One-step degradation of 4 classes of β-lactam using β-lactamase enzyme cocktail.
Jiafu Lin, Tiantian Wang, Yaliang Zhou, Tao Cheng, Haisha Liu, Xueke Chen, Wan Luo, Qiyue Liu, Yiwen Chu, Xinrong Wang, Feng Xie, Jingzhou Sha, Tao Song
Abstract
Open AccessAntibiotics, particularly β-lactams, are emerging environmental contaminants that induce antibiotic-resistant bacteria or genes, which threaten public health. Enzymatic degradation is an environmentally friendly approach to reducing residual antibiotics; however, its application is limited by enzyme's narrow substrate spectrum, which cannot deal with the co-occurrence of multiple β-lactam classes in the environment. To address this issue, four representative β-lactamases were biochemically characterized and two of them (CTX-33 to VIM-1) were selected because of their broader substrate spectrum and better stability. Compared to a single enzyme that can only degrade the ring structure of three classes of β-lactam antibiotics at most, the enzyme cocktail (with a ratio of CTX-33 to VIM-1 of 4:1) was able to hydrolyze nineteen antibiotics from four different β-lactam families. In laboratory experiments, the enzyme cocktail demonstrated degradation efficiencies of over 99% for the four classes of β-lactams (penicillin, cephalosporin, carbapenem, and monobactam) within the concentration range of 1 to 100 mg/L, both individually and simultaneously. Moreover, when applied to pharmaceutical industry wastewater, pig farm wastewater, and river water, over 99% simultaneous degradation of β-lactams was observed at 1 mg/L within 60 min and at 100 mg/L within 5 h. This is the first report of an enzymatic method capable of simultaneously removing antibiotics from four β-lactam classes. This study offers a novel and eco-friendly approach to β-lactam degradation.