期刊
ACS INFECTIOUS DISEASES
卷 9, 期 4, 页码 916-927出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsinfecdis.2c00579
关键词
drug delivery; ampicillin; gentamicin; peptidomimetics; arginine; antibiofilm
A multifunctional antibiotic-polymer conjugate, called PAA-AG, has been developed to simultaneously target ampicillin and gentamicin for persistent biofilm infections. The PAA-AG conjugate showed excellent biocompatibility and mucoadhesive characteristics, making it suitable for local treatments. It exhibited broad-spectrum antibacterial efficacy and excellent antibiofilm activity, inhibiting the growth of various strains and inducing the regression of mature biofilms. The PAA-AG conjugate could be a valuable tool to enhance the success of ampicillin/ gentamicin-based antibiotic therapy.
Combined therapy with penicillins and aminoglycosides has been proved beneficial to address many persistent bacterial infections with possible synergistic effects. However, the different pharmacokinetic profiles of these two antibiotic classes may not guarantee a concerted spatio-temporal delivery at the site of action, decreasing the efficacy of this combination and promoting resistance. Herein, we propose a multifunctional antibiotic-polymer conjugate, designed to colocalize ampicillin and gentamicin to tackle persistent biofilm infections. The two antibacterial molecules were grafted along with the amino acid L-arginine to a biocompatible polymer backbone with peptidomimetic hydrophilic structure, obtaining the antimicrobial poly-(argilylaspartamide-co-aspartic) acid-ampicillin, gentamicin (PAA-AG) conjugate. The PAA-AG conjugate displayed excellent biocompatibility on human cell lines if compared with free drugs, potentially enlarging their therapeutic window and safety, and suitable mucoadhesive characteristics which may help local treatments of mucosal infections. Studies on planktonic cultures of clinical and reference strains of S. aureus , P. aeruginosa , and E. coli revealed that PAA-AG holds a broad-spectrum antibacterial efficacy, revealing high potency in inhibiting the growth of the tested strains. More interestingly, PAA-AG exhibited excellent antibiofilm activity on both Gram+ and Gram- communities, showing inhibition of their formation at subMIC concentrations as well as inducing the regression of mature biofilms. Given the high biocompatibility and broad antibiofilm efficacy, combined with the opportunity for synchronous co-delivery, the PAA-AG conjugate could be a valuable tool to increase the success of ampicillin/ gentamicin-based antibiotic multitherapy.
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