The conversion of municipal wastes process enhances the environmentally friendly and novel PFE-AgNPs into potential anti-bacterial and anticancer activities.

The development of mushrooms may be hampered by municipal (MW) and garden wastes (GW) containing spent mushroom substrates (SMS) with high cellulose and lignin contents. In comparison to controls, Pleurotus flabellatus growth patterns were generally enhanced by SMS and/or GM treatments. Inductively coupled plasma-optical emission spectrometry (ICP-OES) and gas chromatography-mass spectrometry (GC-MS) were performed to characterize and identify 30 metabolites from P. flabellatus ethanolic extract. The synthesis of bioactive silver nanoparticles (PFE-AgNPs) from P. flabellatus was characterized using different instrumental methods. Spectral analysis revealed that biogenic PFE-AgNPs were spherically shaped and well-dispersed nanostructures with typical particle sizes ranging from 5 to 20 nm. Selective bacterial strains (25–100 μg/ml) were inhibited by PFE-AgNPs. The IC50 values for the antioxidant activity of facile PFE-AgNPs against DPPH and NOD were substantial (56.62 and 53.93 μg/ml). Furthermore, the anticancer effects of PFE-AgNPs at 10–100 μg/ml were tested on A549 cells after 24 and 48 h of exposure. The DNA damage assay revealed that A549 had more tail creation than the non-cancerous cell line. As a result, our study shows that PFE-AgNPs can be used to manage bacterial illnesses as well as lung cancer. The results indicated similar biological composition, and there is no aggregation of unwanted toxic and biological components that could be drawn from the waste-formulated substrate, ensuring that it is safe to use for sustainable mushroom growth. Additionally, the new and ecologically friendly PFE-AgNPs are enhanced by a technique that transforms municipal wastes into compounds with potential anti-bacterial and anti-cancer properties. [ABSTRACT FROM AUTHOR]