Biofilm production of coagulase-negative staphylococci isolated from rescued wild animals in the Republic of Korea

Biofilm production is a well-known causative factor of catheter- and medical device-related sepsis. Its high prevalence in coagulase-negative staphylococci (CoNS) has recently been reported. Information on biofilm production in CoNS isolated from wild animals is lacking. Herein, we studied the biofilm formation capabilities of CoNS isolated from rescued wild animals in the Republic of Korea. Swab samples were collected from the conjunctiva, nasal cavity, perianal area, and rectum for mammals while the sampling was done from the conjunctiva, oral mucosa, pericloacal area, and cloaca for birds. Isolation of CoNS was based on morphological and biochemical analyses along with molecular typing. Biofilm production was analyzed using 96-well plate based quantitative adherence assays. The studies demonstrated that CoNS of mammalian origin have higher biofilm-producing ability (70.4%) than the isolates from birds (62.5%). In particular, all methicillin-resistant (MR) CoNS isolated from mammals were capable of biofilm formation while only 63.3% of MR CoNS isolated from birds could produce biofilms. The MR CoNS isolated from mammals also had a significantly higher ability to form biofilms (100%) than methicillin susceptible CoNS (60.0%) than those isolates from birds. The findings show that wild animals may act as reservoirs as well as possible transmitters of biofilm-mediated antibiotic resistant genes.


Findings
The pathogenic potential of coagulase-negative staphylococci (CoNS) is well known; however, the potential causes and underlying mechanisms remain unclear. CoNS are nosocomial pathogens in humans, with Staphylococcus epidermidis and Staphylococcus haemolyticus being the most significant species [1]. They have also been isolated from a variety of farm animals, pets, and wild animals and CoNS are considered as a reservoir of antibiotic resistance genes [2,3]. Recently, CoNS isolates with high vancomycin resistance were discovered in the saliva of migratory songbirds in the USA [4], suggesting the zoonotic potential of CoNS originating from wild animals. Biofilm formation is a well-known pathogenic characteristic of CoNS that leads to catheter-and medical device-related sepsis [5,6]. Here we report methicillin resistance prevalence and biofilm formation abilities of CoNS isolated from rescued wild animals in the Republic of Korea.
From December 2016 to February 2017, 120 swab samples were collected from rescued wild animals at the Jeonbuk Wildlife Center. All samplings were done before the animals contacted any medical device or were given any medications. For mammals, samples were collected from the conjunctiva, nasal cavity, perianal area, and rectum, while the sampling was done from the conjunctiva, oral mucosa, pericloacal area, and cloaca of birds. After sampling, the swabs were spread onto trypticase soy agar plates containing 5% sheep blood and were subsequently incubated at 37 °C for 24-48 h. After incubation, CoNS were isolated based on the colony morphology,

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Acta Veterinaria Scandinavica  [7] and sequencing were used as positive and negative controls for coagulase and DNase tests, respectively.
The isolated staphylococci were further identified by 16S ribosomal RNA (16S rRNA) and heat shock protein 60 (hsp60) analyses [8][9][10] (Table 1). After PCR amplification, all amplicons were purified and sequenced. The homology between the deduced nucleotide sequences and a known S. epidermidis genomic sequence was analyzed using the BLAST search program (National Center for Biotechnology Information [NCBI], USA). Finally, the species identification of the isolates was confirmed by a multiple-PCR method [11].
Methicillin resistance of isolated CoNS was confirmed by the Kirby-Bauer disc diffusion test with a 1 μg oxacillin disc (Oxoid, Hampshire, UK) and a 30-μg cefoxitin disc (Oxoid) and a PCR assay targeting the mecA gene [12]. A methicillin resistant (MR) strain (ATCC 25923) and a methicillin susceptible (MS) strain (ATCC 6538) of S. aureus were used as controls for these tests.
Biofilm formation ability of the isolated S. epidermidis strains was determined through a quantitative adherence assay using 96-well tissue culture plates [13]. Briefly, the isolate from fresh trypticase soy agar with 5% sheep blood was inoculated in trypticase soy broth (TSB) and incubated for 24 h at 37 °C under stationary and aerobic Nasal cavity S. sciuri (4) conditions. After incubation, the broth was diluted to the ratio of 1:100 in TSB containing 2% glucose to maximize ica operon induction [14]. A total of 200 µL of the cell suspension was subsequently transferred to a U-bottomed 96-well microtiter plates and incubated aerobically for 24 h at 37 °C. The culture was then removed from the wells, and the plates were washed thrice with 200 µL of phosphate-buffered saline to remove non-adherent cells followed by drying of the plates in an inverted position. Adherent biofilms were fixed with 95% ethanol and stained with 100 µL of 1% crystal violet for 5 min.
Unbound crystal violet was subsequently removed, and the wells were washed thrice with 300 µL of sterile distilled water. The water was then removed, and the plate was air-dried for 2 h. The optical density (OD) of each well was measured at 570 nm (OD 570 ). The analyses were performed in triplicate, and the isolates were classified as strong, moderate, weak, or zero biofilm producers based on their OD 570 (4 × OD c < OD 570 : strong biofilm producer; 2 × OD c < OD 570 ≤ 4 × OD c : moderate biofilm producer; OD c < OD 570 ≤ 2 × OD c : weak biofilm producer; OD 570 ≤ OD c : no biofilm producer [OD cutoff (OD c ) = average OD 570 of negative control + (3 × standard deviation of negative control)]) [15]. S. aureus strain ATCC25923 and sterile TSB were used as positive and negative controls, respectively. From 120 swab samples, 83 CoNS isolates were obtained. Of these, 27 were isolated from 16 wild mammals, while 56 were isolated from 23 wild birds (Table 1). S. sciuri was the most commonly isolated species in both mammals and birds. In birds, S. warneri was the second most commonly isolated species (n = 11), while S. caseolyticus (n = 4) was the second most common species isolated from mammalian samples. Moreover, all S. sciuri isolates (n = 5) from mammals were MR, while 18 out of 21 S. sciuri (85.7%) samples isolated from birds were MR. Regardless of the origin of the sample, methicillin resistance of CoNS isolates from birds (53.6%) was much higher than that of CoNS isolated from mammals (25.9%).
The biofilm assay results revealed that all CoNS isolated from mammals could form biofilms. This was not associated with methicillin resistance. Among the mammalian MR CoNS, strong or moderate biofilm production was found, while only 60% of mammalian MS CoNS (12/20) were found as strong or moderate Table 2 Results of biofilm production assays of 83 coagulase negative staphylococci isolates   Table 2 summarizes the results of the biofilm production assay.
Most of the CoNS isolated from wild animals were capable of biofilm production, with 65.1% being classified as either strong or moderate biofilm producers. This data indicates relatively lower prevalence of biofilm producing CoNS in wild animals than in companion animals [16][17][18]. However, considering that all wild animals evaluated in this study seem to have no prior exposure to antibiotic therapy, this prevalence indicates a wider spread of the biofilm-producing bacteria in the environment. This also implies that subsequent to the acquisition of the antibiotic resistant genes or pathogenic factors by horizontal spread among biofilm-producing staphylococci, wild animals could act as reservoirs and transmitters of these genes or factors [19,20].
In summary, this study demonstrates the high prevalence of biofilm-producing CoNS in wild animals, indicating the necessity for investigation and management of the wild environment and animals. A future large-scale investigation is necessary to understand and establish effective management strategies.