Polysaccharide-Peptide from Trametes versicolor: The Potential Medicine for Colorectal Cancer Treatment

Anti-proliferative potential of extracellular beta-glucans isolated from Trametes hirsuta in carcinoma and leukemic cell lines

This study aims to extract, purify, and characterize water-soluble extracellular polysaccharides (EPS) from Trametes hirsuta and evaluate their antiproliferative effects. The anionic fraction (AF), a purified form extracellular polysaccharide consisting of glucose-based polymeric units, was isolated through chromatographic purification. The FTIR spectrum showed characteristic absorption peaks at 876.12 cm-1 and 826.89 cm-1 corresponding to β configuration and absorption peaks at 1019.63 cm-1, 1118.10 cm-1, and 1187.92 cm-1 corresponding to pyranose form of the glucosyl residue. 1H NMR signals at δ 4.90 ppm and δ 4.28 ppm were representative of anomeric protons, while 13C NMR spectrum signals around δ 97.85 ppm, δ 93.12 ppm, δ 77.79 ppm, δ 75.89 ppm, δ 71.51 ppm, and δ 62.28 ppm attributed to C-1, C-3, C-5, C-2, C-4, and C-6 carbon atom of EPS. The aforementioned results showed that the purified EPS was made of β-D (1 → 3) glucan moiety. The anti-proliferative activity of EPS was screened against four carcinoma cell lines, HepG2, HEp-2, HT-29 and PC3, and one leukemic cell line, MOLT-4, was used. Purified EPS demonstrated significantly greater cytotoxicity against HT-29, followed by MOLT-4, HepG2, and HEp2, compared to crude EPS. However, it was ineffective against PC-3, a prostate cancer cell line.

Anticancer potential of purified laccase enzyme from Trametes versicolor: specific cytotoxicity against thyroid and endometrial cancer cells

BACKGROUND

Cancer is one of the leading causes of death worldwide, highlighting the need to develop novel therapeutic strategies that are more effective and have fewer side effects than conventional treatments. Enzymatic cancer therapy is a promising approach due to its high specificity and minimal toxicity. Among the various enzymes, laccase, a widely used biocatalyst, has shown significant potential for anti-cancer applications due to its proliferation inhibitory properties.

METHODS AND RESULTS

In this study, the enzyme laccase from Trametes versicolor was purified by three-phase partitioning and then its cytotoxic, genotoxic and apoptotic effects on thyroid cancer (TT) and endometrial cancer (Ishikawa) cell lines were investigated. Laccase exhibited IC50 values of 88.63 µM in TT cells and 1.68 µM in Ishikawa cells. The enzyme triggered apoptosis in Ishikawa cells and induced cell cycle arrest in S phase, while significantly increasing DNA damage in both cancer cell lines. Treatment with laccase led to downregulation of the anti-apoptotic gene Bcl-2 and upregulation of the pro-apoptotic gene Bax and the DNA damage repair genes Rad51 and ATM.

CONCLUSIONS

Our results emphasize the specific cytotoxicity and molecular mechanisms underlying the anti-cancer effect of laccase and demonstrate that laccase is capable of selectively targeting cancer cells and causing apoptosis and DNA damage. This study demonstrates the potential of laccase as a novel enzymatic therapeutic for the treatment of thyroid and endometrial cancer and warrants further investigation into its clinical application and efficacy.

Enhanced Anti-Cancer Potential: Investigating the Combined Effects with Coriolus versicolor Extract and Phosphatidylinositol 3-Kinase Inhibitor (LY294002) In Vitro

Coriolus versicolor (CV), known in traditional Chinese medicine for over 2000 years, is currently used in China and Japan to reduce chemotherapy or radiotherapy side effects in cancer patients. Despite extensive research, its effects still need improvement. This study aimed to determine if combining CV extract with LY294002, an inhibitor of the phosphatidylinositol-3-kinase (PI3K) signalling pathway, enhances cancer cell treatment, potentially leading to a novel therapeutic approach. Three human cancer cell lines (MCF-7, HeLa, and A549) were treated with CV extract alone or combined with LY294002. Cell viability was assessed using MTT assays. Then, HeLa and MCF-7 cells most sensitive to the co-treatment were used to evaluate colony formation, apoptosis, cell cycle, cell migration and invasion, and phospho-PI3K expression. The results demonstrated that LY294002 enhanced the CV extract's anti-tumour effects by reducing cell viability and colony formation. The combined treatment with CV extract and LY294002 more effectively induced G0/G1 cell cycle arrest, promoted apoptosis, reduced cell invasion and migration, and inhibited phospho-PI3K expression compared to each agent alone. This study highlights the potent cytotoxic enhancement between CV extract and LY294002 on cancer cells, primarily by inhibiting phospho-PI3K expression. These findings suggest promising avenues for developing novel combination therapies targeting cancer.

