Gallstone(GS)disease is common and arises from a combination of genetic and environmental factors.Although genetic abnormalities specifically leading to cholesterol GSs are rare,there are clinically significant gene v...Gallstone(GS)disease is common and arises from a combination of genetic and environmental factors.Although genetic abnormalities specifically leading to cholesterol GSs are rare,there are clinically significant gene variants associated with cholesterol GSs.In contrast,most bilirubin GSs can be attributed to genetic defects.The pathogenesis of cholesterol and bilirubin GSs differs greatly.Cholesterol GSs are notably influenced by genetic variants within the ABC protein superfamily,including ABCG8,ABCG5,ABCB4,and ABCB11,as well as genes from the apolipoprotein family such as ApoB100 and ApoE(especially the E3/E3 and E3/E4 variants),and members of the MUC family.Conversely,bilirubin GSs are associated with genetic variants in highly expressed hepatic genes,notably UGT1A1,ABCC2(MRP2),ABCC3(MRP3),CFTR,and MUC,alongside genetic defects linked to hemolytic anemias and conditions impacting erythropoiesis.While genetic cases constitute a small portion of GS disease,recognizing genetic predisposition is essential for proper diagnosis,treatment,and genetic counseling.展开更多
文摘Gallstone(GS)disease is common and arises from a combination of genetic and environmental factors.Although genetic abnormalities specifically leading to cholesterol GSs are rare,there are clinically significant gene variants associated with cholesterol GSs.In contrast,most bilirubin GSs can be attributed to genetic defects.The pathogenesis of cholesterol and bilirubin GSs differs greatly.Cholesterol GSs are notably influenced by genetic variants within the ABC protein superfamily,including ABCG8,ABCG5,ABCB4,and ABCB11,as well as genes from the apolipoprotein family such as ApoB100 and ApoE(especially the E3/E3 and E3/E4 variants),and members of the MUC family.Conversely,bilirubin GSs are associated with genetic variants in highly expressed hepatic genes,notably UGT1A1,ABCC2(MRP2),ABCC3(MRP3),CFTR,and MUC,alongside genetic defects linked to hemolytic anemias and conditions impacting erythropoiesis.While genetic cases constitute a small portion of GS disease,recognizing genetic predisposition is essential for proper diagnosis,treatment,and genetic counseling.
