Litcius/Paper detail

Toward the development of a molecular toolkit for the microbial remediation of per-and polyfluoroalkyl substances

Miao Hu, Colin Scott

2024Applied and Environmental Microbiology49 citationsDOIOpen Access PDF

Abstract

Per- and polyfluoroalkyl substances (PFAS) are highly fluorinated synthetic organic compounds that have been used extensively in various industries owing to their unique properties. The PFAS family encompasses diverse classes, with only a fraction being commercially relevant. These substances are found in the environment, including in water sources, soil, and wildlife, leading to human exposure and fueling concerns about potential human health impacts. Although PFAS degradation is challenging, biodegradation offers a promising, eco-friendly solution. Biodegradation has been effective for a variety of organic contaminants but is yet to be successful for PFAS due to a paucity of identified microbial species capable of transforming these compounds. Recent studies have investigated PFAS biotransformation and fluoride release; however, the number of specific microorganisms and enzymes with demonstrable activity with PFAS remains limited. This review discusses enzymes that could be used in PFAS metabolism, including haloacid dehalogenases, reductive dehalogenases, cytochromes P450, alkane and butane monooxygenases, peroxidases, laccases, desulfonases, and the mechanisms of microbial resistance to intracellular fluoride. Finally, we emphasize the potential of enzyme and microbial engineering to advance PFAS degradation strategies and provide insights for future research in this field.

Topics & Concepts

BiodegradationEnvironmental chemistryBiotransformationLaccaseBioremediationEnvironmental remediationMicroorganismChemistryMicrobial biodegradationHuman healthContaminationBiologyEnzymeBacteriaEcologyOrganic chemistryEnvironmental healthMedicineGeneticsPer- and polyfluoroalkyl substances researchChemical Analysis and Environmental ImpactToxic Organic Pollutants Impact