A Chromosome-Scale Genome of Trametes versicolor and Transcriptome-Based Screening for Light-Induced Genes That Promote Triterpene Biosynthesis

Trametes versicolor is an important fungus with medicinal properties and a significant role in lignocellulose degradation. In this study, we constructed a high-quality chromosome-level genome of T. versicolor using Illumina, PacBio HiFi, and Hi-C sequencing technologies. The assembled genome is 47.42 Mb in size and contains 13,307 protein-coding genes. BUSCO analysis revealed genome and gene completeness results of 95.80% and 95.90%, respectively. Phylogenetic analysis showed that T. versicolor is most closely related to T. pubescens, followed by T. cinnabarina and T. coccinea. Comparative genomic analysis identified 266 syntenic blocks between T. versicolor and Wolfiporia cocos, indicating a conserved evolutionary pattern between the two species. Gene family analysis highlighted the expansion and contraction of genes in functional categories related to the biosynthesis of secondary metabolites, including several T. versicolor-specific genes. Key genes involved in lignocellulose degradation and triterpene production were identified within the CAZyme and CYP450 gene families. Transcriptomic analysis under dark and light conditions revealed significant changes in the expression of genes related to secondary metabolism, suggesting that light signals regulate metabolic pathways. A total of 2577 transporter proteins and 2582 membrane proteins were identified and mapped in the T. versicolor genome, and 33 secondary metabolite gene clusters were identified, including two light-sensitive triterpene biosynthesis clusters. This study offers a comprehensive genomic resource for further investigation into the functional genomics, metabolic regulation, and triterpene biosynthesis of T. versicolor, providing valuable insights into fungal evolution and biotechnological applications.

Structural characterization and antioxidant activity evaluation of a polysaccharide from pink Auricularia cornea

An acidic polysaccharose (YL-D2N2) was isolated from crude polysaccharides of pink Auricularia cornea and characterized for its structural and antioxidant properties. YL-D2N2 consists of fucose, galactose, glucose, xylose, mannose and glucuronic acid in a molar ratio of 0.85: 1.50: 4.44: 27.52: 46.56: 19.13. It has a number-average molecular weight of about 52.811 kDa and a weight-average molecular weight of about 135.457 kDa. Structural characterization showed that YL-D2N2 consists of nine residues (Xylp-(1→, GlcpA-(1→, →2)-Xylp-(1→, →3)-Galp-(1→, →3)-Manp-(1→, →4)-GlcpA-(1→, →2,3)-Manp-(1→, →3,4)-Glcp-(1→, →3,6)-Manp-(1→), with a backbone of →3)-β-D-Manp-(1→, →2,3)-α-D-Manp-(1→, →3,6)-α-D-Manp-(1 → and side chains containing β-D-Xylp-(1 → and α-D-GlcpA-(1→. Notably, YL-D2N2 exhibits significant radical scavenging activity for superoxide anions, reaching 50.82 ± 0.64 % at a concentration of 3.2 mg/mL. Overall, YL-D2N2 exhibits a unique chemical structure and specialized applications for targeting superoxide anion radicals, providing valuable insights for further exploration of its structure-activity relationship.

Mechanism of Antihyperglycemic Activity of Extracellular Polysaccharopeptides from Fermented Turkey Tail Medicinal Mushroom Trametes versicolor (Agaricomycetes) in Type 2 Diabetic Rats

