Search Results (40)

Pleurotus eryngii is an edible mushroom with previously characterized β-glucans. Its potential to ameliorate postprandial glycemia and regulate appetite at the postprandial state has been previously shown. However, its effect on protein digestion remains unexplored. We aimed to investigate the effect of baked P. eryngii with a known β-glucan content (4.5 g) on plasma free amino acids of patients with central obesity and metabolic abnormalities at a postprandial state. In this acute, randomized controlled cross-over study, thirteen healthy male volunteers consumed one meal that was prepared with P. eryngii and one control meal; each meal was separated by one month. Blood was collected, and plasma was isolated at different timepoints before and after the consumption. Gas chromatography–mass spectrometry was used to quantify 24 free amino acids in the plasma samples. The area under the curve with respect to increase (AUCi) was computed, and the AUCi for aromatic amino acids was found to be higher after the consumption of the control meal compared to the P. eryngii meal (p = 0.027 for phenylalanine, p = 0.008 for tyrosine, and p = 0.003 for tryptophan). The above novel findings suggest that the β-glucans present in P. eryngii mushrooms are potential modulators of AA release into the bloodstream. Full article

Olive Mill Solid Waste (OMSW) presents an environmental challenge due to its toxicity and difficulties in its recycling. Prior studies suggest its potential as a substrate ingredient for cultivating edible mushrooms. Here, we investigate how varying OMSW concentrations in the substrate affect the synthesis pathways of α-glucan and β-glucan polysaccharides, alongside transcriptional and metabolic changes in Pleurotus eryngii. We also assessed the mushroom’s protein and nitrogen content. Our results highlight the critical role of substrate composition, demonstrating that the OMSW concentration significantly influences mushroom growth, yield, protein content, gene expression, and metabolite profiles. These findings establish OMSW not only as a viable recycling resource but also as a modulator of health-promoting compound synthesis in P. eryngii. Full article

In the present investigation, an eco-friendly biocatalyst was developed using Pleurotus eryngii laccase (PeLac) through a copper (Cu)-based protein–inorganic hybrid system for the degradation of bisphenol A, a representative xenobiotic. After partial purification, the specific activity of crude PeLac was 92.6 U/mg of total protein. Immobilization of PeLac as Cu₃(PO₄)₂–Lac (Cu–PeLac) nanoflowers (NFs) at 4 °C resulted in a relative activity 333% higher than that of the free enzyme. The Cu–PeLac NFs exhibited greater pH and temperature stability and enhanced catalytic activity compared to free laccase. This enhanced activity was validated through improved electrochemical properties. After immobilization, Cu–PeLac NFs retained up to 8.7-fold higher residual activity after storage at 4 °C for 30 days. Free and immobilized laccase degraded bisphenol A by 41.6% and 99.8%, respectively, after 2 h of incubation at 30 °C. After ten cycles, Cu–PeLac NFs retained 91.2% degradation efficiency. In the presence of potent laccase inhibitors, Cu–PeLac NFs exhibited a 47.3-fold improvement in bisphenol A degradation compared to free PeLac. Additionally, the synthesized Cu–PeLac NFs demonstrated lower acute toxicity against Vibrio fischeri than Cu nanoparticles. This study presents the first report of PeLac immobilization through an eco-friendly protein–inorganic hybrid system, with promising potential for degrading bisphenol A in the presence of inhibitors to support sustainable development. Full article

