não protéica.