On the other hand, there is another important link of biliary lip

On the other hand, there is another important link of biliary lipid degradation to serious biliary disease, namely pancreaticobiliary maljunction. Lysophosphatidylcholine (lysoPC), a derivative

of phosphatidylcholine hydrolysis by phospholipase A2, is a highly abundant bioactive lipid mediator present in circulation as well as in bile. Increases in bile of lysoPC and phospholipase A2 have been reported in pancreaticobiliary maljunction and considered to be the Angiogenesis inhibitor major risk factor for biliary tract cancers. Further, oxidized fatty acids have been established as a potent ligand for G2A, a member of G protein-coupled receptor family that mediates a diverse array of biological processes including cell growth and apoptosis. Thus, both

of lysoPC and free fatty acids are supposed to play an important role through G2A in biliary inflammation and carcinogenesis of pancreaticobiliary maljunction. Taken together, nutritional factors, especially lipid compounds, are seemingly crucial in the pathogenesis of biliary diseases, and such a causal relationship is reviewed by mainly authors’ previous publications. Epidemiologically, the prevalence of gallstone diseases is known to increase in Western countries including Japan, and biliary stones, common and intrahepatic bile duct stones, are relatively popular in Asia.[1] Gallstones are primarily classified into cholesterol stone and pigment stone according to the major composition. Cholesterol gallstone formation is very likely based upon supersaturated bile formation, Selleck ALK inhibitor and pigment stones are formed in bile rich in bilirubin. Thus, defects of hepatic metabolism of lipids and organic anions lead to biliary stones. Here, cholesterol gallstone pathogenesis and clinical implication is mainly

reviewed. Cholesterol is an insoluble molecule that is critical for cellular structure and function. Homeostasis of this compound is kept by biliary elimination from the liver, where it is catabolized to bile salts for a regulation of pool size. Under physiological circumstances, cholesterol in bile is in a physicochemically stabilized by forming learn more bile salt micelles. However, once defects in such a metabolic regulation occur, bile cholesterol becomes metastable to induce cholesterol crystal nucleation as an initial step for gallstone formation. In general, the sequence of gallstone formation and clinical implication is to be in a step-by-step manner: genetics, defects of biliary lipid metabolism, cholesterol nucleation and crystal growth to macroscopic stone formation, and finally clinical symptoms (Fig. 1). Thus, such processes are summarized into two major steps: (i) metabolic abnormalities in the hepatobiliary system and (ii) physical-chemical events in the gallbladder.[2] Lithogenic bile is formed by excess secretion of cholesterol from the liver into bile. Hypersecretion of cholesterol is particularly pronounced in obese people in association with a high prevalence of cholesterol gallstones.

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