therapeutic action: immune activation

Decursin, Identified via High-Throughput Chemical Screening, Enhances Plant Disease Resistance via Two Independent Mechanisms

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Researchers identified a natural compound called decursin from angelica plants that helps plants fight off dangerous fungal infections in two ways: it strengthens the plant’s own immune system and directly kills the fungal pathogens. This dual-action approach makes decursin a promising natural alternative to synthetic fungicides for protecting crops like wheat and tomatoes from diseases. The compound shows particular promise because it comes from plants, breaks down easily in the environment, and is more effective than other natural antimicrobial compounds currently used in agriculture.

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The Anticancer Potential of Edible Mushrooms: A Review of Selected Species from Roztocze, Poland

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This review examines edible mushrooms found in Poland’s Roztocze region for their potential to fight cancer. These mushrooms contain natural compounds like polysaccharides and proteins that can kill cancer cells in laboratory studies through various mechanisms, including triggering cell death and boosting immune function. While promising, these findings from laboratory and animal studies need further development before becoming clinical treatments.

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Can Ganoderma Triterpenoids Exert Immunogenic Cell Death in Human Cancer Cells? A Systematic Review and Protein Network Analysis

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This review examines whether compounds from medicinal mushrooms called Ganoderma can help the body’s immune system fight cancer more effectively. Researchers analyzed 69 scientific studies and found that Ganoderma compounds cause cancer cells to die and trigger immune-activating signals. While these results are promising, more experiments are needed to prove whether these mushroom compounds actually activate the specific immune pathways required for long-term cancer control.

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Immunomodulatory function of chitosan is dependent on complement receptor 3

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This study reveals how the human immune system recognizes chitosan, a natural component found in the walls of disease-causing fungi like Aspergillus and Cryptococcus. Researchers discovered that immune cells use a protein called CR3 on their surface to detect and respond to chitosan by producing inflammatory chemicals that help fight infection. When chitosan works together with fungal proteins, it can boost the immune system’s response even more effectively, suggesting new ways to enhance immunity against fungal infections.

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Tailoring mRNA lipid nanoparticles for antifungal vaccines

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Researchers are exploring mRNA vaccines, similar to those used for COVID-19, as a new approach to prevent fungal infections. These vaccines use fatty particles called lipid nanoparticles to deliver instructions to cells on how to make fungal proteins, triggering an immune response. The review discusses how to optimize these vaccines, what challenges need to be overcome, and why they might be especially useful for people with weakened immune systems who are most vulnerable to serious fungal infections.

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