Zusammenfassung
Die Leber ist eines der größten Organe des Organismus. Sie besteht zu etwa 70% aus Parenchymzellen und zu 30% aus Zellen der Gallengangsepithelien, Zellen des reticuloendothelialen Systems, den Kupfferzellen, den Sternzellen und Endothelzellen. In der Leber laufen die meisten der heute bekannten Reaktionen des Intermediärstoffwechsels ab.
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Literatur
Monographien und Lehrbücher
Arias IM, Boyer JL, Fausto N, Jakoby WB, Schachter D, Shafritz DA (eds) (1994) The Liver: Biology and Pathobiology. 3rd ed., Raven Press, New York
Bircher J, Benhamou JP, Rizetto M, Rodes J (eds) (1998) Oxford Textbook of Hepatology. Oxford University Press, Oxford
Gerok W, Blum H (eds) (1995) Hepatologie, 2. Aufl., Urban & Schwarzenberg, München
Gressner AM(1995) In: Greiling H, Gressner AM (Hrsg.): Lehrbuch der klinischen Chemie und Pathobiochemie. Schattauer, Stuttgart
Original- und Übersichtsarbeiten
Boyer JL, Graf J, Meier PJ (1992) Hepatic transport systems regulating pHi, cell volume, and bile secretion. Annu Rev Physiol 54: 415–438
Friedman SL (2000) Molecular regulation of hepatic fibrosis, an integrated cellular response to tissue injury. J Biol Chem 275: 2247–2250
Haussinger D (1990) Nitrogen metabolism in liver: structural-functional organisation and physiological implications. Biochem J 267: 281–290
Haussinger D et al (2000) Short term regulation of canalicular secretion. Semin Liver Dis 20: 307–321
Hautekeete ML, Geerts A (1997) The hepatic stellate (Ito) cell: its role in human liver disease. Virchows Arch 430: 195–207
Ishikawa T (1992) The ATP-dependent glutathione S-conjugate export pump. TIBS 17: 463–468
Jungas RL, Halperin ML, Brosnan JT (1992) Quantitative analysis of amino acid oxidation and related gluconeogenesis in humans. Physiol Rev 72: 419–448
Jungermann K, Katz N (1989) Functional specialization of different hepatocyte populations. Physiol Rev 69: 708–764
König J et al. (1999) Conjugate export pumps of the multidrug resistance protein (MRP) family localization, substrate specificity, and MRP2-mediated drug resistance. Biochim Biophys Acta 1461: 377–394
Kullak-Ublick GA (1999) Regulation of organic anion and drug transporters of the sinusoidal membrane. J Hepatol 31: 563–573
Lang F et al. (1997) The functional significance of cell volume. Physiol Rev 78: 247–306
Olaso E, Friedman L (1998) Molecular regulation of hepatic fibrogenesis. J Hepatol 29: 836–847
Zammit VA, Moir AMP (1994) Monitoring the partitioning of hepatic fatty acids in vivo: keeping track of control. TIBS 19: 313–317
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Löffler, G., Häussinger, D. (2003). Leber. In: Löffler, G., Petrides, P.E. (eds) Biochemie und Pathobiochemie. Springer-Lehrbuch. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-06058-2_36
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DOI: https://doi.org/10.1007/978-3-662-06058-2_36
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