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Assessment of Biological Activity of Water-Soluble Polysaccharides Isolated From Cultivated Pleurotus pulmonarius and Pleurotus citrinopileatus
Anti-proliferative and antioxidant activities of Pleurotus pulmonarius and P. citrinopileatus water-soluble polysaccharides were examined using human colon adenocarcinoma (HT-29) and human normal colonic epithelial (CCD841 CoTr) cell lines in vitro. Polysaccharides were prepared by cold and hot water extraction methods and chemically characterized. The monosaccharide analysis showed that all the preparations contained hexoses: mannose, glucose, galactose, and 3-O-methyl-hexose (identified as 3-O-methyl-galactose) as well as trace amounts of pentose identified as arabinose. Linkage analysis, on the other hand, revealed a wide variety of monosaccharide linking bonds in the polysaccharides studied, depending on the polymer source and the method of isolation. Both fungal polysaccharide preparations with increasing concentrations showed lower DPPH free radical reducing activity. The degree of reduction depended on the origin of the compounds and the method of their preparation. Stimulation of nitric oxide (NOx) production by the tested cells was observed after their incubation with the polysaccharides. The tested compounds at lower concentrations (up to 500 μg/mL) did not significantly influence the metabolic activity of the tumor and normal cells after 24 h of incubation. The viability of the tumor and normal cells was limited after the impact of the polysaccharides in the concentration range of 25 – 1000 μg/mL. The hot and cold water isolated polysaccharides did not induce changes in the normal and tumor cell cytoskeleton organization. The paper presents newly prepared and characterized hot and cold isolated water-soluble polysaccharides with promising pro-health potential against tumor and normal human colon epithelium cells.
Exploring the Potential of Fungal Biomass for Bisphenol A Removal in Aquatic Environments
Bisphenol A is a plastic component, which shows endocrine activity that is detrimental to humans and aquatic ecosystems. The elimination of BPA from the environment is one of the solutions for BPA contaminant management. Adsorption is a cost-effective, easy-to-use method generating low harmful byproducts; nevertheless, contaminant sorbent treatment is a challenge that still needs to be addressed. Fungal fruiting bodies biomass is rarely studied sorbent but is promising due to its high polysaccharide content and availability. Our preliminary studies showed BPA sorption (100 mg/L) by 50 cultivated and wild fungi. The cultivated species: Clitocybe maxima (82%), Pholiota nameko (77%), and Pleurotus columbinus (74%), and wild fungi Cantharellus cibarius (75%) and Lactarius deliciosus (72%) were the most efficient. The biomass was able to sorb BPA over a broad range of temperature and pH levels, with an optimum at 20 °C and pH 7. Although saturation of sorbents was rapid, the regeneration process using ethanol was effective and allowed to recover up to 75% of sorbents’ initial efficiency. A single use of 1 g of sorbent would allow the treatment of 8.86 to 10.1 m3 of wastewater effluent, 16.5 to 18.7 m3 of surface water, and 411 to 469 m3 of drinking water, assuming the concentrations of BPA reported in the literature.