The antihyperglycemic activity of extracellular polysaccharopeptides (ePSP) obtained from Trametes versicolor (TV) strain LH-1 has been demonstrated in hepatic cells and diabetic animals. This study further investigated the mechanisms of T. versicolor-ePSP on regulating glucose metabolism, including insulin signaling molecules and glucose metabolism-associated enzymes, in the liver of rats with type 2 diabetes mellitus (T2DM). Male Wistar rats, fed with a high-fat diet followed by a streptozotocin injection to induce T2DM, were orally administered water or T. versicolor-ePSP at doses of 0.1, 0.5, or 1.0 g/kg/d. After 4 weeks of T. versicolor-ePSP administration, T2DM rats exhibited significantly lower postprandial blood glucose levels, decreased liver triglyceride and cholesterol contents, and improved serum liver function indices in a dose-dependent manner (P < 0.05, one-way ANOVA). Additionally, T2DM rats administered T. versicolor-ePSP had significantly activated insulin receptors and decreased proteins involved in insulin signaling pathway, such as insulin receptor substrates, PI3K, and total and activated Akt, and AMP-activated protein kinase in the liver. T. versicolor-ePSP administration, especially at 1.0 g/kg per day, significantly increased glucose transporters in the cell membrane and decreased glucokinase and glucose-6-phosphotase in the cytosol of the liver. In conclusion, the antihyperglycemic activities of T. versicolor-ePSP may be associated with enhanced hepatic function, alleviated gluconeogenesis, and facilitated glucose transport in an insulin- and AMPK-independent manner in the liver of T2DM rats.

In vitro treatment of triple-negative breast cancer cells with an extract from the Coriolus versicolor mushroom changes macrophage properties related to tumourigenesis

Macrophages, the most abundant cells that participate in tumour progression, are the subject of a number of anticancer therapy approaches. Our previous results revealed that an extract of the fungus Coriolus versicolor (CV) has anti-cancer and immunomodulatory properties. The aim of the present study was to investigate whether CV extract-treated triple-negative breast cancer (TNBC) cells can release factors that can reprogram macrophages from pro-tumourigenic to anti-cancer subtypes. RAW 264.7 macrophages were cultured in a conditioned medium (CM) from non-treated 4T1 breast cancer cells (CM-NT) or CV extract-stimulated cells (CM-CV). After treatment, the following macrophage properties were evaluated: cell viability; M1/M2 phenotype (enzyme activities: iNOS and arginase 1; and expression of CD molecules: CD80 and CD163); cytokine concentrations: IL-6, TNF-α, IL-10, TGF-β, MCP-1 and VEGF; migration level; and ROS production. The results revealed that, compared with normal cells, TNBC cells stimulated with CV extract create a microenvironment that promotes a decrease in macrophage viability and migration, intracellular ROS production, and pro-angiogenic cytokine production (VEGF and MCP-1). Moreover, CM-CV decreased the expression of M2 macrophage markers (arginase 1 and CD163; IL-10 and TGF-β) but upregulated the expression of M1 cell markers (iNOS and CD80; IL-6 and TNF-α). We concluded that CV extract modifies the tumour microenvironment and changes macrophage polarisation toward functioning as an anti-tumour agent. Therefore, it is promising to use in the treatment of TNBC-associated macrophages.

Ergostanes from the mushroom Trametes versicolor and their cancer cell inhibition: In vitro and in silico evaluation

In this study, five steroid compounds were isolated from the fruiting bodies mushroom Trametes versicolor. The compounds, 9,19-cyclolanostane-3,29-diol (3), ergosta-7,22-dien-3-acetate (4), and ergosta-8(14),22-dien-3β,5α,6β,7α-tetrol (5), were identified from T. versicolor for the first time. The five compounds were evaluated for their activity against cancer cell lines. Compound 5α,8α-epidioxyergosta-6,22-dien-3β-ol (1) was found to be the most effective against most of the cancer cell lines tested. In silico studies showed that compound 1 has good binding affinities to different cancer targets, namely cyclin-dependent kinase 2 (cdk2), human cyclin-dependent kinase 6 (cdk6), Human Topo IIa ATPase/AMP-PNP, anti-apoptotic protein Bcl-2, and Vegfr-2. It's also druglike based on Lipinski's rule of five and it's ADME/Tox properties. Therefore, compound 1 is a good candidate in the management of cancer. These results further show that T. versicolor is a potential source of drugs or drug leads for cancer treatment.

