肝内胆管缺失的病理生理学研究进展*

doi:10.3969/j.issn.1672-5069.2019.05.004

Abstract

Cai Meihong, Wang Qixia, Ma Xiong. Pathophysiology of hepatic ductopenia[J]. Journal of Practical Hepatology, 2019, 22(5): 620-623.

[1] Ludwig J,Wiesner RH,LaRusso NF. Idiopathic adulthood ductopenia. A cause of chronic cholestatic liver disease and biliary cirrhosis. J Hepatol,1988,7(2):193-199.
[2] Björnsson ES,Jonasson JG. Idiosyncratic drug-induced liver injury associated with bile duct loss and vanishing bile duct syndrome:Rare but has severe consequences. Hepatology,2017,65(4):1091-1093.
[3] Nakanuma Y,Tsuneyama K,Harada K.Pathology and pathogenesis of intrahepatic bile duct loss. J Hepatobiliary Pancreat Surg,2001,8(4):303-315.
[4] Glaser S,Wang M,Ueno Y,et al.Differential transcriptional characteristics of small and large biliary epithelial cells derived from small and large bile ducts. Am J Physiol Gastrointest Liver Physiol,2010,299(3):G769-777.
[5] Cheung AC,Lorenzo Pisarello MJ,LaRusso NF. Pathobiology of biliary epithelia. Biochim Biophys Acta Mol Basis Dis,2018
1864(4 Pt B):1220-1231.
[6] Alpini G,Glaser S,Robertson W,et al.Bile acids stimulate proliferative and secretory events in large but not small cholangiocytes. Am J Physiol,1997,273(2 Pt 1):G518-529.
[7] Alpini G,Baiocchi L,Glaser S,et al.Ursodeoxycholate and tauroursodeoxycholate inhibit cholangiocyte growth and secretion of BDL rats through activation of PKC alpha. Hepatology,2002,35(5):1041-1052.
[8] Li T,Francl JM,Boehme S,et al.Regulation of cholesterol and bile acid homeostasis by the cholesterol 7α-hydroxylase/steroid response element-binding protein 2/microRNA-33a axis in mice. Hepatology,2013,58(3):1111-1121.
[9] de Aguiar Vallim TQ,Tarling EJ,Kim T,et al. MicroRNA-144 regulates hepatic ATP binding cassette transporter A1 and plasma high-density lipoprotein after activation of the nuclear receptor farnesoid X receptor. Circ Res,2013,112(12):1602-1612.
[10] Gong AY,Zhou R,Hu G,et al.MicroRNA-513 regulates B7-H1 translation and is involved in IFN-gamma-induced B7-H1 expression in cholangiocytes. J Immunol,2009,182(3):1325-1333.
[11] Song KH,Li T,Owsley E,et al.A putative role of micro RNA in regulation of cholesterol 7alpha-hydroxylase expression in human hepatocytes. J Lipid Res,2010,51(8):2223-2233.
[12] Desmet VJ.Ludwig symposium on biliary disorders-part I. Pathogenesis of ductal plate abnormalities. Mayo Clin Proc,1998,73(1):80-99.
[13] Tabibian JH,O'Hara SP,Splinter PL,et al. Cholangiocyte senescence by way of N-ras activation is a characteristic of primary sclerosing cholangitis. Hepatology,2014,59(6):2263-2275.
[14] Campisi J,d'Adda di Fagagna F. Cellular senescence:when bad things happen to good cells. Nat Rev Mol Cell Biol,2007,8(9):729-740.
[15] Harada K,Iwata M,Kono N,et al.Distribution of apoptotic cells and expression of apoptosis-related proteins along the intrahepatic biliary tree in normal and non-biliary diseased liver. Histopathology,2000,37(4):347-354.
[16] Bhathal PS,Gall JA.Deletion of hyperplastic biliary epithelial cells by apoptosis following removal of the proliferative stimulus. Liver,1985,5(6):311-325.
[17] Lazaridis KN,LaRusso NF. The cholangiopathies. Mayo Clin Proc,2015,90(6):791-800.
[18] Hirschfield GM,Liu X,Xu C,et al.Primary biliary cirrhosis associated with HLA,IL12A,and IL12RB2 variants. N Engl J Med,2009,360(24):2544-2555.
