High-Efficiency Degradation of PET Plastics by Glutathione S-Transferase under Mild Conditions.
Xiu HuangYong LiZhao ShuLi HuangQian LiuGui-Bin JiangPublished in: Environmental science & technology (2024)
Plastic pollution is a significant environmental concern globally. Plastics are normally considered chemically inert and resistant to biodegradation. Although many papers have reported enzyme-induced biodegradation of plastics, these studies are primarily limited to enzymes of microbial origin or engineered enzymes. This study reveals that poly(ethylene terephthalate) (PET, ∼6000 Da and 100 kDa) particles and plastic bottle debris (PBD, 24.9 kDa) can be efficiently degraded by a mammal-origin natural phase II metabolic isozyme, glutathione S-transferase (GST), under mild conditions. The degradation efficiency of PET plastics reached 98.9%, with a degradation rate of 2.6 g·L -1 ·h -1 under ambient or physiological conditions at 1 atm. PET plastics can be degraded by GST with varying environmental or biological factors (i.e., temperature, light irradiation, pH, and presence of humic acid or protein). We suggest a novel mechanism for PET degradation other than hydrolysis, i.e., the mechanism of cleavage and release of PET plastic monomers via nitridation and oxidation. This finding also reveals a novel function of GST, previously thought to only degrade small molecules (<1000 Da). This method has been successfully applied in real human serum samples. Additionally, we have tested and confirmed the ability to degrade PET of a mammal-origin natural digestive enzyme (trypsin) and a human-derived natural metabolic enzyme (CYP450). Overall, our findings provide a potential new route to plastic pollution control and contribute to our understanding of the metabolism and fate of plastics in organisms.
Keyphrases
- pet ct
- positron emission tomography
- computed tomography
- pet imaging
- human health
- phase ii
- particulate matter
- high efficiency
- clinical trial
- heavy metals
- randomized controlled trial
- air pollution
- nitric oxide
- drug induced
- radiation therapy
- heat shock protein
- transcription factor
- amino acid
- water quality
- binding protein
- double blind
- electron transfer
- case control
- placebo controlled