Short-chain fatty acids stimulate leptin production in adipocytes through the G protein-coupled receptor GPR41
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Cholesterol-lowering probiotics as potential biotherapeutics for metabolic diseasesIs there a fatty acid taste?Mucosal Interactions between Genetics, Diet, and Microbiome in Inflammatory Bowel DiseaseDietary metabolites and the gut microbiota: an alternative approach to control inflammatory and autoimmune diseasesModulatory Effects of Gut Microbiota on the Central Nervous System: How Gut Could Play a Role in Neuropsychiatric Health and DiseasesThe Intestinal Microbiota in Metabolic DiseaseDiet, Microbiota, Obesity, and NAFLD: A Dangerous QuartetRecent advances in gut nutrient chemosensingRegulation of Energy Homeostasis by GPR41Mechanisms of gene regulation by fatty acidsG(i)-coupled GPCR signaling controls the formation and organization of human pluripotent coloniesHow gut microbes talk to organs: The role of endocrine and nervous routesMetabiotics: One Step ahead of Probiotics; an Insight into Mechanisms Involved in Anticancerous Effect in Colorectal CancerGut microbiota-derived short-chain Fatty acids, T cells, and inflammationMinireview: Gut microbiota: the neglected endocrine organThe relationship between high-fat dairy consumption and obesity, cardiovascular, and metabolic diseaseThe Role of the Microbial Metabolites Including Tryptophan Catabolites and Short Chain Fatty Acids in the Pathophysiology of Immune-Inflammatory and Neuroimmune DiseaseEffect of Lactobacillus rhamnosus CGMCC1.3724 supplementation on weight loss and maintenance in obese men and womenShort-chain fatty acid receptor GPR41-mediated activation of sympathetic neurons involves synapsin 2b phosphorylationShort-chain fatty acids and ketones directly regulate sympathetic nervous system via G protein-coupled receptor 41 (GPR41)A rosemary extract rich in carnosic acid selectively modulates caecum microbiota and inhibits β-glucosidase activity, altering fiber and short chain fatty acids fecal excretion in lean and obese female ratsHuman gut microbiota and healthy aging: Recent developments and future prospectiveThe effects of propionate and valerate on insulin responsiveness for glucose uptake in 3T3-L1 adipocytes and C2C12 myotubes via G protein-coupled receptor 41Short-chain fatty acids stimulate glucagon-like peptide-1 secretion via the G-protein-coupled receptor FFAR2Free fatty acids inhibit serum deprivation-induced apoptosis through GPR120 in a murine enteroendocrine cell line STC-1Butyrate and propionate protect against diet-induced obesity and regulate gut hormones via free fatty acid receptor 3-independent mechanismsGut Microbiota Modulation and Its Relationship with Obesity Using Prebiotic Fibers and Probiotics: A ReviewThe Concise Guide to PHARMACOLOGY 2013/14: G protein-coupled receptorsRole of Gut Microbiota and Short Chain Fatty Acids in Modulating Energy Harvest and Fat Partitioning in Youth.Identification of the porcine G protein-coupled receptor 41 and 43 genes and their expression pattern in different tissues and development stages.Regulation of bacterial pathogenesis by intestinal short-chain Fatty acids.Functional divergence in gastrointestinal microbiota in physically-separated genetically identical miceRedundant control of adipogenesis by histone deacetylases 1 and 2Dexamethasone and acetate modulate cytoplasmic leptin in bovine preadipocytes.Lipid receptors and islet function: therapeutic implications?Evidence for the gut microbiota short-chain fatty acids as key pathophysiological molecules improving diabetes.Metabolic tinkering by the gut microbiome: Implications for brain development and functionPerspectives on the therapeutic potential of short-chain fatty acid receptorsButyrate increases intracellular calcium levels and enhances growth hormone release from rat anterior pituitary cells via the G-protein-coupled receptors GPR41 and 43The role of short-chain fatty acids in the interplay between diet, gut microbiota, and host energy metabolism.
P2860
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P2860
Short-chain fatty acids stimulate leptin production in adipocytes through the G protein-coupled receptor GPR41
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@ast
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en-gb
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@nl
type
label
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@ast
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en-gb
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@nl
prefLabel
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@ast
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en-gb
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@nl
P2093
P2860
P921
P3181
P356
P1476
Short-chain fatty acids stimul ...... protein-coupled receptor GPR41
@en
P2093
Kenji Shibata
Mark A Valasek
Masashi Yanagisawa
Norimasa Miyamoto
Rafal M Kedzierski
Toshiyuki Motoike
Yumei Xiong
P2860
P304
P3181
P356
10.1073/PNAS.2637002100
P407
P577
2004-01-27T00:00:00Z