Colon cancer is the second leading cause of cancer-related deaths in the world. This is commonly observed among older adults, and the occurrence of colon cancer is mainly influenced by unhealthy lifestyle factors. Edible medicinal mushrooms have been demonstrated to have anti-colon cancer effects both individually and in combination with conventional therapies, including synergistically enhancing the efficacy of chemotherapy medications such as 5-fluorouracil in preclinical models. Medicinal mushrooms such as Lentinus edodes, Phellinus linteus, Ganoderma lucidum, Inonotus obliquus, Pleurotus ostreatus, Hericium erinaceus, Pleurotus eryngii, Gloeostereum incarnatum, and Termitomyces heimii are emerging as promising candidates, not only because conventional treatments for colon cancer face significant limitations, including side effects, psychological impacts on patients, high cost, limited specificity toward cancer and healthy cells, and the development of drug resistance, but also due to the diverse array of bioactive compounds present within them. Therefore, there is a strong demand for innovative, affordable, and minimally invasive treatments such as medicinal mushrooms. Their bioactive compounds, including terpenoids, sterols, phenols, polysaccharides, acids, sesquiterpenes, alkaloids, lactones, metal-chelating agents, nucleotide analogs, glycoproteins, β-glucan, cerebrosides, steroids, terpenes, quinolones, anthraquinones, benzoic acid derivatives, linoleic acid, ascorbic acid, glycosides, organic acids, flavonoids, grifolin, tocopherols, proteins, indoles, lectin, and laccases, exert anti-colon cancer activities through various mechanisms, including anti-proliferative effects, cell cycle arrest, anti-inflammatory effects, antioxidant effects, induction of apoptosis, cytotoxic effects, and antimigratory effects. Further research is needed to elucidate the molecular mechanisms and confirm the safety and efficacy of medicinal mushrooms as a holistic anti-colon cancer treatment. Full article

Oyster mushrooms (Pleurotus spp.) are a nutrient-rich functional food, packed with protein, fiber, and bioactive compounds, offering a broad range of therapeutic qualities. This paper reports the findings in terms of crude protein, crude fiber, total polyphenols, total flavones, and some phenolic compounds along with the antimicrobial and antioxidant activities of some Pleurotus mushrooms extracts: P. eryngii, P. ostreatus, and P. columbinus. The integration of brewery-spent grains (BSG) into the nutrient media and culture substrate induced a major statistical increase (p < 0.05) for crude protein, total polyphenols, total flavones, and chlorogenic and caffeic acids as well as antioxidant activity. The lowest inhibition concentration IC₅₀ was recorded for P. ostreatus, followed by P. eryngii and P. columbinus. Among the strains, only P. ostreatus and P. columbinus exerted antimicrobial activity against two pathogens: Staphylococcus aureus and Streptococcus pyogenes. These results add and provide evidence of oyster mushrooms’ nutritional properties and possible positive effects on human health. Full article

The selection and breeding of high-quality wild edible fungal strains can bring significant economic and social benefits. A wild fungal strain (X21185) from the Tibetan Plateau was isolated and identified as a novel Pleurotus pulmonarius (P. pulmonarius) based on its morphological and molecular characteristics. The appropriate culture conditions for P. pulmonarius were determined. The nutrient contents of P. pulmonarius fruiting bodies were analyzed. Compared with the conventional nutritional contents of the representative edible fungi (Pleurotus ostreatu and Pleurotus eryngii) and egg, the protein, ash, and dietary fiber contents of P. pulmonarius were higher. Four types of essential amino acids, seven types of nonessential amino acids, the total essential and nonessential amino acids of P. pulmonarius were present in considerably higher quantities than those of representative edible fungi (Pleurotus ostreatus and Pleurotus citrinopileatus) and egg, respectively. P. pulmonarius polysaccharides (PPPs) had strong ABTS⁺, DPPH, and hydroxyl free radical scavenging activities (EC₅₀: 0.051, 3.322, and 2.87 mg/mL, respectively), and the cytotoxicity was higher against HepG2 hepatocellular carcinoma cells (IC₅₀: 1.501 mg/mL) than against MDA-MB-468 triple-negative breast cancer cells (IC₅₀: 2.183 mg/mL). This study provides a foundation for the development of the novel wild P. pulmonarius strain. Full article

Pleurotus eryngii is rich in essential proteins, and is recognized for its medicinal and nutritional attributes. This study investigated the effects of P. eryngii protein (PEP) incorporation (0–7%) on the gel characteristics of chicken myofibrillar protein (MP) to develop a chicken mince product, providing theoretical supports for the development of functional restructured meat products. PEP incorporation improved the rheological and textual properties of the composite gels, enhancing hydrophobic interaction and disulfide bond formation, and thereby strengthening the gel characteristics. The optimal chicken mince quality was achieved with the incorporation of 3% P. eryngii powder. These findings highlight that PEP contributes to the MP gel functionality by modifying the gel structure and strengthening the molecular bonds, laying a foundation for applying PEP in food processing. Full article

