莫西沙星和加替沙星对莱茵衣藻的毒性、生物降解及其代谢途径。

Toxicity, biodegradation of moxifloxacin and gatifloxacin on Chlamydomonas reinhardtii and their metabolic fate.

机构信息

Hubei Key Laboratory of Ecological Restoration of Rivers-lakes and Algae Utilization, School of Civil Engineering, Architecture and Environment, Hubei University of Technology, Wuhan 430068, China; Hubei Biomass-Resource Chemistry and Environmental Biotechnology Key Laboratory, School of Resource and Environmental Science, Wuhan University, Wuhan 430079, China.

Hubei Biomass-Resource Chemistry and Environmental Biotechnology Key Laboratory, School of Resource and Environmental Science, Wuhan University, Wuhan 430079, China; School of Chemical and Environmental Engineering, Wuhan Polytechnic University, Wuhan 430023, China.

出版信息

Ecotoxicol Environ Saf. 2022 Jul 15;240:113711. doi: 10.1016/j.ecoenv.2022.113711. Epub 2022 May 30.

DOI:10.1016/j.ecoenv.2022.113711

PMID:35653971

Abstract

The novel fourth-generation fluoroquinolones (FQs) were developed to improve the antimicrobial activity and their utilization has rapidly increased in recent years. However, knowledge of the ecotoxicity and microalgae-mediated biodegradation of these novel FQs is limited. In this research, the toxic effects of moxifloxacin (MOX) and gatifloxacin (GAT) on Chlamydomonas reinhardtii as well as their biodegradation and metabolic fate were investigated. The results showed that the toxicity of MOX to C. reinhardtii was higher than that of GAT, and increased with culture time. Chlorophyll fluorescence and pigment content analyses suggested that the decrease in photosynthetic efficiency was primarily caused by the inhibition of electron transport after Q in PSII complex. These FQs induced oxidative damage in cells, and the antioxidation mechanisms of C. reinhardtii were analyzed. The maximum MOX removal of 77.67% by C. reinhardtii was achieved at 1 mg/L MOX, whereas the maximum GAT removal of 34.04% was attained at 20 mg/L GAT. The different hydrophilicity and lipophilicity of these FQs resulted in distinct findings in biodegradation experiments. Identification of the transformation products suggested that the likely biodegradation pathways of FQs by C. reinhardtii were hydroxylation, demethylation, and ring cleavage.

摘要

新型第四代氟喹诺酮类（FQs）的开发旨在提高抗菌活性，近年来其利用率迅速增加。然而，这些新型 FQs 的生态毒性和微藻介导的生物降解知识有限。在这项研究中，研究了莫西沙星（MOX）和加替沙星（GAT）对莱茵衣藻的毒性作用及其生物降解和代谢途径。结果表明，MOX 对 C. reinhardtii 的毒性高于 GAT，且随培养时间的延长而增加。叶绿素荧光和色素含量分析表明，光合作用效率的降低主要是由于 PSII 复合物中 Q 后电子传递的抑制所致。这些 FQs 诱导细胞氧化损伤，并分析了 C. reinhardtii 的抗氧化机制。在 1mg/L MOX 下，C. reinhardtii 对 MOX 的最大去除率为 77.67%，而在 20mg/L GAT 下，GAT 的最大去除率为 34.04%。这些 FQs 的不同亲水性和疏水性导致生物降解实验中出现明显不同的结果。转化产物的鉴定表明，C. reinhardtii 可能的 FQs 生物降解途径为羟化、去甲基化和环裂解。

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莫西沙星和加替沙星对莱茵衣藻的毒性、生物降解及其代谢途径。

Toxicity, biodegradation of moxifloxacin and gatifloxacin on Chlamydomonas reinhardtii and their metabolic fate.

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