Inhibition of RND-mediated efflux attenuates antibiotic resistance and virulence in hypervirulent Klebsiella pneumoniae
Mia E. Van Allen, Yuding Weng, X. Renee Bina, James E. Bina

TL;DR
This study shows that inhibiting RND efflux systems in a hypervirulent strain of Klebsiella pneumoniae reduces antibiotic resistance and virulence.
Contribution
The study demonstrates that RND efflux inhibitors can simultaneously combat antibiotic resistance and reduce virulence in hypervirulent Klebsiella pneumoniae.
Findings
PAβN treatment increased antibiotic susceptibility and reduced virulence factor production in KPPR1.
PAβN reduced capsule biosynthesis and impaired iron acquisition in KPPR1.
PAβN decreased pathogenicity in an infection model and adherence to intestinal cells.
Abstract
Klebsiella pneumoniae (Kp) is a major human pathogen causing hospital-acquired and community-acquired infections with emerging hypervirulent strains (hvKp) posing a significant threat due to its ability to cause severe invasive infections in healthy individuals. In addition to antimicrobial resistance, virulence factors including capsule production, biofilm formation, and iron acquisition systems are critical for hvKp pathogenesis. In this study, we investigated how resistance-nodulation-division (RND)-family efflux systems contribute to antimicrobial resistance and virulence in hvKp strain KPPR1 using the RND-specific inhibitor phenyl-arginine β-naphthylamide (PAβN). We found that PAβN treatment rendered KPPR1 more susceptible to multiple antibiotics while simultaneously attenuating virulence factor production. PAβN significantly reduced capsule biosynthetic gene expression, resulting…
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Taxonomy
TopicsAntibiotic Resistance in Bacteria · Pneumonia and Respiratory Infections · Enterobacteriaceae and Cronobacter Research
