AUTHOR=Huang Zilong , Wu Yuzhi , Zhou Zichong , Xia Xirui , Gu Xiaoyan , Cai Qinren , Shen Xiangguang , Yang Hong , Ding Huanzhong 

TITLE=Pharmacokinetic and Pharmacodynamic Integration and Resistance Analysis of Tilmicosin Against Mycoplasma gallisepticum in an In Vitro Dynamic Model

JOURNAL=Frontiers in Pharmacology

VOLUME=10

YEAR=2019

URL=https://www.frontiersin.org/journals/pharmacology/articles/10.3389/fphar.2019.00670

DOI=10.3389/fphar.2019.00670

ISSN=1663-9812

ABSTRACT=<p><italic>Mycoplasma gallisepticum</italic> is the major pathogen causing chronic respiratory disease in chickens. In the present study, we successfully established a one-compartment open model with first-order absorption to determine the relationship between tilmicosin pharmacokinetic and pharmacodynamic (PK/PD) indices and <italic>M. gallisepticum</italic> in <italic>in vitro</italic>. The aim was to simulate the PK/PD of tilmicosin against <italic>M. gallisepticum</italic> in lung tissues. The results of static time-killing curves at constant drug concentrations [0–64 minimum inhibitory concentration (MIC)] showed that the amount of <italic>M. gallisepticum</italic> was reduced to the limit of detection after 36 h when the drug concentration exceeded 1 MIC, with a maximum kill rate of 0.53 h<sup>-1</sup>. In dynamic time-killing studies, tilmicosin produced a maximum antimycoplasmal effect of 6.38 Log<sub>10</sub> CFU/ml reduction over 120 h. The area under the concentration–time curve over 24 h divided by the MIC (AUC<sub>24h</sub>/MIC) was the best PK/PD parameter to predict the antimicrobial activity of tilmicosin against <italic>M. gallisepticum</italic> [R<sup>2</sup> = 0.87, compared with 0.49 for the cumulative time that the concentration exceeds the MIC (%T &gt; MIC)]. Therefore, tilmicosin showed concentration-dependent activity. Seven <italic>M. gallisepticum</italic> strains (M1–M7) with decreased susceptibility to tilmicosin were isolated from seven dose groups. These strains of <italic>M. gallisepticum</italic> had acquired resistance to erythromycin as well as to tylosin. However, no change in susceptibility to amikacin and doxycycline was observed in these strains. Gene mutation analysis was performed on the basis of annotated single nucleotide polymorphisms using the genome of strain S6 as the reference. For strain M5, a G495T mutation occurred in domain II of the 23S <italic>rrnA</italic> gene. In strain M3, resistance was associated with a T854A mutation in domain II of the 23S <italic>rrnB</italic> gene and a G2799A mutation in domain V of 23S <italic>rrnB</italic>. To the best of our knowledge, these tilmicosin resistance-associated mutations in <italic>M. gallisepticum</italic> have not been reported. In conclusion, tilmicosin shows excellent effectiveness and concentration-dependent characteristics against <italic>M. gallisepticum</italic> strain S6 <italic>in vitro</italic>. Additionally, these results will be used to provide a reference to design the optimal dosage regimen for tilmicosin in <italic>M. gallisepticum</italic> infection and to minimize the emergence of resistant bacteria.</p>