lipid metabolism – Page 2

Inonotus hispidus Protects against Hyperlipidemia by Inhibiting Oxidative Stress and Inflammation through Nrf2/NF-κB Signaling in High Fat Diet Fed Mice

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Inonotus hispidus is an edible mushroom that may help treat obesity and high cholesterol by reducing fat levels and inflammation in the body. In mice fed a high-fat diet, the mushroom improved cholesterol profiles, reduced liver damage, and promoted beneficial gut bacteria. The beneficial effects appear to work through activating the body’s natural antioxidant defenses and reducing inflammation-causing proteins.

Molecular Mechanisms of Pathogenic Fungal Virulence Regulation by Cell Membrane Phospholipids

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This review explains how the fats that make up fungal cell membranes directly influence how dangerous fungi become to humans. Different types of membrane fats help fungi change shape to invade tissues, survive stress in the body, and hide from immune cells. By understanding these processes, scientists can develop new ways to fight fungal infections by targeting the membrane components that fungi depend on for survival.

Impacts of selenium enrichment on nutritive value and obesity prevention of Cordyceps militaris: A nutritional, secondary metabolite, and network pharmacological analysis

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Researchers studied how adding selenium to Cordyceps militaris mushrooms affects their nutritional value and ability to prevent obesity. They found that selenium enrichment increased the mushroom’s carbohydrates and fiber content, and enhanced beneficial compounds like terpenoids and alkaloids. In mice fed a high-fat diet, both regular and selenium-enriched Cordyceps militaris reduced weight gain and improved metabolic health equally well. The study suggests these mushrooms work against obesity by using multiple active compounds that target different biological pathways simultaneously.

Isolation, purification, and structural elucidation of Stropharia rugosoannulata polysaccharides with hypolipidemic effect

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Scientists extracted and studied a polysaccharide from wine cap mushrooms that shows promise for lowering cholesterol and protecting the liver. The compound, called SRF-3, has a complex sugar structure and works by binding to cholesterol and bile acids, helping the body eliminate them. Testing in laboratory conditions showed it has strong antioxidant properties and can reduce fat accumulation in liver cells, suggesting potential use as a natural supplement for managing high cholesterol.

Oo-No: Ophidiomyces ophidiicola-bacterial interactions and the role of skin lipids in development of ophidiomycosis

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A fungal disease called ophidiomycosis is spreading among wild snakes around the world. This disease is caused by a fungus that interacts with the natural bacteria living on snake skin and with oils naturally produced by the skin. Certain helpful bacteria on snake skin can fight off the fungus by producing special compounds, but when the fungus takes over, it damages these protective bacteria, leading to worse infection. Understanding these interactions could help develop new ways to protect snakes from this emerging disease.

Insights into the special physiology of Mortierella alpina cultured by agar supported solid state fermentation in enhancing arachidonic acid enriched lipid production

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Researchers developed a new eco-friendly method to produce arachidonic acid (ARA), an important nutrient used in supplements, pharmaceuticals, and baby formula. Using a solid fermentation technique with the fungus Mortierella alpina, they achieved 1.6 times higher yields compared to traditional methods while reducing wastewater. By understanding how the fungus grows in different conditions and optimizing nutrients, they created a more sustainable and efficient production process.

Flammulina velutipes stem regulates oxidative damage and synthesis of yolk precursors in aging laying hens by regulating the liver–blood–ovary axis

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This study shows that adding golden needle mushroom stems to the feed of aging laying hens improves egg production by reducing oxidative damage and boosting reproductive hormones. The mushroom stem, normally a waste product, works through a liver-ovary signaling pathway to enhance the production of yolk-building proteins and improve the quality and number of developing eggs. The treatment was particularly effective at doses of 4-6% supplementation and also had beneficial side effects like reducing abdominal fat and improving eggshell thickness.

Human Gut Microbiome: A Connecting Organ Between Nutrition, Metabolism, and Health

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Your gut bacteria function like an extra organ, helping digest food and producing important compounds that affect your whole body. The type of bacteria in your gut depends on diet, delivery method at birth, and antibiotics you’ve taken. Eating more fiber and taking certain probiotics can improve your bacterial balance and help prevent diseases like diabetes, obesity, and heart problems. This suggests that managing your gut microbiome through diet might be just as important as taking traditional medicines for staying healthy.

Hypoglycemic Effect of Pleurotus citrinopileatus and Hericium erinaceus Buccal Tablets on Diabetic Mice

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Researchers created special tablets from two edible mushrooms (yellow oyster mushroom and lion’s mane) enriched with trace elements (chromium, zinc, germanium) to treat diabetes in mice. After three weeks of treatment, the high-dose tablets reduced blood sugar levels by 29%, improved cholesterol levels, boosted the body’s natural antioxidant defenses, and shifted the gut bacteria toward beneficial types that support metabolic health. These results suggest that mushroom-based treatments could potentially offer a natural way to help manage diabetes.

Fungal Δ9-fatty acid desaturase: a unique enzyme at the core of lipid metabolism in Aspergillus fumigatus and a promising target for the search for antifungal strategies

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Certain dangerous fungal infections like aspergillosis are difficult to treat because current antifungal drugs have significant side effects or the fungi are developing resistance. Scientists have discovered that a specific enzyme called Δ9-fatty acid desaturase, which fungi need to make fats for their cell membranes, has a unique structure different from human cells. This structural difference offers a new opportunity to design antifungal drugs that could kill fungi without harming human cells, potentially providing safer and more effective treatments for serious fungal infections.

Research Keyword: lipid metabolism