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Semin Liver Dis 2003; 23(4): 313-324
DOI: 10.1055/s-2004-815558
DOI: 10.1055/s-2004-815558
Isolation and Characterization of Mouse Hepatic Stem Cells in Vitro
Weitere Informationen
Publikationsverlauf
Publikationsdatum:
14. Januar 2004 (online)
ABSTRACT
This article covers mouse cell lines showing the properties of hepatoblasts or oval cells and describes hepatocyte differentiation obtained from embryonic stem (ES) cells and mesenchymal adult progenitor cells. It considers the methods used for cultivation and differentiation of the cells, as well as the strengths and weaknesses of the different systems and perspectives for future research. Emphasis is given to hepatoblast cell lines because this is the material for which bipotentiality has been most clearly demonstrated and for which proliferation and differentiation conditions have been worked out.
KEYWORDS
Hepatoblasts - oval cells - hepatocytes - cholangiocytes
REFERENCES
- 1 Ott M O, Rey-Campos J, Cereghini S, Yaniv M. vHNF1 is expressed in epithelial cells of distinct embryonic origin during development and precedes HNF1 expression. Mech Dev . 1991; 36 47-58
- 2 Nagy P, Bisgaard H C, Thorgeirsson S S. Expression of hepatic transcription factors during liver development and oval cell differentiation. J Cell Biol . 1994; 126 223-233
- 3 Ang S L, Wierda A, Wong D. et al . The formation and maintenance of the definitive endoderm lineage in the mouse: involvement of HNF3/forkhead proteins. Development . 1993; 119 1301-1315
- 4 Bisgaard H C, Nagy P, Santoni-Rugiu E, Thorgeirsson S S. Proliferation, apoptosis, and induction of hepatic transcription factors are characteristics of the early response of biliary epithelial (oval) cells to chemical carcinogens. Hepatology . 1996; 23 62-70
- 5 Rausa F, Samadani U, Ye H. et al . The cut-homeodomain transcriptional activator HNF-6 is coexpressed with its target gene HNF-3 beta in the developing murine liver and pancreas. Dev Biol . 1997; 192 228-246
- 6 Rausa F M, Galarneau L, Belanger L, Costa R H. The nuclear receptor fetoprotein transcription factor is coexpressed with its target gene HNF-3beta in the developing murine liver, intestine and pancreas. Mech Dev . 1999; 89 185-188
- 7 Duncan S A, Manova K, Chen W S. et al . Expression of transcription factor HNF-4 in the extraembryonic endoderm, gut, and nephrogenic tissue of the developing mouse embryo: HNF-4 is a marker for primary endoderm in the implanting blastocyst. Proc Natl Acad Sci USA . 1994; 91 7598-7602
- 8 Kuo C F, Xanthopoulos K G, Darnell J E. Fetal and adult localization of C/EBP: evidence for combinatorial action of transcription factors in cell-specific gene expression. Development . 1990; 109 473-481
- 9 Barbacci E, Reber M, Ott M O. et al . Variant hepatocyte nuclear factor 1 is required for visceral endoderm specification. Development . 1999; 126 4795-4805
- 10 Coffinier C, Thépot D, Babinet C, Yaniv M, Barra J. Essential role for the homeoprotein vHNF1/HNF1B in visceral endoderm differentiation. Development . 1999; 126 4785-4794
- 11 Coffinier C, Gresh L, Fiette L. et al . Bile system morphogenesis defects and liver dysfunction upon targeted deletion of HNF1β. Development . 2002; 129 1829-1838
- 12 Landry C, Clotman F, Hioki T. et al . HNF-6 is expressed in endoderm derivatives and nervous system of the mouse embryo and participates to the cross-regulatory network of liver-enriched transcription factors. Dev Biol . 1997; 192 247-257
- 13 Clotman F, Lannoy V J, Reber M. et al . The onecut transcription factor HNF6 is required for normal development of the biliary tract. Development . 2002; 129 1819-1828
- 14 Germain L, Blouin M J, Marceau N. Biliary epithelial and hepatocytic cell lineage relationships in embryonic rat liver as determined by the differential expression of cytokeratins, a-fetoprotein, albumin, and cell surface-exposed components. Cancer Res . 1988; 48 4909-4918
- 15 Shiojiri N, Lemire J M, Fausto N. Cell lineages and oval cell progenitors in rat liver development. Cancer Res . 1991; 51 2611-2620
- 16 Petersen B E, Goff J P, Greenberger J S, Michalopoulos G K. Hepatic oval cells express the hematopoietic stem cell marker Thy-1 in the rat. Hepatology . 1998; 27 433-445
- 17 Omori N, Omori M, Evarts R P. et al . Partial cloning of rat CD34 cDNA and expression during stem cell-dependent liver regeneration in the adult rat. Hepatology . 1997; 26 720-727
