Antibacterial Activity of Epigallocatechin-3-gallate (EGCG) and Its Synergism with β-lactam Antibiotics Sensitizing Carbapenem-associated Multidrug Resistant Clinical Isolates of Acinetobacter Baumannii
Overview
Affiliations
Background: Infections caused by Acinetobacter baumannii were responsive to conventional antibiotic therapy. However, recently, carbapenem-associated multidrug resistant isolates have been reported worldwide and present a major therapeutic challenge. Epigallocatechin-3-Gallate (EGCG) extracted from green tea exhibits antibacterial activity.
Purpose: We evaluated the antibacterial activity of EGCG and possible synergism with antibiotics in carbapenem-associated multidrug resistant A. baumannii. A potential mechanism for synergism was also explored.
Materials And Methods: Seventy clinical isolates of A. baumannii collected from geographically different areas were analyzed by minimal inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of EGCG. Checkerboard and time-killing assays were performed to exam the synergism between EGCG and antibiotics. The effects of EGCG on a multidrug efflux pump inhibitor (1-[1-naphthylmethyl] piperazine; NMP) and β-lactamase production were also examined in A. baumannii.
Results: Sixty-three of 70 clinical isolates of A. baumannii carried carbapenemase-encoding genes with carbapenem-associated multidrug resistance. Levels of MIC and MBC of EGCG ranged from 64 to 512µg/ml and from 128 to ≥1024µg/ml, respectively among the clinical isolates. MIC and MBC levels were 256µg/ml and 512µg/ml of EGCG, respectively. Subinhibitory concentration of EGCG in combination with all antibiotics tested, including carbapenem, sensitized (MICs fall≤1.0µg/ml) all carbapenem-associated multidrug resistant isolates. Checkerboard and time-killing assays showed synergism between EGCG and meropenem (or carbenicillin) counted as fractional inhibitory concentration of < 0.5 and cell numbers' decrease per ml of >2log10 within 12h, respectively. EGCG significantly increased the effect of NMP but was unrelated to β-lactamase production in A. baumannii, suggesting EGCG may be associated with inhibition of efflux pumps.
Conclusion: Overall we suggest that EGCG-antibiotic combinations might provide an alternative approach to treat infections with A. baumannii regardless of antibiotic resistance.
Yarmolinsky L, Nakonechny F, Haddis T, Khalfin B, Dahan A, Ben-Shabat S Molecules. 2025; 29(24.
PMID: 39769919 PMC: 11728848. DOI: 10.3390/molecules29245830.
Kiddee A, Yosboonruang A, Siriphap A, Pook-In G, Suwancharoen C, Duangjai A Antibiotics (Basel). 2025; 13(12.
PMID: 39766601 PMC: 11672589. DOI: 10.3390/antibiotics13121211.
Amrutha M, Wessler S, Ponnuraj K Mol Divers. 2024; .
PMID: 39604603 DOI: 10.1007/s11030-024-11050-0.
Sharma A, Anurag , Kaur J, Kesharwani A, Parihar V Med Chem. 2024; 20(6):576-596.
PMID: 38584534 DOI: 10.2174/0115734064277579240328142639.
Nanjan P, Bose V Curr Drug Res Rev. 2024; 16(3):349-368.
PMID: 38288795 DOI: 10.2174/0125899775271214240112071830.