Litcius/Paper detail

A prescription for engineering PFAS biodegradation

Lawrence P. Wackett, Serina L. Robinson

2024Biochemical Journal27 citationsDOIOpen Access PDF

Abstract

Per- and polyfluorinated chemicals (PFAS) are of rising concern due to environmental persistence and emerging evidence of health risks to humans. Environmental persistence is largely attributed to a failure of microbes to degrade PFAS. PFAS recalcitrance has been proposed to result from chemistry, specifically C-F bond strength, or biology, largely negative selection from fluoride toxicity. Given natural evolution has many hurdles, this review advocates for a strategy of laboratory engineering and evolution. Enzymes identified to participate in defluorination reactions have been discovered in all Enzyme Commission classes, providing a palette for metabolic engineering. In vivo PFAS biodegradation will require multiple types of reactions and powerful fluoride mitigation mechanisms to act in concert. The necessary steps are to: (1) engineer bacteria that survive very high, unnatural levels of fluoride, (2) design, evolve, and screen for enzymes that cleave C-F bonds in a broader array of substrates, and (3) create overall physiological conditions that make for positive selective pressure with PFAS substrates.

Topics & Concepts

BiodegradationMedical prescriptionEnvironmental chemistryChemistryEnvironmental scienceMicrobiologyPharmacologyMedicineBiologyOrganic chemistryPer- and polyfluoroalkyl substances researchAnalytical chemistry methods developmentChemical Analysis and Environmental Impact