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Mycobacterium bovis Strain Ravenel Is Attenuated in Cattle.

Syeda A HadiEvan P BrennerMitchell V PalmerW Ray WatersTyler C ThackerCatherine VilchèzeMichelle H LarsenWilliam R JacobsSrinand Sreevatsan
Published in: Pathogens (Basel, Switzerland) (2022)
Mycobacterium tuberculosis variant bovis (MBO) has one of the widest known mammalian host ranges, including humans. Despite the characterization of this pathogen in the 1800s and whole genome sequencing of a UK strain (AF2122) nearly two decades ago, the basis of its host specificity and pathogenicity remains poorly understood. Recent experimental calf infection studies show that MBO strain Ravenel (MBO Ravenel) is attenuated in the cattle host compared to other pathogenic strains of MBO. In the present study, experimental infections were performed to define attenuation. Whole genome sequencing was completed to identify regions of differences (RD) and single nucleotide polymorphisms (SNPs) to explain the observed attenuation. Comparative genomic analysis of MBO Ravenel against three pathogenic strains of MBO (strains AF2122-97, 10-7428, and 95-1315) was performed. Experimental infection studies on five calves each, with either MBO Ravenel or 95-1315, revealed no visible lesions in all five animals in the Ravenel group despite robust IFN-γ responses. Out of 486 polymorphisms in the present analysis, 173 were unique to MBO Ravenel among the strains compared. A high-confidence subset of nine unique SNPs were missense mutations in genes with annotated functions impacting two major MBO survival and virulence pathways: (1) Cell wall synthesis & transport [ espH (A103T), mmpL8 (V888I), aftB (H484Y), eccC 5 (T507M), rpfB (E263G)], and (2) Lipid metabolism & respiration [ mycP 1 (T125I), pks5 (G455S), fadD 29 (N231S), fadE29 (V360G)]. These substitutions likely contribute to the observed attenuation. Results from experimental calf infections and the functional attributions of polymorphic loci on the genome of MBO Ravenel provide new insights into the strain's genotype-disease phenotype associations.
Keyphrases
  • escherichia coli
  • mycobacterium tuberculosis
  • genome wide
  • cell wall
  • immune response
  • pseudomonas aeruginosa
  • dna methylation
  • single cell
  • biofilm formation
  • cystic fibrosis
  • pulmonary tuberculosis