Research Keyword: cell proliferation

Lentinan inhibits melanoma development by regulating the AKT/Nur77/Bcl-2 signaling axis

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This research demonstrates that lentinan, a compound from shiitake mushrooms, can effectively inhibit melanoma (a dangerous skin cancer) in laboratory studies. The compound works by triggering cancer cells to self-destruct through a specific cellular pathway involving three key proteins: AKT, Nur77, and Bcl-2. Importantly, the treatment showed no significant toxic side effects in animal models, suggesting it could be developed as a new cancer therapy option.

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Isolation Techniques, Structural Characteristics, and Pharmacological Effects of Phellinus Polysaccharides: A Review

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This review examines how scientists extract and study beneficial compounds called polysaccharides from a medicinal fungus called Phellinus. These polysaccharides show promise in fighting cancer, reducing inflammation, and boosting immune function. Different extraction methods affect the quality and effectiveness of these compounds, and researchers are working to optimize these techniques for better therapeutic applications.

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Astragalus Shiitake—A Novel Functional Food with High Polysaccharide Content and Anti-Proliferative Activity in a Colorectal Carcinoma Cell Line

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Scientists developed a new type of Shiitake mushroom by growing it on a special substrate enriched with Astragalus root. This novel mushroom contains significantly more beneficial polysaccharides than regular Shiitake. When tested against colorectal cancer cells, extracts from this mushroom showed strong cancer-fighting properties, with the ultrasound extraction method being most effective. This research suggests Astragalus Shiitake could become a powerful functional food for cancer prevention and treatment.

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Phytochemicals as promising agents in Axl-targeted cancer treatment

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This review examines natural plant compounds that can block Axl, a protein that helps cancer cells survive and spread. Scientists found that compounds from common foods like apples, grapes, green tea, ginger, and chamomile can reduce Axl levels and kill cancer cells. These natural compounds work through different mechanisms and show promise for treating various cancers, including those resistant to standard chemotherapy drugs.

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Crab vs. Mushroom: A Review of Crustacean and Fungal Chitin in Wound Treatment

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Chitin, a natural material found in crab shells and mushrooms, can be used to make wound dressings that speed up healing and fight infection. The review compares these two sources, finding that crab-derived chitin has been studied more extensively and has several commercial products available, while mushroom-derived chitin offers advantages like lower cost and easier processing. Both types work by promoting cell growth, stopping bleeding, and killing bacteria, making them promising alternatives to traditional wound dressings for treating difficult-to-heal wounds.

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Study on Optimization of Liquid Fermentation Medium and Antitumor Activity of the Mycelium on Phyllopora lonicerae

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Researchers improved the production of a medicinal fungus called Phylloporia lonicerae that grows on honeysuckle plants. They developed a better growing medium that produced more fungus in less time. They then discovered that components from this fungus can kill cancer cells, particularly lung and esophageal cancer cells, by triggering a natural cell death process called apoptosis. This work suggests the fungus could be developed into an anti-cancer functional food.

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Mushroom Bioactive Molecules as Anticancerous Agents: An Overview

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Mushrooms contain natural compounds that show promise in fighting cancer by triggering cancer cell death and boosting immune function. Different mushroom species like oyster, shiitake, and button mushrooms contain substances such as beta-glucans and other polysaccharides that have demonstrated anticancer properties in laboratory and animal studies. While these mushroom compounds work through multiple mechanisms including preventing new blood vessel formation to tumors and stopping cancer cell division, more human clinical trials are needed to confirm their effectiveness as cancer treatments.

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