Streptococcus uberis is an important pathogen that has been implicated in bovine mastitis but the virulence factors associated with pathogenesis are not well understood. The aim of this work was to examine 11 putative and known virulence-associated genes by PCR in 78 S. uberis strains isolated from infected animals in Argentina. Additionally, the distribution of virulence patterns over various herds was determined. Not all genes were present in the strains but all of the detected virulence-associated genes were present in combination. Forty-seven (60.3%) isolates carried seven to 10 virulence-associated genes. Further analysis revealed 58 virulence patterns. Different patterns were found within the same herd and among herds, demonstrating that strains with different virulence patterns were able to cause mastitis. Despite the large number of strains with different virulence patterns, strains with identical patterns was found. Detection of virulence-associated genes in individual S. uberis strains isolated from infected animals revealed one to 10 virulence genes. This may indicate that other virulence factors could be involved. The present study reveals the occurrence and distribution of 11 virulence-associated genes among S. uberis isolates from bovine mastitis in various herds and contributes to a better understanding of the pathogenicity of this bacterium.
The objective of this study was to evaluate a conventional scheme for identifying Streptococcus uberis strains isolated from bovine mastitis. Seventy-five gram-positive, catalase-negative cocci were collected from cows with mastitis from 19 dairy herds located in the east-central region of Argentina. Five American Type Culture Collection strains and bovine isolates were identified by the API 20 Strep system and by restriction fragment length polymorphism analysis of 16S rDNA. A conventional scheme based on 11 biochemical tests was selected for identification of Strep. uberis strains: the Christie-Atkins-Munch-Petersen reaction; hydrolysis of Arg, esculin, and sodium hippurate; growth in inulin, mannitol, raffinose, salicin, and sorbitol; and growth at 45 degrees C and in 6.5% NaCl. Reference strains and 25 bovine isolates were classified accurately to the species level by the conventional scheme in a blind assay. Each reference strain and each bovine isolate were identified as belonging to the same species following these 3 methods. The remaining 50 isolates identified as Strep. uberis by the API 20 Strep system and 16S rDNA RFLP were assayed by the conventional scheme. This scheme correctly identified 47 (94%) of 50 isolates as Strep. uberis by comparing their biochemical profile with that of the reference strain. Three (6%) of the 50 isolates were classified as Strep. uberis by the API 20 Strep system and by 16S rDNA RFLP and were identified as Enterococcus faecalis by the conventional scheme. Thirty percent of the Strep. uberis strains showed biochemical profiles identical to the Strep. uberis American Type Culture Collection 27958 strain. Seventy percent of the Strep. uberis strains demonstrated variability compared with the reference strain, resulting in 19 different biochemical profiles. The conventional scheme proposed in this study resulted in a relatively low number of misidentifications and could biochemically identify not only typical, but also atypical Strep. uberis strains. This conventional scheme can be considered an adequate method for identifying Strep. uberis strains isolated from bovine mastitis because of its affordable cost in developing countries, and it may contribute to determining the frequency of isolation of Strep. uberis strains in Argentinean dairy herds.
A mastite é uma inflamação da glândula mamária causada principalmente por bactérias, dentre as quais o gênero Staphylococcus ocupa um papel importante. Bactérias pertencentes a este gênero são caracterizadas por expressar fatores de virulência que permitem sua persistência e disseminação no hospedeiro. O presente trabalho teve por objetivo avaliar fenogenotipicamente os fatores de virulência de isolados de Staphylococcus spp. a partir de casos de mastite bovina. Foram analisadas 272 amostras de leite provenientes de oito propriedades da região Sul-Fluminense do Estado do Rio de Janeiro. Após identificação, obteve-se um total de 250 isolados de Staphylococcus spp. Estes foram submetidos às provas fenotípicas de detecção da produção de "slime" em microplaca e em ágar vermelho congo; produção de hemolisinas e sinergismo hemolítico; produção de caseinase e DNase. Posteriormente foram submetidos à técnica de PCR para detecção dos genes de produção de cápsula (cap5 e cap8), fibronectina (fnbA,e fnbB), "slime" (icaA e icaD) e hemolisinas (hla e hlb). Do total avaliado, 58% (145/250) foi identificado como Staphylococcus spp. coagulase-negativos e 42% (105/250) como Staphylococcus spp. coagulase-positivos, destes 36,2% (38/105) foram identificados como S. aureus, 11,4% (12/105) como S. intermedius e 3,8% (4/105) como pertencentes ao grupo SIG. Apenas 6,4% (16/250) dos isolados foram produtores de α-hemólise, 4,8% (12/250) de β-hemólise e, 1,6% (4/250) de α e β-hemólise. A produção de caseinase foi observada em 66,4% (166/250), e a produção de "slime" avaliada pela técnica da microplaca em 76,8% (192/250) dos isolados, respectivamente. A DNase foi detectada em ECNs (38/145) e S. aureus (14/38). Os marcadores genéticos avaliados para a produção de slime, icaA e icaD apresentaram nenhuma ou leve concordância com a produção fenotípica, respectivamente, utilizando o coeficiente Kappa. Tal dado parece indicar que outros marcadores genéticos podem estar envolvidos com a expressão desta característica. Os demais genes detectados com frequência de 4% (10/250) para cap5 e para cap8, 32,8% (82/250) para fnbA, 4,4% (11/250) para fnbB, 19,2% (48/250) para hla e 18% (45/250) para hlb. O perfil circulante nas propriedades foi o 1: isolado produtor de "slime" e caseinase. O gene spaA foi positivo em todos os S. aureus, apresentando amplicons de tamanhos variados, sendo o tamanho prevalente o de 300pb. A amplificação do gene coa apresentou nove tipos polimórficos distintos, sendo prevalente o amplicon de 600pb. O gene agr foi detectado em todos os S. aureus, com amplicon de 200pb. Foi observado que os genes de virulência estudados estavam distribuídos de modo aleatório entreos 6 distintos perfis eletroforéticos obtidos através da Eletroforese em Gel de Campo Pulsado (PFGE).
The aim of this study was to evaluate the genotypic relationships among 40 Streptococcus uberis isolated from bovine mastitis by using pulsed-field gel electrophoresis (PFGE). Additionally, the association between PFGE patterns and virulence profiles was investigated. The isolates exhibited 17 PFGE patterns. Different strains were found within and among herds; however, a low number of isolates within the same herd shared an identical PFGE type. No association between PFGE patterns and virulence profiles was found. However, the detection of specific strains in some herds could indicate that some strains are more virulent than others. Further research needs to be undertaken to elucidate new virulence-associated genes that might contribute to the capability of these strains to produce infection.
A wide variety of contagious and environmental bacteria can cause bovine mastitis worldwide. Antibiotic therapy is currently used for the treatment of the disease, although its intensive use leads to the emergence of resistant strains. Bacteriocins arise as potential antibacterial option for mastitis treatment. The aim of this work was to analyze bacteriocin associated genes as Streptococcus uberis ubericin A (ubaA), ubericin A immunity protein (ubaI), uberolysin A (ublA), Lantibiotic nisin-U (nsuA and nsuB) in 68 S uberis strains. Furthermore, the ability of the strains to inhibit important mastitis pathogens was assayed. Results showed that genes were present in combination and all the strains carried at least one gene. Seven bacteriocion associated gene patterns were identified. S. uberis strains were able to inhibit different mastitis pathogens and the greatest inhibition was observed in CNS strains. The results obtained provide new insights on antibacterial activity produced by S. uberis strains against different mastitis pathogens and could contribute to the development of strategies to treat intramammary infections.
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