A concise review of the nutritional profiles, microbial dynamics, and health impacts of fermented mushrooms

Mushrooms have garnered significant attention for their nutritional composition and potential health benefits, including antioxidant, antihypertensive, and cholesterol-lowering properties. This review explores the nutritional composition of edible mushrooms, including their high protein content, essential amino acids, low fat, cholesterol levels, and bioactive compounds with medicinal value. Moreover, the study analyzes the microbiology of mushroom fermentation, focusing on the diverse microbial ecosystem involved in the transformation of raw mushrooms and the preservation methods employed to extend their shelf life. Special emphasis is placed on lactic acid fermentation as a cost-effective and efficient preservation technique. It involves controlling the growth of lactic acid bacteria to enhance the microbial stability and nutritional quality of mushrooms. Furthermore, the bioactivities of fermented mushrooms are elucidated, which are antioxidant, antimicrobial, anticancer, anti-glycemic, immune modulatory, and other biological activities. The mechanisms underlying these bioactivities are explored, emphasizing the role of fermented mushrooms in suppressing free radicals, enhancing antioxidant defenses, and modulating immune responses. Overall, this review provides comprehensive insights into the nutritional composition, microbiology, bioactivities, and underlying mechanisms of fermented mushrooms, highlighting their potential as functional foods with significant health-promoting properties.

An Overview on Mushroom Polysaccharides: Health-promoting Properties, Prebiotic and Gut Microbiota Modulation Effects and Structure-function Correlation

Mushroom polysaccharides are recognized as "biological response modifiers". Besides several bioactivities, a growing interest in their prebiotic potential has been raised due to the gut microbiota modulation potential. This review comprehensively summarizes mushroom polysaccharides' biological properties, structure-function relationship, and underlying mechanisms. It provides a recent overview of the key findings in the field (2018-2024). Key findings and limitations on structure-function correlation are discussed. Although most studies focus on β-glucans or extracts, α-glucans and chitin have gained interest. Prebiotic capacity has been associated with α-glucans and chitin, while antimicrobial and wound healing potential is attributed to chitin. However, further research is of utmost importance. Human fecal fermentation is the most reported approach to assess prebiotic potential, indicating impacts on intestinal biological, mechanical, chemical and immunological barriers. Gut microbiota dysbiosis has been directly connected with intestinal, cardiovascular, metabolic, and neurological diseases. Concerning gut microbiota modulation, animal experiments have suggested proinflammatory cytokines reduction and redox balance re-establishment. Most literature focused on the anticancer and immunomodulatory potential. However, anti-inflammatory, antimicrobial, antiviral, antidiabetic, hypocholesterolemic, antilipidemic, antioxidant, and neuroprotective properties are discussed. A significant overview of the gaps and research directions in synergistic effects, underlying mechanisms, structure-function correlation, clinical trials and scientific data is also given.

Influence of Organic and Inorganic Compounds of Various Metals on the Synthesis of Polysaccharides by the Medicinal Mushroom Trametes versicolor

BACKGROUND

To date, basidiomycetes are considered to be promising objects of biotechnology, due to a number of biologically active compounds, such as polysaccharides and triterpenes. These compounds have a high therapeutic potential and demonstrate immunomodulatory, antiviral, and antifungal activities.

OBJECTIVE

The purpose of this study was to study the effect of various concentrations of metal citrates and sulphates on the content of exo- and endopolysaccharides of the fungus Trametes versicolor.

METHOD

The mycelium was grown by deep cultivation on a semisyntheticglucose-peptone-yeast medium with different contents of zinc, copper, and manganese salts, after which the extraction and measurement of the concentration of polysaccharides were carried out.

RESULTS

The results obtained showed that copper citrate at a concentration of 4 mg/L had the greatest positive effect on biomass yield. The intensity of biomass growth on a nutrient medium with copper citrate increased by 80%. Zinc citrate increased the content of exopolysaccharides by 29% compared to the medium without metal salts. When manganese citrate was added to the medium, the productivity of synthesis decreased, but an increase in the growth rate of mycelium biomass was observed. Sulphates of these metals led to a decrease in the productivity of exopolysaccharide synthesis by 12% for zinc and 35% for manganese.

CONCLUSIONS

The addition of both copper citrate and copper sulphate to the medium led to a decrease in the synthesis productivity by 66 and 24%, respectively. The introduction of both citrates and sulphates of these metals into the culture medium led to an increase in the percentage of endopolysaccharides in the mycelium of the fungus.

HIGHLIGHTS

Copper citrate enhances Trametes versicolor biomass by 80%. Zinc citrate increases exopolysaccharide content by 29%. Copper sulphate optimizes endopolysaccharide production.

