Bovine Respiratory Disease (BRD) causes a severe form of pneumonia in all age of cattle. This study was designed to investigate the distribution of capsular types, serotypes, and virulence-associated genes of the majo...Bovine Respiratory Disease (BRD) causes a severe form of pneumonia in all age of cattle. This study was designed to investigate the distribution of capsular types, serotypes, and virulence-associated genes of the major bacterial pathogens from BRD outbreak samples in Ethiopia. In this study 166 samples were collected from clinically sick (<i>n</i> = 107) and pneumonic lung tissue (<i>n</i> = 59). Laboratory assay confirmed isolation of <i>M. haemolytica</i> 37 (22.29%), <i>P. multocida</i> 25 (15.06%), <i>B. trehalosi</i> 12 (7.23%), and <i>H. somni</i> 15 (9.04%). PCR assay of <i>P. multocida</i> capsular typing revealed 21 (84.0%) cap A (<i>hyaD-hyaC</i>) and 4 (16.0%) cap D (<i>dcbF</i>) strains. <i>M. haemolytica</i> serotypes belonged to A: 1, A: 2, and A: 6 from 26 (70.27%), 4 (10.81%), and 7 (18.92%) isolates, respectively. <i>P. multocida</i> biotyping showed isolation of A: 1, A: 2, and A: 3 from 3 (14.29%), 2 (9.52%), and 16 (76.19%) isolates, respectively. <i>M. haemolytica</i> harbored more than 60% <i>ssa</i> gene, and 90.91% <i>sodA</i> while <i>FbpA</i>, <i>TbpA</i>, and <i>lktC</i> genes were found in all isolates. Likewise, all <i>P. multocida</i> exhibited <i>toxA</i>, <i>FbpA</i>, <i>TbpA</i>, and <i>pmSLP</i> genes. The current finding showed that <i>M. haemolytica</i> serotype A: 1 is frequently associated with BRD followed by <i>P. multocida</i> biotype A: 3. These two isolates harbored diverse virulence-associated genes and presented the pathogenic potential of the current isolates. Thus, investigation of pathogenic strains of BRD, virulence genes distribution, and molecular epidemiology of the disease from wider areas of the country are essential. Hence, continuous outbreak surveillance and molecular approaches are indispensable in designing efficient prevention strategies.展开更多
文摘Bovine Respiratory Disease (BRD) causes a severe form of pneumonia in all age of cattle. This study was designed to investigate the distribution of capsular types, serotypes, and virulence-associated genes of the major bacterial pathogens from BRD outbreak samples in Ethiopia. In this study 166 samples were collected from clinically sick (<i>n</i> = 107) and pneumonic lung tissue (<i>n</i> = 59). Laboratory assay confirmed isolation of <i>M. haemolytica</i> 37 (22.29%), <i>P. multocida</i> 25 (15.06%), <i>B. trehalosi</i> 12 (7.23%), and <i>H. somni</i> 15 (9.04%). PCR assay of <i>P. multocida</i> capsular typing revealed 21 (84.0%) cap A (<i>hyaD-hyaC</i>) and 4 (16.0%) cap D (<i>dcbF</i>) strains. <i>M. haemolytica</i> serotypes belonged to A: 1, A: 2, and A: 6 from 26 (70.27%), 4 (10.81%), and 7 (18.92%) isolates, respectively. <i>P. multocida</i> biotyping showed isolation of A: 1, A: 2, and A: 3 from 3 (14.29%), 2 (9.52%), and 16 (76.19%) isolates, respectively. <i>M. haemolytica</i> harbored more than 60% <i>ssa</i> gene, and 90.91% <i>sodA</i> while <i>FbpA</i>, <i>TbpA</i>, and <i>lktC</i> genes were found in all isolates. Likewise, all <i>P. multocida</i> exhibited <i>toxA</i>, <i>FbpA</i>, <i>TbpA</i>, and <i>pmSLP</i> genes. The current finding showed that <i>M. haemolytica</i> serotype A: 1 is frequently associated with BRD followed by <i>P. multocida</i> biotype A: 3. These two isolates harbored diverse virulence-associated genes and presented the pathogenic potential of the current isolates. Thus, investigation of pathogenic strains of BRD, virulence genes distribution, and molecular epidemiology of the disease from wider areas of the country are essential. Hence, continuous outbreak surveillance and molecular approaches are indispensable in designing efficient prevention strategies.
