Antimicrobial activity of solithromycin against clinical isolates of Legionella pneumophila serogroup 1.

[legionellosis]

The activity of solithromycin was evaluated against clinical Legionella pneumophila serogroup 1 (Lp 1 ) isolates (n = 196 ) collected in Ontario , Canada , from 1980 to 2011 . Its in vitro activity was compared to that of azithromycin (AZM ) using the broth microdilution method . Solithromycin had a MIC 50 of ≤0 .015 μg /ml and a MIC 90 of 0 .031 μg /ml , making its activity at least 8 -fold to 32 -fold higher than that of AZM (MIC 50 and MIC 90 , 0 .125 μg /ml and 1 μg /ml , respectively ). Ninety -nine percent of the isolates had MICs for solithromycin ranging from ≤0 .015 μg /ml to 0 .031 μg /ml , whereas 83 .6 % of the isolates showed MICs for AZM ranging from 0 .062 μg /ml to 0 .25 μg /ml . Interestingly , 96 .7 % (30 out of 31 clinical isolates ) identified with higher AZM MICs (0 .5 μg /ml to 2 μg /ml ) belonged to the clinically prevalent sequence type 1 . To investigate the intracellular activity of solithromycin , in vitro invasion assays were also performed against a subset of representative Lp 1 isolates internalized within human lung epithelial cells . Solithromycin and AZM both inhibited growth of all intracellular Lp 1 isolates at 1 × or 8 × MICs , displaying bacteriostatic effects , as would be expected with protein synthesis inhibitor rather than bactericidal activity . Solithromycin demonstrated the highest in vitro and intracellular potency against all Lp 1 isolates compared to AZM . Given the rapid spread of resistance mechanisms among respiratory pathogens and the reported treatment failures in legionellosis , the development of this new fluoroketolide , already in phase 3 oral clinical studies , constitutes a promising alternative option for the treatment of legionellosis .