Phenyllactic acid (PLA), a natural antimicrobial metabolite produced by lactic acid bacteria (LAB), has emerged as a key compound for biopreservation in food systems. The aims of this review are to summarize the main findings on LAB-producing strains, the effects of primary PLA precursors, the impacts of culture conditions on PLA production, antimicrobial activity, mechanisms of action, quantification and analysis methods, food applications, regulatory status, and the challenges in PLA production and applications. In this review, the quorum sensing role in PLA production and multi-omics strain improvement was revised. Applications in dairy, bakery, fruits, vegetables, meat, and fish products as well as active packaging are analyzed, demonstrating their effectiveness in controlling microbial spoilage and pathogens while preserving sensory quality. Its broad-spectrum antifungal and antibacterial activities make it particularly attractive as a clean-label alternative to synthetic preservatives, contributing to both food safety and extended shelf life. Finally, current limitations and future research needs are outlined, particularly in optimizing PLA production and establishing its role as a sustainable and effective tool for food safety management.
Mani-López et al. (Thu,) studied this question.