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• W1982138002 abstract "HepatologyVolume 1, Issue 2 p. 187-191 EditorialFree Access Cholestasis: The future of a past and present riddle Hans Popper M.D., PhD., Hans Popper M.D., PhD. Stratton Laboratory for the Study, of Liver Diseases, Mount Sinai School of Medicine, of the City University of New York, New York, New York 10029Search for more papers by this author Hans Popper M.D., PhD., Hans Popper M.D., PhD. Stratton Laboratory for the Study, of Liver Diseases, Mount Sinai School of Medicine, of the City University of New York, New York, New York 10029Search for more papers by this author First published: March/April 1981 https://doi.org/10.1002/hep.1840010217Citations: 23AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Eppinger H. Beitraege zur normalen und pathologischen Histologie der menschlichen Gallencapillaren mit besonderer Beruecksichtigung der Pathogenese des Ikterus. Beitr Pathol Anat 1902; 31: 230–293. 2 Watson CJ, Hoffbauer FW. The problem of prolonged hepatitis with particular reference to the cholangiolitic type and to the development of cholangiolitic cirrhosis of the liver. Ann Int Med 1946; 25: 195–227. 3 Yousef IM, Vonk RJ, Tuchweber B. Role of myosin-like protein in the cytoskeleton proteins of the hepatocyte. Gastroenterology 1980: 78: 1327. 4 Javitt NB. Hepatic bile formation: solute transport and water flow. In: H Popper, L Bianchi, F Gudat, W Reutter, eds. Communications of liver cells. Lancaster: MTP Press Limited, 1980: 69–74. 5 Hirata F, Axelrod J. Phospholipid methylation and biological signal transmission. Science (Wash DC) 1980; 209: 1082–1090. 6 Skriver E, Maunsbach AB, Jorgensen PL. infrastructure of Na, K-transport vesicles reconstituted with purified renal Na, K-ATPase. J Cell Biol 1980; 86: 746–754. 7 Jackson RC, Blobel G. Post-translational cleavage of presecretory proteins with an extract of rough microsomes from dog pancreas containing signal peptidase activity. Proc Natl Acad Sci USA 1977; 75: 5598–5602. 8 Wall DA, Wilson G, Hubbard AL. The galactose-specific recognition system of mammalian liver: the route of ligand internalization in rat hepatocytes. Cell 1980; 21: 79–93. 9 Dave JR, Knazek RA. Prostaglandin I2 modifies both prolactin binding capacity and fluidity of mouse liver membranes. Proc Natl Acad Sci USA 1980; 77: 6597–6600. 10 Javitt NB, Wachtel N. Hepatic bile formation, mechanisms of solute concentration. Gastroenterology 1980; 79: 1111. 11 Bentzel CJ, Hainau B, Ho S, et al. Cytoplasmic regulation of tight-junction permeability: effect of plant cytokinins. Am J Physiol 1980; 239 ( Cell Physiol 8 ): C75–C89. 12 Simon FR, Gonzalez M, Sutherland E, et al. Reversal of ethinyl estradiol-induced bile secretory failure with Triton WR-1339. J Clin Invest 1980; 65: 851–860. 13 Desmet VJ, De Vos R. Morphology of tight junctions in cholestasis. In: H Popper, L Bianchi, F Gudat, W Reutter, eds. Communications of liver cells. Lancaster: MTP Press Limited, 1980: 185–191. 14 Forker EL. The effect of estrogen on bile formation in the rat. J Clin Invest 1969; 48: 654–663. 15 Keeffe EB, Blankenship NM, Scharschmidt BF. Alteration of rat liver plasma membrane fluidity and ATPase activity by chlorpromazine hydrochloride and its metabolites. Gastroenterology 1980; 79: 222–231. 16 Elias E, Boyer JL. Chlorpromazine and its metabolites alter polymerization and gelation of actin. Science (Wash DC) 1979; 206: 1404–1406. 17 Yamanaka M, Sano N, Kinoshita T, et al. Sodium taurolithocholate. Studies on the pathogenesis of sodium taurolithocholate-induced intrahepatic cholestasis in rats. Teikyo Med J 1979; 2: 85–97. 