Abstract
The pathogenesis of intrahepatic cholestasis in rats was studied using isolated perfused livers as an experimental model. Three basic mechanisms were differentiated: 1. Permeabilization of the bilio-sinusoidal barrier associated with electron microscopic alterations of the tight junctional complexes was found in livers of rats treated with α-naphthylisothiocyanate (ANIT, 250 mg/kg body weight). Consequences of these alterations were: reflux of bile constituents such as taurocholate and sulfobromophthalein and increased access to the biliary space of paracellular markers such as inulin and sucrose. The clear-cut mechanism of ANIT cholestasis was used to distinguish other mechanisms of intrahepatic cholestasis. 2. Inhibition of the basic process of fluid secretion was found to be the primary event in the development of cholestasis induced by estrogens. After 5 days of treating rats with ethinyl estradiol (5 mg/kg/day), bile flow was diminished in isolated livers while the permeability of the biliary tract to sucrose and inulin was not affected. Accordingly, the maximal concentration of taurocholate in bile was increased, indicating that its secretion was sustained. The same effect was observed after 1 week of treatment with the depot estrogen estradiol valerate (1 mg/kg/week). After 3 weeks of treatment, however, the taurocholate concentration in bile was lowered and the clearance of sucrose was increased. Bile flow remained at the same cholestatic level for 20 weeks. These results suggest that estrogens have the potency to increase tight junctional permeability only in a second step in the development of cholestasis, following the inhibition of bile flow. 3. An additional mode of secretory inhibition was induced by lowering the concentration of Ca2+ in the perfusate of isolated liver. Using ANIT-pretreated livers, i. e., livers with very low capacity to secrete foreign dyes, a high rate of efflux of sulfobromophthalein into the perfusate of preloaded livers suggests stimulation of the efflux of cholephilic solutes across the sinusoidal membrane of liver cells.
The results demonstrate that the term intrahepatic cholestasis comprises a number of different sites of interference with the complex process of bile secretion.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bradley SE, Herz R (1978) Permselectivity of biliary canalicular membrane in rats: clearance probe analysis. Am J Physiol 235: E570-E576
Davis RA, Kern F, Showalter R, Sutherland E, Sinenski M, Simon FR (1978) Alterations of hepatic Na+, K+-ATPase and bile flow by estrogen: effects on liver surface membrane lipid structure and function. Proc Natl Acad Sci USA 75: 4130–4134
Dunnett CW (1964) New tables for multiple comparisons with a control. Biometrics 20: 482–491
Elias E, Huban Z, Wade J, Boyer JL (1980) Phalloidin-induced cholestasis: A microfilament-mediated change in junctional complex permeability. Proc Natl Acad Sci USA 77: 2229–2233
Elias E, Iqbal S, Hickey A, Coleman R (1981) Increased tight junction permeability — a mechanism of estrogen cholestasis (abstr). Clin Sci 61: 5
Elias E, Iqbal S, Knutton S, Hickey A, Coleman R (1983) Increased tight junctional permeability: a possible mechanism of oestrogen cholestasis. Eur J Clin Invest 13: 383–390
Forker EL (1967) Two sites of bile formation as determined by mannitol and erythritol clearance in the guinea pig. J Clin Invest 46: 1189–1195
Forker EL (1969) The effect of estrogen on bile formation in the rat. J Clin Invest 48: 654–663
Forssmann WG, Ito S, Weihe E, Aoki A, Dym M, Fawcett D (1977) An improved perfusion fixation method for the male genital tract. Anat Rec 188: 307–314
Graf J (1976) Some aspects of the role of cyclic AMP and calcium in bile formation: studies in the isolated perfused rat liver. In: Case RM, Goebell H (eds) Stimulus-secretion coupling in the gastrointestinal tract, University Park, Baltimore, MD
Graf J, Kaschnitz R, Korn P, Peterlik M (1973) Dependence of bile formation on calcium. Digestion 8: 113
Höke H, Krell H, Pfaff E (1980) Are findings with isolated rat livers after short calcium-free perfusion relevant for isolated cells? Arch Toxicol 44: 23–30
Jaeschke H, Krell H, Pfaff E (1983) No increase of biliary permeability in ethinylestradiol-treated rats. Gastroenterology 85: 808–814
Krell H, Höke H, Pfaff E (1982) Development of intrahepatic cholestasis by α-naphthylisothiocyanate in rats. Gastroenterology 82: 507–514
Krell H, Jaeschke H, Höke H, Pfaff E (1984) Bile secretion in hemoglobin-free perfused rat liver. Hoppe-Seyler's Z Physiol Chem 365: 1115–1122
Lowe PJ, Kan KS, Barnwell SG, Sharma RK, Coleman R (1985) Transcytosis and paracellular movements of horseradish peroxidase across liver parenchymal tissue from blood to bile. Biochem J 222: 529–537
Metz J, Bressler D (1979) Reformation of gap and tight junctions in regenerating liver after cholestasis. Cell Tissue Res 199: 257–270
Metz J, Aoki A, Merlo M, Forssmann WG (1977) Morphological alterations and functional changes of interhepatocellular junctions induced by bile duct ligation. Cell Tissue Res 182: 299–310
Owen CA (1977) Isolated rat liver needs calcium to make bile Proc Soc Exp Biol Med 155: 314–317
Plaa GL, Priestly BG (1977) Intrahepatic cholestasis induced by drugs and chemicals. Pharmacol Rev 28: 207–273
Reichen J, Paumgartner G (1975) Kinetics of taurocholate uptake by the perfused rat liver. Gastroenterology 68: 132–136
Robenek H, Rassat J, Grosser V, Themann H (1982) Ultrastructural study of cholestasis induced by longterm treatment with estradiol valerate I. Tight junctional analysis and tracer experiments Virchows Arch (Cell Pathol) 40: 201–215
Rubin RP (1982) Calcium and cellular secretion. Plenum Press, New York
Ruifrock PG, Meijer DKF (1982) Sodium ion-coupled intake of taurocholate by rat liver plasma membrane vesicles. Liver 2: 28–34
Schwarz LR, Burr R, Schwenk M, Pfaff E, Greim H (1975) Uptake of taurocholic acid into isolated rat liver cells. Eur J Biochem 55: 617–623
Wheeler HO, Ross ED, Bradley SE (1968) Canilicular bile production in dogs. Am J Physiol 214: 866–874
Author information
Authors and Affiliations
Additional information
Dedicated to Professor Dr. med. Herbert Remmer on the occasion of his 65th birthday
Rights and permissions
About this article
Cite this article
Krell, H., Metz, J., Jaeschke, H. et al. Drug-induced intrahepatic cholestasis: characterization of different pathomechanisms. Arch Toxicol 60, 124–130 (1987). https://doi.org/10.1007/BF00296964
Issue Date:
DOI: https://doi.org/10.1007/BF00296964