Apoptosis induction – Page 3

Exploring the Bioactive Potential of Calostoma insigne, an Endangered Culinary Puffball Mushroom, from Northeastern Thailand

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This research investigated a rare, eye-shaped mushroom called Calostoma insigne that grows in Thai rainforests and is eaten by local people. Scientists confirmed traditional beliefs that the mushroom has health benefits, discovering it has antioxidant, anti-cancer, and anti-diabetic properties. The study also determined the best way to grow this mushroom in laboratories, which could help conserve the endangered species while providing a sustainable food and health resource.

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 a spice-derived essential oil called Bunium persicum and two of its active compounds to see if they could work better with the antifungal drug fluconazole against drug-resistant yeast infections. They found that one component called cuminaldehyde was particularly effective and worked synergistically with fluconazole, meaning the combination was more powerful than either treatment alone. These natural compounds could potentially help treat fungal infections that no longer respond to standard medications, offering a promising approach using plant-based remedies alongside conventional drugs.

Therapeutic and Preventive Potential of Plant-Derived Antioxidant Nutraceuticals

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This comprehensive review explores how compounds found in plants can protect our bodies from harmful damage caused by oxidative stress, which is linked to aging and various diseases. Plant-based foods rich in antioxidants like berries, leafy greens, and olive oil contain special molecules that can help prevent cancer, heart disease, diabetes, and other chronic conditions. The review highlights that these natural compounds work through multiple beneficial mechanisms beyond just antioxidant activity, making plant-based diets an effective strategy for maintaining health and preventing disease.

Anticancer Activity of Solvent Extracts of Hexogonia glabra against Cervical Cancer Cell Lines

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Researchers tested extracts from a wild mushroom species called Hexogonia glabra against cervical cancer cells in the laboratory. The ethanolic extract was most effective, killing cancer cells by triggering apoptosis (programmed cell death) and activating genes that fight cancer. The mushroom extracts showed strong anticancer effects without harming normal cells, suggesting it could be a promising source for developing new cancer drugs.

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

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This review examines a special group of fungal compounds called incisterols, with focus on demethylincisterol A3 (DM-A3), which shows promise as a cancer-fighting agent. DM-A3 works through multiple mechanisms: it blocks cancer cell growth pathways, inhibits specific cancer-promoting proteins, and has anti-inflammatory effects. The compound has shown strong activity against various cancer types in laboratory and animal studies, making it a candidate for further development as a potential cancer therapy.

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 Bunium persicum essential oil and two of its active components work together with the antifungal drug fluconazole to fight resistant Candida yeast infections. They found that cuminaldehyde, one of the oil’s main components, was particularly effective when combined with fluconazole and could trigger yeast cell death. These natural compounds could offer a promising new approach to treating fungal infections that have become resistant to standard medications.

Terpinen-4-ol triggers autophagy activation and metacaspase-dependent apoptosis against Botrytis cinerea

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Terpinen-4-ol, a natural compound from tea tree oil, effectively kills gray mold fungus that spoils fruits and vegetables after harvest. The compound works by damaging fungal cell membranes, creating harmful reactive molecules inside fungal cells, and triggering the fungal cells’ self-destruction pathways. When tested on tomatoes and strawberries, terpinen-4-ol successfully reduced mold growth and disease spread, suggesting it could be a safe, eco-friendly alternative to chemical fungicides for protecting fresh produce.

Methods for Overcoming Chemoresistance in Head and Neck Squamous Cell Carcinoma: Keeping the Focus on Cancer Stem Cells, a Systematic Review

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Head and neck cancer is often resistant to chemotherapy because of cancer stem cells that survive treatment and cause recurrence. This review examined 31 studies on methods to overcome this resistance, finding that natural products like mushrooms (Ganoderma lucidum), plants (sulforaphane from broccoli, curcumin from turmeric), and synthetic compounds can enhance chemotherapy effectiveness when combined with traditional drugs. These approaches work by targeting the specific pathways that allow cancer stem cells to survive, potentially improving treatment outcomes while reducing required drug doses and side effects.

Honeybee associated Aspergillus niger AW17 as a source of selective anticancer compounds with cytotoxicity evaluation in human cancer cell lines

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Scientists discovered that a fungus found in honeybees can produce compounds that effectively kill cancer cells while leaving healthy cells largely unharmed. The fungus (Aspergillus niger AW17) contains unique bioactive compounds including high levels of oleic acid and a rare compound called pachymic acid. When tested against four types of human cancer cells, the fungal extract was particularly effective against liver and colorectal cancer. This finding suggests that exploring specialized environments like beehives could lead to new cancer treatments with fewer side effects.

A Novel Erinacine S Derivative from Hericium erinaceus Overcomes Chemoresistance in Colorectal Cancer Cells by Enhancing TRAIL/TNFR1/DR5 Expression through Histone Acetylation

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This study shows that erinacine S, a natural compound from Lion’s Mane mushrooms, can help overcome drug resistance in colorectal cancer cells. The compound works by activating pathways that trigger cancer cell death and by modifying how genes are expressed at the molecular level. In both laboratory experiments and animal models, erinacine S successfully stopped tumor growth and killed resistant cancer cells, suggesting it could be a promising natural treatment for patients with hard-to-treat colorectal cancer.

therapeutic action: Apoptosis induction