18 Yousef IM, Fisher MJ. In vitro effect of free bile acids on the bile canalicular membrane phospholipids in the rat. Can J Biochem 1976; 54: 1040–1046. 19 Layden TJ, Elias E, Boyer JL. Bile formation in the rat–The role of the paracellular shunt pathway. J Clin Invest 1978; 62: 1375–1385. 20 Toda G, Kako M, Oka H, et al. Uneven distribution of enzymatic alterations on the liver cell surface in experimental extrahepatic cholestasis of rat. Exp Mol Pathol 1978; 28: 10–24. 21 Denk H, Schenkman JB, Bacchin PG, et al. Mechanism of cholestasis. III. Interaction of synthetic detergents with the microsomal cytochrome P-450 dependent biotransfomation system in vitro. A comparison between the effects of detergents, the effects of bile acids, and the findings in bile duct ligated rats. Exp Mol Pathol 1971; 14: 263–276. 22 Adler M, Chung KW, Schaffner F. Pericanalicular hepatocytic and bile ductular microfilaments in cholestasis in man. Am J Pathol 1980; 98: 603–616. 23 Robenek H, Herwig J, Themann H. The morphologic characteristics of intercellular junctions between normal human liver cells and cells from patients with extrahepatic cholestasis. Am J Pathol 1980; 100: 93–114. 24 Utili R, Abernathy CO, Zimmerman HJ. Inhibition of Na+, K+- adenosinetriphosphatase by endotoxin: a possible mechanism for endotoxin-induced cholestasis. J Infec Dis 1977; 136: 583–587. 25 Robenek H, Themann H. Effects of chronic administration of thioacetamide (TAA) on the structure of bile canaliculi and tight junctions in the rat liver as revealed by freeze-fracturing. Virchows Arch B Cell Pathol 1979; 32: 57–67. 26 Zysset T, Bircher J, Preisig R. Acetylator status. In: M Davis, R Williams, eds. Drug reactions and the liver. London: Pitman Medical, 1981 (in press). 27 Smith RL, Idle JR. The debrisoquine hydroxylation gene; a gene of multiple effect. In: M Davis, R William, eds. Drug reactions and the liver. London: Pitman Medical, 1981 (in press). 28 Mizoguchi Y, Ohnishi F, Shiba T, et al. Purification of the cholestatic factor by a gel filtration using sephadex G-75 column and deae-cellulose column chromatography. Jap J Gastroenterol 1980; 77: 1083–1088 (see also Gastroenterology 79: 1040). 29 Popper H, Schaffner F, Denk H. Molecular pathology of cholestasis. In: W Taylor, ed. The hepatobiliary system. Fundamental and pathological mechanisms. Plenum Press, New York, 1976: 605–629. 30 Boyer JL. New concepts of mechanisms of hepatocyte bile formation. Physiol Rev 1980; 60: 303–326. 31 Weber AM, Tuchweber B, Lepage G, et al. Serum bile acid (BA) profile and liver ultrastructure in familial and other pediatric cholestatic syndrome. Gastroenterology 1980; 79: 1129. 32 Oshio C, Phillips MJ. Contraction of bile canaliculi as evidenced by time-lapse cinephotomicrography. Gastroenterology 1980; 79: 1043. 33 Phillips MJ, Oshio C, Miyairi M. Microfilament dysfunction as a mechanism in intrahepatic cholestasis: evidence from time-lapse cinemicrophotography. Gastroenterology 1980; 79: 1120. 34 Epstein O, Thomas HC, Sherlock S. Primary biliary cirrhosis is a dry-gland syndrome with features of graft-versus-host disease. Lancet 1980; 1: 1166–1168. 35 Eppinger H, Kaunitz H, Popper H. Die seroese Entzuendung. Wien: Springer, 1935: 143–154. 36 Bagheri SA, Bolt MG, Boyers JL, et al. Stimulation of thymidine incorporation in mouse liver and biliary tract epithelium by lithocholate and deoxycholate. Gastroenterology 1978; 74: 188–192. 37 Batzinger RP, Bueding E, Popper H. Protection by antibiotics against experimental focal cholangitis produced by a schistosomicidal isothiocyanate. Hepatology 1981; 1: 21–27. Citing Literature Volume1, Issue2March/April 1981Pages 187-191 ReferencesRelatedInformation" @default.
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