Pasteurella canis infection caused by a dog bite leads to osteomyelitis and genomic analysis of the isolate

Dear Editor, Pasteurella canis is a gram-negative coccobacillus mainly resides in the oral cavity, nasopharynx, or intestine of domestic animals.1 It is an important bacterial pathogen in both animals and humans.2 P. canis can cause a variety of infections that lead to osteomyelitis, keratitis, peritonitis, and bacteraemia.3-6 In humans, dog bites are a potential risk of infection caused by this pathogen.5 There are reports of P. canis infection in humans following a scratch or bite from a domestic animal.7 These studies have been carried out mainly on the phenotype of the bacteria, with little genomic research.8 The genomic characteristics of this bacterial pathogen still need to be better elucidated. Here, we report the first genome sequence of a clinical P. canis strain isolated from a patient diagnosed with index finger osteomyelitis in China. Genotypic characterization of this strain was further analyzed. A 76-year-old male patient was diagnosed with index finger osteomyelitis and hospitalized in the department of hand surgery in a teaching hospital in Zhejiang Province in August 2019. This patient was accidentally bitten by a dog, which injured his right hand and led to bleeding and pain, 20 days prior to his hospitalization. He immediately went to the community hospital for treatment, which included debridement, suture bandaging, and rabies vaccine injection. Ten days prior to his hospitalization, his right hand showed redness, swelling, pain, and suppuration. The patient used to be physically fit. There was no history of diabetes, coronary heart disease, or infectious disease except for hypertension. The results of initial routine blood tests were as follows: white blood cells (WBCs), 9.41 × 109/L (neutrophils 73.9% and lymphocytes 18.2%); platelets, 228 × 109/L; and hemoglobin, 148 g/L. The patient underwent two rounds of debridement of osteomyelitis while in the hospital. The patient's right index finger was infected from the distal segment to the proximal segment with tendon infection, tendon necrosis, tendon sheath infection, soft tissue infection, and bone defect. The wound was thoroughly debrided. Necrotic bone, tendons, and necrotic tissue


Pasteurella canis infection caused by a dog bite leads to osteomyelitis and genomic analysis of the isolate
Dear Editor, Pasteurella canis is a gram-negative coccobacillus mainly resides in the oral cavity, nasopharynx, or intestine of domestic animals. 1 It is an important bacterial pathogen in both animals and humans. 2 P. canis can cause a variety of infections that lead to osteomyelitis, keratitis, peritonitis, and bacteraemia. [3][4][5][6] In humans, dog bites are a potential risk of infection caused by this pathogen. 5 There are reports of P. canis infection in humans following a scratch or bite from a domestic animal. 7 These studies have been carried out mainly on the phenotype of the bacteria, with little genomic research. 8 The genomic characteristics of this bacterial pathogen still need to be better elucidated. Here, we report the first genome sequence of a clinical P. canis strain isolated from a patient diagnosed with index finger osteomyelitis in China. Genotypic characterization of this strain was further analyzed.
A 76-year-old male patient was diagnosed with index finger osteomyelitis and hospitalized in the department of hand surgery in a teaching hospital in Zhejiang Province in August 2019. This patient was accidentally bitten by a dog, which injured his right hand and led to bleeding and pain, 20 days prior to his hospitalization. He immediately went to the community hospital for treatment, which included debridement, suture bandaging, and rabies vaccine injection.
Ten days prior to his hospitalization, his right hand showed redness, swelling, pain, and suppuration. The patient used to be physically fit.
There was no history of diabetes, coronary heart disease, or infectious disease except for hypertension. The results of initial routine blood tests were as follows: white blood cells (WBCs), 9.41 × 10 9   The whole-genome sequence of P. canis strain QBSD consisted of 30 contigs that comprised 2 231 959 bp, and the PGAP server predicted a total of 2033 protein-coding sequences. The overall G + C content of this isolate amounted to 36.7%. In total, 52 tRNA genes, 11 rRNA genes, and 4 ncRNA operons were identified. The genome contained several IS elements, the majority of which belong to the IS1595, IS3, and IS200 families. Two confirmed CRISPR sequences and one putative secondary metabolite gene cluster bacteriocin could also be predicted. The antimicrobial resistance genes, virulence genes, and plasmid replicons of P. canis strain QBSD are presented in Table 1. One quinolone resistance gene, qnrS1, and one plasmid replicon, ColRNAI, could be identified in the genome. Five virulence genes were identified in P. canis strain QBSD, which were gmhA/lpcA, hitA, inv, kdsA, and lpxC.
A total of two P. canis strains could be found in the NCBI GenBank database. Orthologous genes between QBSD and these two strains were identified using Roary and OrthoVenn, and phylogenetic relationships were determined by NJ/UPGMA phylogeny based on core genome single nucleotide polymorphism analysis.
Comparative genomic analyses of the three P. canis isolates revealed that they shared a large number of genes. However, phylogenetic analysis showed that these strains were not epidemiologically related ( Figure 1).
In summary, we report the first genome sequence of a clinical P. canis strain isolated from a patient diagnosed with index finger osteomyelitis in China. Our data may help to understand the genomic features of this bacterial pathogen.
This Whole Genome Shotgun project has been deposited at DDBJ/ EMBL/GenBank under the accession number WUMP00000000.

ACK N OWLED G M ENTS
This study was supported by grants from the National Natural