Wild Mushrooms: A Hidden Treasure of Novel Bioactive Compounds

Secondary metabolites are hidden gems in mushrooms. Understanding these secondary metabolites' biological and pharmacological effects can be aided by identifying them. The purpose of this work was to profile the mycochemical components of the extracts of Auricularia auricula judae, Microporus xanthopus, Termitomyces umkowaani, Trametes elegans, and Trametes versicolor to comprehend their biological and pharmacological capabilities. Mushroom samples were collected from Kenya's Arabuko-Sokoke and Kakamega National Reserved Forests and identified using morphological and molecular techniques. Chloroform, 70% ethanol, and hot water solvents were used to extract the mycochemical components. Gas chromatography mass spectrometry (GC-MS) was used to analyze the chloroform, 70% ethanol, and hot water extracts of all the species examined. A total of 51 compounds were isolated from all extracts and classified as carboxylic acids, esters, phenols, fatty acids, alcohol, epoxides, aldehydes, fatty aldehydes, isoprenoid lipids, and steroids. Tetracosamethyl-cyclododecasiloxane (18.90%), oleic acid (72.90%), phenol, 2, 6-bis (1, 1-dimethylethyl)-4-methyl-, and methylcarbamate (26.56%) were all found in high concentrations in A. auricular judae, M. xanthopus, T. umkowaani, T. elegans, and T. versicolor, respectively. Fatty acids make up the majority of the compounds isolated from the T. elegans chloroform extract and the T. umkowaani 70% ethanol extract, respectively. Particularly, these fatty acids play crucial roles in the anti-inflammatory, hypocholesterolemic, anticancer, and antibiofilm formation activities. These bioactive elements indicate that the extracts of five wild mushrooms may be reliable sources of secondary metabolites for therapeutic development. Therefore, additional research is required to comprehend the usefulness of these chemicals in many functional areas and to improve the present understanding of macrofungi.

An Immunomodulatory Polysaccharide-Protein Complex Isolated from the Polypore Fungus Royoporus badius

Many wild edible polypore mushrooms have medicinal value. In this study, we investigate the potential medicinal properties of the wild polypore mushroom Royoporus badius collected from north-central British Columbia, Canada. Water extract from R. badius was found to exhibit potent immunomodulatory activity. The extract was purified using DEAE-Sephadex anion-exchange chromatography as well as Sephacryl S-500 and HPLC BioSEC5 size-exclusion chromatography, to yield a novel polysaccharide-protein complex (IMPP-Rb).IMPP-Rb has a peak maxima molecular weight (M_p) of 950 kDa. GC-MS analyses showed that IMPP-Rb is composed predominantly of glucose (49.2%), galactose (11.3%), mannose (10.8%), rhamnose (9.6%), and galacturonic acid (8.2%), with smaller amounts of xylose (5.2%), fucose (2.8%), N-acetyl glucosamine (1.8%), and arabinose (1.2%). IMPP-Rb has multiple linkages, with 4-Glcp, 4-Manp, 6-Manp, 3,4-Manp, 4-Xylp, and 2-Rhap being the most prominent. IMPP-Rb is capable of inducing many cytokines in vitro and the protein component is indispensable for its immunomodulatory activity. IMPP-Rb has potential application as an immuno-stimulatory agent with pharmaceutical value.

Detection of Mitogenic and Genotoxic Effects of the Turkey Tail Medicinal Mushroom (Trametes versicolor, Agaricomycetes) Extracts from Mexico on Human Lymphocyte Cultures

Diseases caused by a compromised immune system, characterized by decreased production and diversification of T lymphocytes, such as immunodeficiencies or chronic infections, are becoming increasingly prominent. These diseases lead to increased vulnerability to infections caused by parasites, viruses, bacteria, fungi, and other microorganisms. According to various articles, Trametes versicolor has been used as immunotherapy and cancer treatment due to its polysaccharides, which have shown their value in traditional medicine. However, most of the studies have been done with Asian samples. For this reason, the aim of this study was to evaluate the effect of samples of Mexican T. versicolor on human lymphoid cells. Of various extracts, the one with the best T cell proliferative response was the extract produced by maceration in water at room temperature, but all treatments in aqueous and ethanolic extracts increased the lymphocyte count, showing that extracts of Mexican T. versicolor also have compounds that stimulate T cells. Unfortunately, genetic damage expressed as an increment in micronuclei count was identified, so using these fungus extracts in traditional medicine would require careful control of recommended doses.