Open Veterinary Journal (Nov 2024)
Molecular identification of Klebsiella species from pneumonic goats, Iraq
Abstract
Background: In goats, acute and chronic respiratory infections are often characterized by a rapid progressing clinical course with a little opportunity to develop an effective antibiotic therapy. Aim: This study aimed to identify Klebsiella spp. in pneumonic goats, assess its antibiotic susceptibility, and confirm the molecular phylogenetics of Klebsiella spp. Methods: A total of 80 pneumonic goats were selected from the slaughterhouses located in Basra province (Iraq) during June to November 2023, and each animal was subjected to obtaining only one sample. The studied samples were included 30 nasal swabs that obtained from the lived goats, while 30 lung samples in addition to 20 tracheal swabs were collected from slaughtered goats. All study samples were inoculated onto MacConkey agar and tested biochemically. Eleven types of antibiotics were served in the Kirby-Bauer disc diffusion method to identify the susceptibility of Klebsiella spp. Positive culture isolates were tested molecularly using the polymerase chain reaction (PCR) and then sequenced to phylogenetic analysis of study isolates. Results: The findings indicated that 35% of samples were positive to Klebsiella spp. including 30% in trachea, 33.33% in nasal swabs, and 40% in lungs. Klebsiella colonies appeared on MacConkey agar as bright pink mucoid texture; while on blood agar, they were large, glossy, mucoid, whitish-grey, spherical, and free of hemolysis. Biochemically, all isolates were exhibited a negative reactivity to motility, oxidase, indole and methyl red, but positives to urease, citrate utilization, catalase, and Voges-Proskauer, acid and gas production. Antibiotic susceptibility testing revealed the high susceptibility of Klebsiella isolates to meropenem (71.43%), and intermediate susceptibility to ciprofloxacin (28.57%), but high resistance to imipenem (60.71%). Targeting the 16S rRNA gene, PCR results confirmed all tested isolates as Klebsiella spp. Finally, phylogenetic analysis of 9 positive isolates demonstrated the identity of local Klebsiella isolates to K. aerogenes (no= 4), K. pneumoniae (no= 3), K. quasivariicola (no= 1), and K. quasipneumoniae (no= 1). Conclusion: Our study confirms the presence of K. aerogenes, K. quasivariicola, and K. quasipneumoniae in pneumonic goats, highlighting the importance molecular phylogeny in detection of new Klebsiella species. However, furthermore studies are necessary to investigate various Klebsiella species/strains in goats and other domestic animals. [Open Vet J 2024; 14(11.000): 2980-2988]
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