This study was conducted to develop a method for accurate quantification of Mycoplasma hyopneumoniae during vaccine production or experimental research. Primer and probe concentration that gave the highest ΔRn and th...This study was conducted to develop a method for accurate quantification of Mycoplasma hyopneumoniae during vaccine production or experimental research. Primer and probe concentration that gave the highest ΔRn and the lowest Ct were selected to establish the real-time PCR system for the detection of M. hyopneumoniae. Template DNA of M. hyopneumoniae was extracted by boiling under different conditions and detected by real-time PCR to determine the optimal conditions for DNA extraction. Thereafter, intra-and inter-batch reproducibility tests were carried out using a standard plasmid to evaluate the stability of the PCR system. Subsequently, the effect of medium composition on the quantitative detection was evaluated. Finally, the correlation between real-time PCR and CCU method was explored. The optimal primer and probe concentration for real-time PCR were 0.4 and 0.2 μmol/L, respectively. The intra-and inter-batch coefficients of variation(CV) in Ct value of 10~4-10~9 copies/μl standard plasmid were <5%, indicating good reproducibility of the real-time PCR system. Following incubation in a boiling water bath for 10 min, M. hyopneumoniae samples can be used directly as a template in subsequent real-time PCR assays,and good intra-batch and inter-batch reproducibility was observed. The working concentration of KM2 medium should be less than the 1/10 of the concentration of the stock solution to minimize its influence on the quantitative detection. Spearman's correlation analysis revealed that the log of CCU and the log of DNA copy number had a significant positive relationship(r=0.797,P=0.000). Thus, the two methods can be used in combination in the quantitative detection of M. hyopneumoniae. In summary, a rapid, stable and accurate quantitative PCR system for detecting M. hyopneumoniae culture was established in this study, which provides a technical means for accurate quantification of M. hyopneumoniae in vaccine production and laboratory tests.展开更多
Mycoplasma hyopneumoniae(M.hyopneumoniae),is the primary aetiological agent of enzootic pneumonia leading to chronic respiratory disease prevalent worldwide.Conventional pigs are the only animals used for pathogenicit...Mycoplasma hyopneumoniae(M.hyopneumoniae),is the primary aetiological agent of enzootic pneumonia leading to chronic respiratory disease prevalent worldwide.Conventional pigs are the only animals used for pathogenicity studies and vaccine evaluations of M.hyopneumoniae.Considering that the challenge animals have better genetic stability and a smaller body size to operate with,an alternative experimental animal model of M.hyopneumoniae infection with Bama miniature pigs was established.Nine seven-week-old snatch-farrowed,porcine colostrum-deprived(SF-pCD)Bama miniature pigs and nine conventional pigs were randomly divided into two infected groups(Bama miniatureinfected(BI)and conventional-infected groups(CI),BI and CI,n=6)and two control groups(Bama miniature control(BC)and conventional control(CC)groups,BC and CC,n=3).Every piglet was tracheally inoculated with 5×10^(8) CCU/mL containing 10%suspension of a stock of frozen lung homogenate from SF-pCD pigs infected with virulent strain JS or sterilized KM2 medium.Typical lung lesions appeared in all infected pigs after necropsy,and the mean gross lung lesions was 17.3 and 13.7 in groups of BI and CI.Serum IgG and nasal sIgA antibody titres were increased significantly.Cilia shedding and mucus staining increased greatly in JS-infected bronchi.Obvious reddish gross lesions and M.hyopneumoniae antigen were detected,especially apparently observed in group of BI.Moreover,DNA copies of M.hyopneumoniae from bronchoalveolar lavage fluid(BALF)of each JS-infected piglet reached more than 10^(8),and M.hyopneumoniae could be re-isolated from each infected BALF.These results indicate that Bama miniature pigs could be used as an alternative and more maneuverable experimental infection model for M.hyopneumoniae and display typical clinical and pathological features consistent with those in conventional pigs.展开更多
