cytotoxicity – Page 2

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.

Isolation, identification, and production optimization of natural functional pigments produced by Talaromyces atroroseus LWT-1

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Researchers isolated a special fungus called Talaromyces atroroseus that produces natural red pigments with cancer-fighting properties. These pigments killed cancer cells in laboratory tests while actually helping normal cells grow, which is an ideal combination for therapeutic potential. By optimizing growing conditions, scientists found they can produce large quantities of these pigments efficiently, offering a safe, natural alternative to synthetic dyes for food and cosmetic products.

Process Optimization for the Bioinspired Synthesis of Gold Nanoparticles Using Cordyceps militaris, Its Characterization, and Assessment of Enhanced Therapeutic Efficacy

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Scientists successfully created tiny gold particles using an edible mushroom called Cordyceps militaris instead of harsh chemicals. These gold nanoparticles are incredibly small (just 7 nanometers) and showed impressive healing potential against bacteria, diabetes-related enzymes, and even cancer cells in lab tests. The method is environmentally friendly, safe, and could lead to new medical treatments.

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.

Evaluation of the Cytotoxicity and Antifungal Efficacy of Crocus sativus (saffron) Petals on Clinical Isolates of Candida albicans

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Researchers tested saffron petals as a natural antifungal treatment against Candida albicans, a common fungal infection. While the saffron extract was less potent than the standard drug fluconazole, it showed promise as a safer alternative with minimal toxicity to human cells. The findings suggest saffron petals could be a cost-effective herbal option for treating fungal infections, especially as resistance to conventional antifungals increases.

Marine-derived Acremonium strain prioritization using untargeted metabolomics approach for the identification of cytotoxic cyclic depsipeptides

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Researchers discovered five potent anti-cancer compounds from Arctic fungi called Acremonium strains. Using advanced chemical analysis techniques, they identified and tested these cyclic depsipeptides against various cancer cell types. The most active compound showed promising results against breast cancer and melanoma cells with extremely low concentrations needed for effect. These findings suggest Arctic microorganisms could be valuable sources for developing new cancer treatments.

Revealing the metabolic potential and environmental adaptation of nematophagous fungus, Purpureocillium lilacinum, derived from hadal sediment

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Scientists discovered a special fungus living in the deepest part of the ocean (Mariana Trench) that can survive extreme pressure and produce compounds with disease-fighting properties. This fungus, Purpureocillium lilacinum, showed promise against bacteria, cancer cells, and parasitic worms. The research revealed how this fungus adapts to survive in one of Earth’s most extreme environments, potentially opening new sources for developing medicines and biological pest control.

Isolation, Characterization, and Wound-Healing Potential of β-D-Glucan from Lycoperdon pyriforme Schaeff

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Researchers isolated and studied a compound called β-D-glucan from puffball mushrooms (Lycoperdon pyriforme) that have been traditionally used to heal wounds and stop bleeding. Laboratory tests showed this compound safely promotes the movement and growth of skin cells that help wounds close without harming red blood cells, and it actually helps blood clot faster. These findings support the traditional use of this mushroom and suggest it could be developed into a new natural wound-healing treatment.

Bioactive Properties of Selected European Phellinus Species: A Comprehensive Study

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This research examined 30 samples of medicinal mushrooms from the Phellinus genus collected across Europe, including Poland, Italy, Portugal, Kosovo, and North Macedonia. Scientists found that three species—Phellinus igniarius, Fomitiporia robusta, and Porodaedalea pini—are particularly rich in beneficial compounds, especially polysaccharides and antioxidants. These mushroom extracts showed impressive abilities to fight antibiotic-resistant bacteria and protect cells from oxidative damage, suggesting they could become valuable sources for new medicines and functional foods.

Diversity and bioprospecting activities of endophytic Fungi associated with different Egyptian medicinal plants

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Scientists studied fungi that live inside Egyptian medicinal plants and found that one type called Aspergillus terreus produces compounds with powerful healing properties. These compounds can fight harmful bacteria, reduce oxidative damage, and even kill cancer cells while being safe for normal cells. This discovery suggests that fungi living in medicinal plants could be valuable sources of new medicines, offering hope for developing new treatments for infections and cancer.

Research Keyword: cytotoxicity