Comparison of Single and Combined Use of Catechin, Protocatechuic, and Vanillic Acids as Antioxidant and Antibacterial Agents against Uropathogenic Escherichia Coli at Planktonic and Biofilm Levels.

Ariadna Bernal-Mercado,Melvin Tapia-Rodriguez,Jesus Ayala-Zavala,Alonso Lopez-Zavala,Gustavo Gonzalez-Aguilar,Maria Islas-Osuna,Veronica Mata-Haro,Francisco Vazquez-Armenta

doi:10.3390/molecules23112813

Ariadna Bernal-Mercado, Melvin Tapia-Rodriguez + Show 6 more

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https://doi.org/10.3390/molecules23112813

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Abstract

The objective of this study was to evaluate the effect of combining catechin, protocatechuic, and vanillic acids against planktonic growing, adhesion, and biofilm eradication of uropathogenic Escherichia coli (UPEC), as well as antioxidant agents. The minimum inhibitory concentrations (MIC) of protocatechuic, vanillic acids and catechin against the growth of planktonic bacteria were 12.98, 11.80, and 13.78 mM, respectively. Mixing 1.62 mM protocatechuic acid + 0.74 mM vanillic acid + 0.05 mM catechin resulted in a synergistic effect acting as an MIC. Similarly, the minimum concentrations of phenolic compounds to prevent UPEC adhesion and biofilm formation (MBIC) were 11.03 and 7.13 mM of protocatechuic and vanillic acids, respectively, whereas no MBIC of catechin was found. However, combinations of 1.62 mM protocatechuic acid + 0.74 mM vanillic acid + 0.05 mM catechin showed a synergistic effect acting as MBIC. On the other hand, the minimum concentrations to eradicate biofilms (MBEC) were 25.95 and 23.78 mM, respectively. The combination of 3.20 mM protocatechuic acid, 2.97 mM vanillic acid, and 1.72 mM catechin eradicated pre-formed biofilms. The antioxidant capacity of the combination of phenolics was higher than the expected theoretical values, indicating synergism by the DPPH•, ABTS, and FRAP assays. Effective concentrations of catechin, protocatechuic, and vanillic acids were reduced from 8 to 1378 times when combined. In contrast, the antibiotic nitrofurantoin was not effective in eradicating biofilms from silicone surfaces. In conclusion, the mixture of phenolic compounds was more effective in preventing cell adhesion and eradicating pre-formed biofilms of uropathogenic E. coli than single compounds and nitrofurantoin, and showed antioxidant synergy.

Highlights

Catheter-associated urinary tract infection (CA-UTI) is commonly acquired in hospitals around the world [1]. This infection is caused by uropathogenic E. coli (UPEC) due to its capacity to adhere to catheters
UPEC biofilms on catheters include communities of microorganisms adhered to a silicon surface, embedded in an extracellular polymeric substances matrix, and with altered metabolism compared to the corresponding planktonic cells [4]
No previous studies have reported the antibacterial effect of these phenolic acids and catechin against UPEC; similar minimum inhibitory concentration (MIC) have been reported for these individual phenolic acids against other bacteria [15,20]

Summary

Introduction

Catheter-associated urinary tract infection (CA-UTI) is commonly acquired in hospitals around the world [1]. This infection is caused by uropathogenic E. coli (UPEC) due to its capacity to adhere to catheters. UPEC biofilms on catheters include communities of microorganisms adhered to a silicon surface, embedded in an extracellular polymeric substances matrix, and with altered metabolism compared to the corresponding planktonic cells [4]. The biofilm-secreted polymeric substances protect the embedded cells against antibiotics, evade the host immune defense, and promote persistence in the environment, causing recurrent infections [4]. The treatment of UTI is a significant challenge, considering bacterial evolution against conventional treatments, mainly when resistance at the planktonic cellular level and community level occur; besides, the oxidative complications involved with this infection [6]

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