This study aimed to evaluate alkali-treated spent mushroom substrate (Pleurotus eryngii SMS) combined with condensed molasses solubles (CMS) as an alternative forage source for ruminants via in vitro fermentation. Pleurotus eryngii SMS was treated with different chemicals, including NaOH (at 5% in DM of SMS), H₂O₂ (at 3.5% in DM of SMS), and AHP (at 5% NaOH + 3.5% H₂O₂ in DM of SMS) to improve its fiber structure and digestibility. The NaOH and AHP treatments significantly increased the total gas production and volatile fatty acid (VFA) concentration and improved digestibility by about 1.5 to 1.8 times. CMS supplementation led to a 21% increase in microbial protein (MCP) synthesis in the NaOH treatment group. A replacement experiment involving a total mixed-ration diet indicated that CMS supplementation increased gas production while reducing dry matter digestibility in the NaOH treatment group. The AHP treatment group performed best at all substitution rates, particularly in digestibility and MCP synthesis. These results suggest that alkali treatment and CMS could improve the nutrient utilization efficiency of Pleurotus eryngii SMS, providing a feasible solution for the resource utilization of agricultural waste. Full article

Background: This study investigates the impact of fermentation supernatants (FSs) from Pleurotus eryngii whole mushrooms (PEWS), as well as its subcomponents, digested (PEWSD) and extracted (PEWSE) forms, on intestinal barrier function and immune modulation in lipopolysaccharide (LPS) -stimulated Caco-2 cells. Methods: Gene expression of tight junction (TJs) genes, cytokines, and key immune/metabolic receptors was assessed via qRT-PCR, while cytokine protein levels were measured using ELISA to explore post-transcriptional regulation. Results: LPS challenge significantly downregulated TJs zonula occludens-1 (ZO-1,) occludin, and claudin-1, compromising epithelial integrity. Treatment with FS-PEWS notably restored ZO-1 and occludin expression, outperforming FS-PEWSD and FS-PEWSE, which only partially mitigated the LPS-induced damage. FS-PEWS further demonstrated potent immunomodulatory effects, upregulating anti-inflammatory IL-10 and pro-inflammatory cytokines such as IL-8 and TNF-α. The activation of key receptors like TLR-2 and mTOR suggests that FS-PEWS modulates critical immune and metabolic pathways, such as NF-kB signaling, to maintain immune homeostasis. Although mRNA expression of pro-inflammatory cytokines was altered, no corresponding protein release was detected, suggesting potential post-transcriptional regulation. Conclusions: FS-PEWS preserves intestinal barrier integrity and modulates immune responses, particularly in low-grade inflammation, highlighting the whole food matrix’s role in enhancing its bioactivity and functional food potential. Full article

Mushrooms provide essential nutrients and bioactive compounds, namely glucans, protein, and phenolic compounds. In this study, two aqueous extractions were performed (M1 and M2) using Pleurotus ostreatus, Pleurotus eryngii, and Agrocybe cylindracea. In M1, a hot extraction (extract M1) (90 °C, 700 rpm, 1 h) was performed. In M2, a room-temperature extraction (extract M2A) followed by a hot extraction (extract M2B) (90 °C, 700 rpm, 1 h) of the extract M2A residue was performed. The M2B extracts showed the lowest extraction yields (12.58–21.78%), while the other yields ranged between 30.91% and 46.03%. All extracts had high protein (12.09–32.97 g/100 g of dry extract), glucan (12.69–48.57 g/100 g of dry extract), and phenolic contents (7.90–16.65 mg GAEs/g of dry extract) and high antioxidant (ABTS and ORAC assays), antimicrobial, antibiofilm, and prebiotic activities. So, they have potential to be used as functional ingredients or natural preservatives. Extracts from A. cylindracea stood out since they had higher protein content, antioxidant activity, and prebiotic activity (extract M1) and inhibited a higher number of foodborne bacteria (only extract M2A). However, unlike extracts from P. ostreatus and P. eryngii, at 40 mg/mL, they had cytotoxic effects. Full article

