Microbiome Shift, Diversity, and Overabundance of Opportunistic Pathogens in Bovine Digital Dermatitis Revealed by 16S rRNA Amplicon Sequencing.

This study analyzed the diversity and phylogenetic relationship of the microbiome of bovine digital dermatitis (BDD) lesions and normal skin from cattle foot by using 16S rRNA amplicon sequencing. Three BDD samples and a normal skin sample were pre-assessed for analysis. The Illumina Miseq platform was used for sequencing and sequences were assembled and were categorized to operational taxonomic units (OTUs) based on similarity, then the core microbiome was visualized. The phylogeny was inferred using MEGA7 (Molecular evolutionary genetics analysis version 7.0). A total of 129 and 185 OTUs were uniquely observed in normal and in BDD samples, respectively. Of the 47 shared OTUs, 15 species presented increased abundance in BDD. In BDD and normal samples, Spirochetes and Proteobacteria showed the most abundant phyla, respectively, suggesting the close association of observed species in each sample group. The phylogeny revealed the evolutionary relationship of OTUs and the Euclidean distance suggested a high sequence divergence between OTUs. We concluded that a shift in the microbiome leads to richer diversity in BDD lesions, and the overabundance of opportunistic pathogens and its synergistic relationship with commensal bacteria could serve as factors in disease development. The influence of these factors should be thoroughly investigated in future studies to provide deeper insights on the pathogenesis of BDD.

Genotypic and Phenotypic Characterization of Treponema phagedenis from Bovine Digital Dermatitis.

This study aimed to isolate and characterize Treponema spp. from bovine digital dermatitis (BDD)-infected dairy cattle. Seven isolates were characterized in this study. Isolates exhibited slow growth, and colonies penetrated the agar and exhibited weak ß-hemolysis. Round bodies were observed in old and antibiotic-treated cultures. Cells ranged from 9-12 µm in length, 0.2-2.5 µm in width, and were moderately spiraled. The 16S rRNA analysis revealed the isolates as Treponema phagedenis with >99% sequence homology. Isolates had alkaline phosphatase, acid phosphatase, ß-galactosidase, N-acetyl-ß-glucosaminidase, esterase (C4), esterase lipase (C8), naphthol-AS-BI-phosphohydrolase, and ß-glucuronidase activities. Low concentrations of ampicillin, erythromycin, and tetracycline were required to inhibit the growth of isolates. Formic, acetic, and butyric acids were produced, while propionic acid was significantly utilized, indicating its essentiality for treponemal growth. The isolates shared the same characteristics and, therefore, were considered as a single strain. Isolate HNL4 was deposited as a representative isolate (Treponema phagedenis KS1). The average nucleotide identity of strain KS1 showed a small difference with the human strain (99.14%) compared with bovine strain (99.72%). This study was the first to isolate and characterize Treponema phagedenis from BDD in Korea and, hence, it delivered pathogenicity-related insights and provided valuable information that can be used for the management of BDD.

Treponema spp., the dominant pathogen in the lesion of bovine digital dermatitis and its characterization in dairy cattle.

This study examined the presence of Treponema in lesions using conventional PCR detection methods and investigated the microbiome by performing high-throughput DNA sequencing. Twenty-nine bovine digital dermatitis (BDD) lesions were collected from 25 dairy farms in South Korea that were tested by PCR amplification using sets of one universal, one genus-specific, and three species specific Treponema PCR primers. Three BDD samples were randomly selected and normal tissue samples were submitted for 16S rRNA sequencing using the Illumina MiSeq platform. The dominant phylum present in all tested BDD lesions was Spirochaetes with a mean relative abundance of 46.9 %, and Treponema was the most abundant genus. Spirochaetes abundance was followed by the phyla Tenericutes and Bacteroidetes with 14.1 % and 11.8 % mean abundances, respectively. Co-infecting bacteria from phyla Tenericutes and Bacteroidetes may be involved in the progression of BDD. Bovine digital dermatitis infection is polymicrobial in nature, but Treponema spp. are the main etiologic agents of the disease. In the microbiome results, Treponema pedis had the highest mean relative abundance (20.9 %) in the BDD lesions in this study followed by T. denticola, T. medium, T. lecithinolyricum, Spirochaeta africana, and Sediminispirochaeta bajacalifoniensis. All 29 samples were positive in the genus-specific Treponema PCR results. The species-specific PCR resulted in 75.9 %, 86.2 %, and 69.0 % of samples in groups T. medium/T. vincentii-like, T. phagedenis-like, and T. pedis, respectively. Understanding how these microorganisms mutually interact in the host during certain stages of infection may help in the development of better practices for controlling BDD.

High quality genome sequence of Treponema phagedenis KS1 isolated from bovine digital dermatitis.

Treponema phagedenis KS1, a fastidious anaerobe, was isolated from a bovine digital dermatitis (BDD)-infected dairy cattle in Chungnam, Korea. Initial data indicated that T. phagedenis KS1 exhibited putative virulent phenotypic characteristics. This study reports the whole genome assembly and annotation of T. phagedenis KS1 (KCTC14157BP) to assist in the identification of putative pathogenicity related factors. The whole genome of T. phagedenis KS1 was sequenced using PacBio RSII and Illumina HiSeqXTen platforms. The assembled T. phagedenis KS1 genome comprises 16 contigs with a total size of 3,769,422 bp and an overall guanine-cytosine (GC) content of 40.03%. Annotation revealed 3,460 protein-coding genes, as well as 49 transfer RNA- and 6 ribosomal RNA-coding genes. The results of this study provide insight into the pathogenicity of T. phagedenis KS1.