Cefadroxil photodegradation processes sensitized by natural pigments: mechanistic aspects and impact on the antimicrobial function.

IF 2.7 3区 化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Photochemical & Photobiological Sciences Pub Date : 2024-10-01 Epub Date: 2024-09-27 DOI:10.1007/s43630-024-00633-3
Andrea Sofía Urquiza, Agustina Reynoso, Macarena Agostina Biondi, Mariana Belén Spesia, María Alicia Biasutti, Hernán Alfredo Montejano, Eugenia Reynoso
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Abstract

Cefadroxil is a widely used antibiotic with a low elimination efficiency in wastewater treatments plants, so it represents a contaminants of emerging concern that should be removed. The photosensitization process that involves natural pigments and visible sunlight can be offered as an environmentally friendly alternative to be considered for Cefadroxil degradation. In this investigation, we carried out a mechanistic and kinetic approach to Cefadroxil photodegradation sensitized by Riboflavin and Humic Acid, in individual and combined processes. Our experiments indicate that Cefadroxil is able to interact with the excited states of Riboflavin as well as with the photogenerated reactive oxygen species, with an important contribution of singlet oxygen. The antibiotic was less sensitive to the photodegradation in the presence of Humic Acids and in the mixture of Riboflavin and Humic Acids. Self-sensitization processes and internal filter effects are proposed as possible explanations for the observed phenomenon. The reaction between Cefadroxil and singlet oxygen showed a dependence with the pH of the medium, the photodegradation kinetic constants are greater at alkaline pH compared to neutral pH. The reaction is favored when the anionic species of the antibiotic is present. Microbiological tests on S. aureus indicated that the antibiotic reduce its antimicrobial activity as a consequence of the photooxidative process mediated by singlet oxygen. We believe that the results are relevant since, the sensitized photodegradation process could lead to the oxidation of Cefadroxil and to the progressive loss of its antimicrobial function, this fact could contribute to the decrease in the generation of bacterial multi-resistance to antibiotics in the environment.

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天然色素敏化的头孢羟氨苄光降解过程:机理及其对抗菌功能的影响。
头孢羟氨苄是一种广泛使用的抗生素,在污水处理厂中的去除效率很低,因此是一种新出现的需要去除的污染物。涉及天然色素和可见光的光敏化过程可作为头孢羟氨苄降解的一种环境友好型替代方法。在这项研究中,我们对核黄素和腐植酸在单独和组合过程中敏化头孢羟氨苄的光降解进行了机理和动力学研究。我们的实验表明,头孢羟氨苄能够与核黄素的激发态以及光生成的活性氧相互作用,其中单线态氧的作用非常重要。在腐植酸存在以及核黄素和腐植酸混合物中,抗生素对光降解的敏感性较低。对于观察到的现象,有人提出了自我敏化过程和内部过滤效应的可能解释。头孢羟氨苄和单线态氧之间的反应与介质的 pH 值有关,与中性 pH 值相比,碱性 pH 值下的光降解动力学常数更大。当抗生素的阴离子种类存在时,反应会更有利。对金黄色葡萄球菌进行的微生物学测试表明,单线态氧介导的光氧化过程会降低抗生素的抗菌活性。我们认为这些结果是有意义的,因为敏化光降解过程可能会导致头孢羟氨苄被氧化,并逐渐丧失其抗菌功能,这一事实可能有助于减少环境中细菌对抗生素的多重抗药性的产生。
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来源期刊
Photochemical & Photobiological Sciences
Photochemical & Photobiological Sciences 生物-生化与分子生物学
CiteScore
5.60
自引率
6.50%
发文量
201
审稿时长
2.3 months
期刊介绍: A society-owned journal publishing high quality research on all aspects of photochemistry and photobiology.
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