Pleurotus eryngii is a tasty and low-calorie mushroom containing abundant high-quality protein. This study aims to improve the digestibility of P. eryngii protein (PEP) and hence to facilitate its development as a healthy alternative protein. The extracted PEP was pretreated with 1000–5000 U of papain, neutral protease and alkaline protease. The Chyme collected from in vitro simulated gastrointestinal digestion was analyzed by fluorescence microscopy and protein particle analyzer, and the endpoint profiles of peptides and amino acids were determined by UHPLC-MS/MS and NanoLC-MS/MS. The particle size curve and fluorescence microscopy images jointly supported that protease hydrolysis improved decomposition and dispersion of PEP during digestion, particularly in the gastric phase. The impact on Zeta potential was minimal. Proteases effectively increased the abundance of amino acids after digestion, particularly L-isomer Lys and Arg Maximum release was achieved when pretreated with 5000 U of alkaline protease, reaching 7.54 times that of control. Pretreatments by proteases also notably increased digestive yields of 16,736–19,870 peptides, with the maximum reaching 1.70 times that of the control, which mainly consisted of small peptides composed of 7–15 amino acids with molecular weight below 800 Da. The findings indicated that protease hydrolysis, especially pretreatment with 5000 U of alkaline protease, effectively enhanced the digestibility of PEP, which shed light on providing enzymatic approaches for improving bioavailability and developing healthy fungal proteins. Full article

Utilizing agricultural waste to produce mushrooms may be a cost-effective and environmentally friendly proposition to address the nutritional and health demands of the growing global population. Mushrooms can grow on a range of substrates and their selection is based on their availability and cost. In this study, five types of local waste were mixed: olive crop residues (OC), coffee residue (CR) or rice husk (RH) with wheat straw (WS) and beech wood shavings (BW), respectively. Then, the mixtures were sprayed with 20% w/w lipid fermentation wastewater (LFW) from Rodosporidium toruloides that was used as an alternative substrate-moistening method. Afterwards, these mixtures were tested for cultivating Pleurotus spp., Ganoderma spp. and Lentinula edodes. The results showed that the substrate significantly affected the incubation period and the biological efficiency (BE), with OC mixed substrates proving to be the most favorable across the different species. Pleurotus spp. had the shortest cultivation times and the highest BE, while G. lucidum required the longest incubation periods and had the lowest BE, particularly on CR substrates. The study also found that substrates affected mushroom morphology. Nutritional analysis revealed significant differences in protein, polysaccharides, lipids, ash and energy content, depending on the species and substrate. High protein levels were found in P. eryngii (28.05–29.58% d.w.) and G. resinaceum (28.71–29.90% d.w.). The elevated total phenolic compounds (28.47–40.17 mgGAE/g) values in carposomes from CR and OC substrates for Ganoderma spp., L. edodes, P. pulmonarius and P. ostreatus, along with antioxidant activity (DPPH, ABTS, FRAP) assays, highlighted the crucial role of substrate composition in enhancing the medicinal properties of mushrooms. The mixed substrates also influenced the fatty acid (FA) and polysaccharide composition, with WS increasing unsaturated FAs and glucose (<69.8%) being the primary monosaccharide. The study suggests that using the spraying method of 20% w/w LFW as a moisture agent in these substrates is effective for mushroom production. Full article

