anti-inflammatory effects – Page 13

Modulating effects of Phellinus linteus polysaccharides on antioxidant capacity, immune function, intestinal function and microbiota in lipopolysaccharide-challenged broilers

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Researchers studied how a medicinal mushroom extract called Phellinus linteus polysaccharides could help broiler chickens recover from immune stress caused by bacterial toxins. The supplement improved the chickens’ growth, reduced harmful inflammatory responses, and promoted beneficial gut bacteria while reducing harmful ones. The treatment strengthened the intestinal barrier and restored the chickens’ natural antioxidant defenses. This suggests the mushroom supplement could be a natural alternative to antibiotics for improving poultry health on farms.

The progress of the microbe-gut-brain axis in sepsis-associated encephalopathy

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Sepsis can cause brain dysfunction called sepsis-associated encephalopathy, leading to memory problems and confusion in about one-third to two-thirds of sepsis patients. The bacteria in your gut communicate with your brain through multiple pathways, and when sepsis disrupts this communication, it causes harmful inflammation in the brain. Treatments like probiotics and transplanting healthy gut bacteria from donors show promise in animal studies and early human trials for improving memory and cognitive function after sepsis.

Corrigendum: Compounds purified from edible fungi fight against chronic inflammation through oxidative stress regulation

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This article is a correction to a previous study about beneficial compounds found in edible mushrooms. The study examined how various mushroom-derived substances like polysaccharides and peptides can combat chronic inflammation by reducing oxidative stress in the body. Multiple mushroom species were analyzed for their antioxidant properties and mechanisms of action. The corrections ensure proper citation of the original research sources while maintaining the core scientific findings.

Mushrooms Do Produce Flavonoids: Metabolite Profiling and Transcriptome Analysis of Flavonoid Synthesis in the Medicinal Mushroom Sanghuangporus baumii

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Researchers discovered that the medicinal mushroom Sanghuangporus baumii produces 81 different flavonoids, compounds known for their health benefits including antioxidant and anti-cancer properties. Using advanced genetic and chemical analysis, they identified the genes and processes responsible for this flavonoid production in mushrooms, which differs from how plants make these compounds. By increasing the activity of a key gene called PAL, they were able to boost flavonoid production in the mushroom. This discovery opens new possibilities for using mushrooms as biological factories to produce flavonoids for medical and nutritional applications.

Natural Products in Renal-Associated Drug Discovery

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This research examines how natural products like green tea and medicinal mushrooms can help treat kidney diseases. Scientists reviewed various plants used in traditional medicine and analyzed how compounds from these plants affect gene expression in kidney cells. The study identified specific genes and biological pathways that explain how these natural antioxidants and anti-inflammatory agents protect kidneys from injury and disease.

A concise review of mushrooms antiviral and immunomodulatory properties that may combat against COVID-19

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This review explores how medicinal mushrooms have compounds that could help fight COVID-19 and boost immune function. Various mushroom species contain natural substances like beta-glucans and polysaccharides that have shown antiviral properties and can strengthen the body’s immune response. The research suggests these mushrooms could potentially be used alongside conventional treatments to help patients recover from COVID-19 more effectively.

Molecular Identification, Mycelial Growth Kinetics, and Antimicrobial Potential of Newly Isolated Medicinal Mushroom Fomitopsis pinicola from Bulgaria

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Scientists isolated and studied a medicinal mushroom called Fomitopsis pinicola from Bulgaria. They confirmed its identity using DNA analysis and tested how well it grows on different nutrient media. The mushroom showed strong antimicrobial effects against disease-causing bacteria, especially when extracted with water, making it a promising candidate for developing new antibiotics to fight antibiotic-resistant infections.

Encapsulation of progesterone in reishi mushroom composite for optimized hormone replacement and targeted anticancer therapy

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Researchers created a new treatment by combining progesterone (a hormone) with reishi mushroom powder to make it work better in the body. The mushroom acts like a protective wrapper that slowly releases the hormone, making it more effective for treating menopausal symptoms and fighting breast cancer cells. The combination also fights harmful bacteria and fungi while remaining stable during storage. This approach combines traditional medicine with modern pharmaceutical science.

A Chromosome-Scale Genome of Trametes versicolor and Transcriptome-Based Screening for Light-Induced Genes That Promote Triterpene Biosynthesis

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Scientists created a detailed map of the Trametes versicolor mushroom’s genetic code using advanced sequencing technologies. This medicinal mushroom is known for cancer-fighting and immune-boosting properties. The research discovered that light exposure increases the production of beneficial compounds called triterpenes, which may explain how this mushroom’s medicinal qualities work and could help scientists grow it more effectively.

Mitigation of radiation-induced esophageal fibrosis by macrophage-targeted phosphatidylserine-containing liposomes with partial PEGylation

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Radiation therapy used to treat esophageal cancer often causes scarring and tissue damage that makes swallowing difficult. Researchers developed special fatty particles called PEGylated phosphatidylserine-containing liposomes that can reduce this scarring by calming down immune cells called macrophages. In studies using animal models and laboratory tests, these particles successfully reduced fibrosis, preserved normal tissue structure, and promoted muscle healing, offering hope for better management of radiation therapy side effects.

therapeutic action: anti-inflammatory effects