Staphylococcus coagulans possesses many virulence factors of Staph. aureus and Staph. pseudintermedius.

Aims: To understand the Staphylococcus coagulans prevalence in causing skin infections in dogs and detection of various virulence genes in Staph. coagulans isolates.

Methods And Results: Staph. coagulans was isolated from pus swabs collected from dogs with skin infection and identified by detecting thermonuclease, coagulase, and urease genes. The presence of methicillin-resistant gene (mecA) was performed by PCR. Antimicrobial susceptibility test was carried out by disc diffusion method. In total, 38 Staph. coagulans clinical isolates and 42 Staph. coagulans genomes available in NCBI database were screened for 19 virulence genes by PCR and in silico prediction, respectively. A prevalence of 13.8% (38/275) of Staph. coagulans dog skin infection was observed and 15.8% (6/38) of Staph. coagulans isolates carried mecA gene. Many Staph. coagulans isolates were susceptible to all tested antimicrobials. Twenty nine per cent isolates were resistant to ciprofloxacin. Genes encoding leukotoxins, DNase, exfoliative toxin, superantigen-like exotoxin, immunoglobulin-binding proteins, fibrinogen-binding proteins, autolysin, and rod shape-determining protein were detected in almost all the Staph. coagulans clinical isolates and genomes from NCBI database, whereas anti-adhesin plasma-sensitive protein genes were present in relatively lesser number of Staph. coagulans clinical isolates and genomes from NCBI database.

Conclusions: Staph. coagulans possesses many virulence factors that are present in other coagulase-positive staphylococci, such as Staph. aureus and Staph. pseudintermedius. The presence of two bi-component leukotoxin genes in tandem with other virulence factor genes in a single pathogenic island in the Staph. coagulans genomes explained their eminence in the virulence of Staph. coagulans causing infections. Staph. coagulans was classified as a separate species in the year 2020 and primarily causes skin infections in dogs. Identification of this species is not included in any of the automated bacterial identification systems. Hence, many veterinary laboratories do not have a strategy to identify this bacterium. This study will help in the identification of Staph. coagulans in veterinary laboratories by PCR apart from detecting various virulence factors present in this pathogen. The existence of many virulence factors and prevalence in different animals in varied geographical locations suggest that Staph. coagulans is an important coagulase-positive staphylococcal pathogen in animals.