Research Topic: diabetes

Fermented Rice Bran: A Promising Therapeutic Agent Against High-Fat Diet-Induced Metabolic Disorders

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Fermented rice bran, created by fermenting rice byproduct with beneficial bacteria, shows promise in helping manage weight and blood sugar levels in studies using rats on high-fat diets. The fermentation process increases the nutritional value of rice bran by boosting protein, fiber, and antioxidant content. Animals supplemented with fermented rice bran for 8 weeks showed improved cognitive function, better liver health, and improved lipid profiles compared to those on high-fat diets alone.

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Hypoglycemic Effect of Edible Fungi Polysaccharides Depends on Their Metabolites from the Fermentation of Human Fecal Microbiota

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Edible mushrooms like Ganoderma lucidum, cordyceps, shiitake, and poria contain beneficial compounds called polysaccharides that may help control blood sugar. When these polysaccharides are digested by beneficial gut bacteria, they produce eight special metabolites that enhance the body’s ability to use glucose and improve insulin sensitivity. The research identified specific bacteria, such as Faecalibacterium and Coprococcus, that produce these beneficial metabolites, suggesting that measuring these markers could help evaluate which mushroom polysaccharides work best for diabetes prevention.

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The Impact of Psilocybin on High Glucose/Lipid-Induced Changes in INS-1 Cell Viability and Dedifferentiation

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Researchers tested whether psilocybin, a compound from magic mushrooms, could protect pancreatic β-cells (which produce insulin) from damage caused by high glucose and fat levels. Using laboratory cells, they found that psilocybin reduced β-cell death by preventing apoptosis and showed promise in reducing dedifferentiation (when cells lose their specialized functions). However, psilocybin didn’t restore the cells’ ability to respond to glucose by releasing insulin.

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Polyphenolic Hispolon Derived from Medicinal Mushrooms of the Inonotus and Phellinus Genera Promotes Wound Healing in Hyperglycemia-Induced Impairments

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Researchers tested a natural compound called hispolon, extracted from medicinal mushrooms, to see if it could help heal wounds in diabetic patients. Using both laboratory cells and diabetic rats, they found that hispolon successfully reduced cell damage caused by high blood sugar, improved wound closure, and promoted healthy tissue growth. The compound worked as well as an existing diabetic wound cream and showed no harmful side effects, suggesting it could become a new natural treatment option for diabetic wound complications.

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Reprogramming astrocytic NDRG2/NF-κB/C3 signaling restores the diabetes-associated cognitive dysfunction

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This study found that regular exercise helps protect the brain of diabetic people from cognitive decline by boosting a protein called NDRG2 in astrocytes (brain support cells). The research shows that NDRG2 works by blocking harmful immune responses that damage synapses (connections between brain cells). In diabetic mice, exercise improved memory and learning ability while increasing NDRG2 levels, while blocking this protein reversed these benefits.

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