基金Supported by National Key Research and Development Project of China(2017YFD0501604)National Natural Science Foundation of China(31400164)
文摘This study was conducted to develop a method for accurate quantification of Mycoplasma hyopneumoniae during vaccine production or experimental research. Primer and probe concentration that gave the highest ΔRn and the lowest Ct were selected to establish the real-time PCR system for the detection of M. hyopneumoniae. Template DNA of M. hyopneumoniae was extracted by boiling under different conditions and detected by real-time PCR to determine the optimal conditions for DNA extraction. Thereafter, intra-and inter-batch reproducibility tests were carried out using a standard plasmid to evaluate the stability of the PCR system. Subsequently, the effect of medium composition on the quantitative detection was evaluated. Finally, the correlation between real-time PCR and CCU method was explored. The optimal primer and probe concentration for real-time PCR were 0.4 and 0.2 μmol/L, respectively. The intra-and inter-batch coefficients of variation(CV) in Ct value of 10~4-10~9 copies/μl standard plasmid were <5%, indicating good reproducibility of the real-time PCR system. Following incubation in a boiling water bath for 10 min, M. hyopneumoniae samples can be used directly as a template in subsequent real-time PCR assays,and good intra-batch and inter-batch reproducibility was observed. The working concentration of KM2 medium should be less than the 1/10 of the concentration of the stock solution to minimize its influence on the quantitative detection. Spearman's correlation analysis revealed that the log of CCU and the log of DNA copy number had a significant positive relationship(r=0.797,P=0.000). Thus, the two methods can be used in combination in the quantitative detection of M. hyopneumoniae. In summary, a rapid, stable and accurate quantitative PCR system for detecting M. hyopneumoniae culture was established in this study, which provides a technical means for accurate quantification of M. hyopneumoniae in vaccine production and laboratory tests.
基金supported by grants from the National Key Research and the Development Project(2017YFD0501604)National Natural and Science Foundation of China(31800161,31770193)Natural Sciences Foundation of Jiangsu Province(BK20180297).
文摘Mycoplasma hyopneumoniae(M.hyopneumoniae),is the primary aetiological agent of enzootic pneumonia leading to chronic respiratory disease prevalent worldwide.Conventional pigs are the only animals used for pathogenicity studies and vaccine evaluations of M.hyopneumoniae.Considering that the challenge animals have better genetic stability and a smaller body size to operate with,an alternative experimental animal model of M.hyopneumoniae infection with Bama miniature pigs was established.Nine seven-week-old snatch-farrowed,porcine colostrum-deprived(SF-pCD)Bama miniature pigs and nine conventional pigs were randomly divided into two infected groups(Bama miniatureinfected(BI)and conventional-infected groups(CI),BI and CI,n=6)and two control groups(Bama miniature control(BC)and conventional control(CC)groups,BC and CC,n=3).Every piglet was tracheally inoculated with 5×10^(8) CCU/mL containing 10%suspension of a stock of frozen lung homogenate from SF-pCD pigs infected with virulent strain JS or sterilized KM2 medium.Typical lung lesions appeared in all infected pigs after necropsy,and the mean gross lung lesions was 17.3 and 13.7 in groups of BI and CI.Serum IgG and nasal sIgA antibody titres were increased significantly.Cilia shedding and mucus staining increased greatly in JS-infected bronchi.Obvious reddish gross lesions and M.hyopneumoniae antigen were detected,especially apparently observed in group of BI.Moreover,DNA copies of M.hyopneumoniae from bronchoalveolar lavage fluid(BALF)of each JS-infected piglet reached more than 10^(8),and M.hyopneumoniae could be re-isolated from each infected BALF.These results indicate that Bama miniature pigs could be used as an alternative and more maneuverable experimental infection model for M.hyopneumoniae and display typical clinical and pathological features consistent with those in conventional pigs.