[19] Juran BD,Hirschfield GM,Invernizzi P,et al.Immunochip analyses identify a novel risk locus for primary biliary cirrhosis at 13q14,multiple independent associations at four established risk loci and epistasis between 1p31 and 7q32 risk variants. Hum Mol Genet,2012,21(23):5209-5221.
[20] Kar SP,Seldin MF,Chen W,et al.Pathway-based analysis of primary biliary cirrhosis genome-wide association studies. Genes Immun,2013,14(3):179-186.
[21] Ronca V,Carbone M,Bernuzzi F,et al.From pathogenesis to novel therapies in the treatment of primary biliary cholangitis. Expert Rev Clin Immunol,2017,13(12):1121-1131.
[22] Migliaccio C,Van de Water J,Ansari AA,et al. Heterogeneous response of antimitochondrial autoantibodies and bile duct apical staining monoclonal antibodies to pyruvate dehydrogenase complex E2:the molecule versus the mimic. Hepatology,2001,33(4):792-801.
[23] Van de Water J,Ansari A,Prindiville T,et al. Heterogeneity of autoreactive T cell clones specific for the E2 component of the pyruvate dehydrogenase complex in primary biliary cirrhosis. J Exp Med,1995,181(2):723-733.
[24] Shimoda S,Nakamura M,Ishibashi H,et al. HLA DRB40101-restricted immunodominant T cell autoepitope of pyruvate dehydrogenase complex in primary biliary cirrhosis:evidence of molecular mimicry in human autoimmune diseases. J Exp Med,1995,181(5):1835-1845.
[25] Kita H,Naidenko OV,Kronenberg M,et al.Quantitation and phenotypic analysis of natural killer T cells in primary biliary cirrhosis using a human CD1d tetramer. Gastroenterology,2002,123(4):1031-1043.
[26] Kita H,Naidenko OV,Kronenberg M,et al.Quantitation and phenotypic analysis of natural killer T cells in primary biliary cirrhosis using a human CD1d tetramer. Gastroenterology,2002,123(4):1031-1043.
[27] Czaja AJ,Carpenter HA,Santrach PJ,et al.Autoimmune cholangitis within the spectrum of autoimmune liver disease. Hepatology,2000,31(6):1231-1238.
[28] FeldmanM,FriedmanLS,BrandtLJ. Sleisenger and Fordtran's gastrointestinal and liver disease. 10th ed. Philadelphia:Saunder,2016:1512-1523.e1513.
[29] Campos S,Gomes D,Cipriano MA,et al.The clinical extremes of autoimmune cholangitis. Rev Esp Enferm Dig,2017,109(6):465-468.
[30] Chascsa DM,Lindor KD.Antimitochondrial antibody-negative primary biliary cholangitis:Is it really the same disease Clin Liver Dis,2018,22(3):589-601.
[31] Casali AM,Carbone G,Cavalli G.Intrahepatic bile duct loss in primary sclerosing cholangitis:a quantitative study. Histopathology,1998,32(5):449-453.
[32] Gidwaney NG,Pawa S,Das KM.Pathogenesis and clinical spectrum of primary sclerosing cholangitis. World J Gastroenterol,2017,23(14):2459-2469.
[33] Grant AJ,Lalor PF,Salmi M,et al.Homing of mucosal lymphocytes to the liver in the pathogenesis of hepatic complications of inflammatory bowel disease. Lancet,2002,359(9301):150-157.
[34] Farouj NE,Cadranel JF,Mofredj A,et al.Ductopenia related liver sarcoidosis. World J Hepatol,2011,3(6):170-174.
[35] Ferrara JL,Levine JE,Reddy P,et al.Graft-versus-host disease. Lancet,2009,373(9674):1550-1561.
[36] Alexander J,Chu W,Swanson PE,et al.The significance of plasma cell infiltrate in acute cellular rejection of liver allografts. Hum Pathol, 012,43(10):1645-1650.
[37] Ueno T,Hiwatashi S,Saka R,et al.Everolimus rescue treatment for chronic rejection after pediatric living donor liver transplantation: 2 case reports. Transplant Proc,2018,50(9):2872-2876.
[38] Choudhary NS,Saigal S,Bansal RK,et al.Acute and chronic rejection after liver transplantation:What a clinician needs to know. J Clin Exp Hepatol,2017,7(4):358-366.

