Abstract
Mycoplasma mycoides subsp. mycoides is the causative agent of contagious bovine pleuropneumonia. A pathogenic strain BEN-1 was isolated from bovine lung and underwent continuous passages in rabbits for 468 generations. During this process, the strain’s strong virulence became weak and, gradually, it lost the ability to confer protective immunity in cattle but developed virulence in rabbits. In order to gain insight into the mechanisms behind the reduction in virulence and the loss of immunogenicity, we sequenced five representative strains of the BEN series, including the original strain (BEN-1), the strain generation that first acquired virulence in rabbits (BEN-50), the two vaccine strain generations (BEN-181 and BEN-326), and the strain generation showing the greatest loss of immunogenicity (BEN-468). The gene mutation rate in the four different propagation stages varied greatly, and over half of variations observed in each generation were removed during the propagation process. However, the variation maintained in the BEN-468 generation might contribute to its changes in virulence and immunogenicity. We thus identified 18 genes associated with host adaptation, six genes contributing to virulence in cattle, and 35 genes participating in conferring immunity in cattle. These findings might help us optimize the vaccine to obtain more effective immunization results.
Highlights
A pathogenic strain BEN-1 was isolated from bovine lung and underwent continuous passages in rabbits for 468 generations
Mmm is included in the classical M. mycoides cluster: Mycoplasma capricolum subsp. capripneumoniae (Mccp), Mycoplasma capricolum subsp. capricolum (Mcc), Mycoplasma mycoides subsp. capri (Mmc), Mycoplasma mycoides subsp. mycoides (Mmm), and Mycoplasma leachii (Ml)
We compared the entire genomes of Mmm BEN-1, BEN-50, BEN-181, BEN-326, and BEN-468
Summary
A pathogenic strain BEN-1 was isolated from bovine lung and underwent continuous passages in rabbits for 468 generations. During this process, the strain’s strong virulence became weak and, gradually, it lost the ability to confer protective immunity in cattle but developed virulence in rabbits. We identified 18 genes associated with host adaptation, six genes contributing to virulence in cattle, and 35 genes participating in conferring immunity in cattle These findings might help us optimize the vaccine to obtain more effective immunization results. Mmm is included in the classical M. mycoides cluster: Mycoplasma capricolum subsp. The T1/44 vaccine approved by the OIE was originally developed from a virulent Mmm strain isolated in Tanzania, which had been passaged 44 times in chicken embryos in an effort to reduce its virulence. The T1/44 vaccine has been administered for nearly 60 years, the protection it provides in cattle is highly variable and transient and it has been unable to control the spread of CBPP in Africa[8]
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