Biodegradation of poly(ester‐urethane) coatings by Halopseudomonas formosensis

Impranil® DLN‐SD is a poly(ester‐urethane) (PEU) that is widely used as coating material for textiles to fine‐tune and improve their properties. Since coatings increase the complexity of such plastic materials, they can pose a hindrance for sustainable end‐of‐life solutions of plastics using enzymes or microorganisms. In this study, we isolated Halopseudomonas formosensis FZJ due to its ability to grow on Impranil DLN‐SD and other PEUs as sole carbon sources. The isolated strain was exceptionally thermotolerant as it could degrade Impranil DLN‐SD at up to 50°C. We identified several putative extracellular hydrolases of which the polyester hydrolase Hfor_PE‐H showed substrate degradation of Impranil DLN‐SD and thus was purified and characterized in detail. Hfor_PE‐H showed moderate temperature stability (Tm = 53.9°C) and exhibited activity towards Impranil DLN‐SD as well as polyethylene terephthalate. Moreover, we revealed the enzymatic release of monomers from Impranil DLN‐SD by Hfor_PE‐H using GC‐ToF‐MS and could decipher the associated metabolic pathways in H. formosensis FZJ. Overall, this study provides detailed insights into the microbial and enzymatic degradation of PEU coatings, thereby deepening our understanding of microbial coating degradation in both contained and natural environments. Moreover, the study highlights the relevance of the genus Halopseudomonas and especially the novel isolate and its enzymes for future bio‐upcycling processes of coated plastic materials. Halopseudomonas formosensis FZJ was isolated from a compost heap due to its ability to metabolize poly(ester‐urethane) coatings as sole carbon source. Enzymes for polymer degradation were characterized in detail and the metabolic routes for Impranil DLN‐SD were revealed.