Pathophysiology of hepatic ductopenia

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	Xu Fei, Li Weirong.. Protective effects of astragaloside in rats with CCL₄-induced liver injuries [J]. Journal of Practical Hepatology, 2019, 22(6): 808-811.
[2]	Zhang Xiaosan, Zhang Yiming, Yang Shujun, et al.. Impact of miR-21 on proliferation and apoptosis in HepG2 cells in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2019, 22(1): 21-24.
[3]	Jiang Zhe, Shu Min, Wang Yuanyuan, et al.. Influence of miR-363 on the proliferation and apoptosis of HepG2 cells by targeting E2F3 in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2018, 21(6): 825-828.
[4]	Ou Zhitao, Zhan Yuanjing, Guo Jiawei, et al. Effect of CIAPIN1 on proliferation and cell cycle of HegG2 cells in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2018, 21(1): 38-41.
[5]	Deng Yilin, Yu Heguo, Shi Min, et al.. Suppression of TNF-α and JNK-related pro-apoptotic signaling expression of oridonin in mice with LPS/D-Gal-induced acute liver failure [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2017, 20(4): 397-401.
[6]	Song Jinyue, Ren Feng, Zhang Huanhu.. Necroptosis and its role in hepatitis and other liver diseases [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2016, 19(5): 616-619.
[7]	Zhai Song, Sun Mingzhu, Wang Wenjun, et al. Effect of prohibitin over-expression on proliferation and apoptosis of human hepatocellular carcinoma cell line HepG2 cells [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2016, 19(4): 408-412.
[8]	Cui Dan,Yang Baoshan. Role of Nrf2 in the regulation of hepatocyte apoptosis [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2016, 19(3): 365-368.
[9]	Wang Lei, Li Xiaotian, Zhang Li, et al. Inhibitory and apoptotic effect of LY 294002in combination with 1,25-dihydroxyvitamin D3 on HSC T6 cells in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2016, 19(2): 147-150.
[10]	Wang Jun，Li Guangming，Tong Yanyan，et al.. Mechanism of 12-4-Y，a novel isoquinoline compound， on apoptosis of activated hepatic stellate cells in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2015, 18(4): 344-347.
[11]	Xue Yuan, Han Yue, Zhang Xinxin. Toll-like receptors in pathogenesis of liver failure [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2014, 17(6): 665-669.
[12]	Wang Huihui, Zhang Feng, Shen Shanshan. Effects of Rac1 on epithelial-mesenchymal transition,and proliferation and apoptosis of L02 cells in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2014, 17(5): 523-527.
[13]	Dai Xuefeng, Ma Yong, Xu Changjiang. Expression of Fas and Fas ligand in liver tissues from chronic asymptomatic hepatitis B virus carriers [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2014, 17(1): 51-54.
[14]	Peng Meijuan, Hao Chunqiu, Zhang Ye, et al.. Observation of inhibition of connective tissue growth factor by siRNA on the changes of proliferation and activation of hepatic stellate cells in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2012, 15(5): 430-433.
[15]	Liang Huimin, Shi Xiaoyan, He Zhengkun et al.. Inhibition of apoptosis of HepG-2 cells by bacalin in vitro [J]. JOURNAL OF PRACTICAL HEPATOLOGY, 2012, 15(4): 343-345.