We investigated the textural characteristics of plant-based meat alternatives based on root vegetables, including Platycodon grandiflorum, Codonopsis lanceolata root, Gastrodia elata blume, and Panax ginseng. The samples with root vegetables had significantly higher moisture contents than those without because of the water retention capacity of dietary fiber contained in root vegetables. Heating affects the structures and interactions of the plant-based proteins and other ingredients. Therefore, from before to after heating, the L* values generally decreased, and the a* and b* values increased. During cooking, the hardness, gumminess, and chewiness of the sample containing Platycodon grandiflorum increased the most, and cohesiveness tended to increase The cooking loss was the lowest in the samples without root vegetable additives because the addition of root vegetables caused a decrease in Pleurotus eryngii content. The addition of root vegetables in samples had a positive effect on texture and overall acceptability in the sensory evaluation. Overall, the sample containing Platycodon grandiflorum was the most changed in terms of its physical properties. This study is expected to provide physical properties and foundational data for the future growth of the alternative food industry. Full article

Pleurotus eryngii mushroom has been proven to have anti-aging bioactivities. However, few studies have focused on edible Pleurotus eryngii mushroom feet peptides (PEMFPeps). In this paper, the effects of delaying the senescence of D-Galactose-induced PC12 cells were evaluated, and the mechanisms were also investigated. PEMFPeps were prepared by alkaline protease enzymolysis of edible Pleurotus eryngii mushroom feet protein (PEMFP), which mainly consisted of a molecular weight of less than 1000 Da peptides, primarily occupying 89.15% of the total. Simulated digestion in vitro of Pleurotus eryngii mushroom feet peptides (SID-PEMFPeps) was obtained in order to further evaluate the bioactivity after digestion. The peptide sequences of PEMFPeps and SID-PEMFPeps were detected by LC-MS/MS subsequently. Five new peptides of PEMFPeps and one new peptide of SID-PEMFPeps were identified. The effects of PEMFP, PEMFPeps, and SID-PEMFPeps on D-Galactose-induced senescence of PC12 cells were evaluated. PEMFP, PEMFPeps, and SID-PEMFPeps could all enhance antioxidant enzyme activities significantly, such as superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase (CAT); decrease the intracellular levels of malondialdehyde (MDA) and reactive oxygen species (ROS); and inhibit the senescence-associated β-galactosidase (SA-β-gal) activity, among which SID-PEMFPeps showed the best effects. Western blotting analysis confirmed that SID-PEMFPeps significantly regulated the expressions of key proteins such as TLR4, IKKα, IκBα, p65, ERK, and JNK1/2/3, which indicated that SID-PEMFPeps could delay D-Gal-induced senescence of PC12 cells through TLR4/NF-κB/MAPK signaling pathways. This is the first time to investigate PEMFPeps and SID-PEMFPeps protective effects and mechanisms. Our study could lay a solid foundation for PEMFPeps to be used as nutritional supplementation to reduce aging-related damage. And the application of PEMFPeps could also provide optional solutions in exploring more edible protein resources for human beings. Full article

Aflatoxin B1 (AFB1) produced by some Aspergillus species belongs to the most dangerous contaminants of animal feeds. Development of safe and cost efficient decontamination methods saving feed quality and nutritional value are of paramount importance. The use of recombinant AFB1-detoxifying microbial enzymes represents a promising biotechnological approach meeting the aforementioned requirements. In this study, three AFB1-degrading oxidases (AFOs) from edible basidiomycetes Cantharellus cibarius, Lentinula edodes and Pleurotus eryngii as well as AFO from Armillaria tabescens were expressed in E. coli Rosetta (DE3) and purified by immobilized metal-chelate chromatography. The stabilizing effect of the addition of glycerol and β-mercaptoethanol during protein extraction is shown. The catalytic constants of the recombinant AFOs (rAFOs) and other characteristics, which might be important for their practical application (and optimal temperature and pH, thermolability, regulation of the activity by metal ions and chelating agents, storage stability) were investigated. Among the obtained enzymes, rAFO from P. eryngii (Pe-AFO), which was characterized by the highest specific activity, thermostability and pH stability (especially at acidic pH range), the lowest K_m, and relative resistance to the inhibition by phytate, showed the best AFB1-degrading efficacy. However, Pe-AFO and all other rAFOs significantly decreased the target activity during heating above 45 °C, storage frozen or lyophilization. Full article