Apoptosis induction – Page 4

How Should the Worldwide Knowledge of Traditional Cancer Healing Be Integrated with Herbs and Mushrooms into Modern Molecular Pharmacology?

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This comprehensive review explores how traditional healing practices from around the world use plants and mushrooms to treat cancer. The authors examine thousands of plant species and their active compounds that show promise in fighting various types of cancer through multiple mechanisms like stopping cancer cell growth and triggering cell death. The review emphasizes that proper scientific validation, standardization, and safety testing can help integrate these traditional remedies into modern cancer treatment alongside conventional chemotherapy.

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.

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.

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

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Researchers studied how an essential oil from black cumin seeds (Bunium persicum) and two of its key active components could work together with the antifungal drug fluconazole to fight Candida albicans infections, including drug-resistant strains. Using laboratory tests and computer modeling, they found that cuminaldehyde, one of the main components, was particularly effective when combined with fluconazole, killing yeast cells through multiple mechanisms. This suggests that natural plant compounds could be valuable partners with conventional antifungal medications to overcome drug resistance.

Bioactive Steroids Bearing Oxirane Ring

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This research reviews special types of steroids that contain oxirane rings, which are highly reactive chemical structures found in marine organisms, fungi, and plants. These compounds have shown promise in treating various diseases including cancer, inflammation, and high cholesterol. Scientists used computer software to predict and analyze the biological activities of over 150 different epoxy steroids, categorizing them by the position of their oxirane ring. The findings suggest these natural compounds could be valuable for developing new medicines and understanding how chemicals interact with our bodies.

Critical review on chemical compositions and health-promoting effects of mushroom Agaricus blazei Murill

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Agaricus blazei Murill is an edible mushroom that contains many beneficial compounds including polysaccharides, vitamins, and minerals. Research shows it may help boost the immune system, reduce blood sugar levels, protect the liver, fight inflammation, and even have anti-cancer properties. While animal studies show promising results, more human clinical trials are needed to confirm its health benefits and establish proper dosing for therapeutic use.

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

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Researchers tested how Bunium persicum essential oil and its components work alongside the antifungal drug fluconazole against Candida albicans infections. Cuminaldehyde, a major component of the oil, showed the strongest effects when combined with fluconazole, making infection-causing cells die faster than each substance alone. This combination approach could help overcome drug-resistant fungal infections and offers a promising natural alternative to synthetic drugs alone.

Anticancer Activity of Demethylincisterol A3 and Related Incisterol-Type Fungal Products

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This review examines a group of rare fungal compounds called incisterols, with a focus on demethylincisterol A3 (DM-A3), which has shown promise as an anticancer agent. DM-A3 works through multiple mechanisms including blocking cancer cell signaling pathways, inhibiting specific enzymes, and reducing inflammation. The compound has demonstrated effectiveness against various cancer types in laboratory studies and showed tumor-reducing effects in animal models, suggesting potential for future cancer therapy development.

Changes in Functionality of Tenebrio molitor Larvae Fermented by Cordyceps militaris Mycelia

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Scientists fermented mealworms (a sustainable food source) with a medicinal fungus called Cordyceps militaris to make them more nutritious and appealing. The fermented mealworms had much higher protein, fiber, and a cancer-fighting compound called cordycepin compared to regular mealworms. This technique creates a healthier, more environmentally friendly alternative protein food that could help feed growing populations while reducing the environmental impact of traditional livestock farming.

Genomic Insights of Candida krusei, an Emerging Fungal Pathogen With Intrinsic Antifungal Resistance

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Candida krusei is a yeast that causes serious bloodstream infections, particularly in people with weakened immune systems. Unlike many other fungi, it naturally resists common antifungal drugs like fluconazole, making infections hard to treat. The organism can form protective biofilms and has multiple genetic mechanisms that help it survive antifungal treatment. Researchers are exploring new drugs and treatment strategies to combat this growing health threat, especially in hospitals.

therapeutic action: Apoptosis induction