Data from: Innovative Methodology for Antimicrobial Susceptibility Determination in Mycoplasma Biofilms

<p dir="ltr"><i>Mycoplasma spp.</i> are facultative pathogens that contribute to the pathogenesis of multiple bovine diseases including the bovine respiratory disease complex and that have been shown to form biofilms. Biofilm formation is associated with increased antibiotic resistance in many organisms, but accurate determination of antimicrobial susceptibility in biofilms is challenging. In <i>Mycoplasma</i> spp., antimicrobial susceptibility is routinely determined using metabolic pH-dependent color change. However, biofilm formation generally leads to reduced metabolism, making interpretation of metabolic readouts difficult. Therefore, we developed and optimized a new flow-cytometry-based method for antimicrobial susceptibility testing in biofilm-forming <i>Mycoplasma</i>, termed the live-dead antimicrobial susceptibility test (LD-AST). The LD-AST measures the proportion of dead bacteria upon exposure to antibiotics, works robustly with both planktonic and biofilm cultures, and enables the determination of the minimum bactericidal concentration (MBC) for a given antibiotic. We used two strains of <i>M. bovis</i><i> </i>(Donetta PG45 and Madison) and two clinical bovine <i>Mycoplasma spp.</i><i> </i>isolates (MVDL1 & MVDL2) to determine the impact of biofilm growth on antimicrobial susceptibility for gentamicin, enrofloxacin, or tetracycline. All <i>Mycoplasma</i><i> </i>strains were susceptible to all antibiotics when cultured as planktonic cells, with MBCs in the expected range. However, three out of four strains (Donetta PG45, MVDL1 and MVDL2) were completely resistant to all three antibiotics when newly adhered biofilms were analyzed, whereas <i>M. bovis</i><i> </i>Madison gave variable results. For mature biofilms that were cultured for 4- 5 days before antibiotic exposure, results also were variable, with some strains showing an increased resistance with certain antibiotics and a decreased resistance with others. Overall, these results are consistent with earlier reports that biofilms can exhibit increased antimicrobial resistance.</p>