- 18 Fujio K, Hu Z, Evarts R P. et al . Coexpression of stem cell factor and c-kit in embryonic and adult liver. Exp Cell Res . 1996; 224 243-250
- 19 Zhang M, Thorgeirsson S S. Modulation of connexins during differentiation of oval cells into hepatocytes. Exp Cell Res . 1994; 213 37-42
- 20 Volpes R, van den Oord J J, Desmet V J. Integrins as differential cell lineage markers of primary liver tumors. Am J Pathol . 1993; 142 1483-1492
- 21 Couvelard A, Bringuier A F, Dauge M C. et al . Expression of integrins during liver organogenesis in humans. Hepatology . 1998; 27 839-847
- 22 Rogler L E. Selective bipotential differentiation of mouse embryonic hepatoblasts in vitro. Am J Pathol . 1997; 150 591-602
- 23 Glickman R M, Sabesin S M. Lipoprotein metabolism. In: Arias IM, Boyer JL, Jakoby WB, et al, eds. The Liver Biology and Pathobiology New York: Raven Press 1994: 391-415
- 24 Holic N, Suzuki T, Corlu A. et al . Differential expression of the rat gamma-glutamyl transpeptidase gene promoters along with differentiation of hepatoblasts into biliary or hepatocytic lineage. Am J Pathol . 2000; 157 537-548
- 25 Tietjen T G, Mjaatvedt C H, Yang V W. Expression of class I alcohol dehydrogenase gene in developing rat fetuses. J Histochem Cytochem . 1994; 42 745-753
- 26 Vonesch J L, Nakshatri H, Philippe M, Chambon P, Dolle P. Stage and tissue-specific expression of the alcohol dehydrogenase 1 (Adh-1) gene during mouse development. Dev Dyn . 1994; 199 199-213
- 27 Guillouzo A, Weber A, Le Provost E, Rissel M, Schapira F. Cell types involved in the expression of foetal aldolases during rat azo-dye hepatocarcinogenesis. J Cell Sci . 1981; 49 249-260
- 28 Numazaki M, Tsutsumi K, Tsutsumi R, Ishikawa K. Expression of aldolase isozyme mRNAs in fetal rat liver. Eur J Biochem . 1984; 142 165-170
- 29 Petersen B E, Bowen W C, Patrene K D. et al . Bone marrow as a potential source of hepatic oval cells. Science . 1999; 284 1168-1170
- 30 Theise N D, Nimmakayalu M, Gardner R. et al . Liver from bone marrow in humans. Hepatology . 2000; 32 11-16
- 31 Lagasse E, Connors H, Al-Dhalimy M. et al . Purified hematopoietic stem cells can differentiate into hepatocytes in vivo. Nat Med . 2000; 6 1229-1234
- 32 Wang X, Al-Dhalimy M, Lagasse E, Finegold M, Grompe M. Liver repopulation and correction of metabolic liver disease by transplanted adult mouse pancreatic cells. Am J Pathol . 2001; 158 571-579
- 33 Schwartz R E, Reyes M, Koodie L. et al . Multipotent adult progenitor cells from bone marrow differentiate into functional hepatocyte-like cells. J Clin Invest . 2002; 109 1291-1302
- 34 Jiang Y, Jahagirdar B N, Reinhardt R L. et al . Pluripotency of mesenchymal stem cells derived from adult marrow. Nature . 2002; 418 41-49
- 34a Wang X, Willenbring H, Akkari Y. et al . Cell fusion is the principal source of bone-marrow-derived hepatocytes. Nature . 2003; 422 897-901
- 34b Vassilopoulos G, Wang P R, Russell D W. Transplanted bone marrow regenerates liver by cell fusion. Nature . 2003; 422 901-904
- 35 Zheng Y-W, Suzuki A, Taniguchi H. Diversity of hepatic stem cells in the fetal and adult liver. Semin Liver Dis . 2003; 23 xxx
- 36 Nitou M, Sugiyama Y, Ishikawa K, Shiojiri N. Purification of fetal mouse hepatoblasts by magnetic beads coated with monoclonal anti-E-cadherin antibodies and their in vitro culture. Exp Cell Res . 2002; 279 330-343
- 37 Suzuki A, Zheng Y W, Kondo R. et al . Flow-cytometric separation and enrichment of hepatic progenitor cells in the developing mouse liver. Hepatology . 2000; 32 1230-1239
- 38 Suzuki A, Zheng Y W, Kaneko S. et al . Clonal identification and characterization of self-renewing pluripotent stem cells in the developing liver. J Cell Biol . 2002; 156 173-184
- 39 Amicone L, Spagnoli F M, Späth G. et al . Transgenic expression in the liver of truncated Met blocks apoptosis and permits immortalization of hepatocytes. EMBO J . 1997; 16 495-503
- 40 Spagnoli F M, Amicone L, Tripodi M, Weiss M C. Identification of a bipotential precursor cell in hepatic cell lines derived from transgenic mice expressing cyto-Met in the liver. J Cell Biol . 1998; 143 1101-1112
- 41 Spagnoli F M, Cicchini C, Tripodi M, Weiss M C. Inhibition of MMH (Met murine hepatocyte) cell differentiation by TGF(beta) is abrogated by pre-treatment with the heritable differentiation effector FGF1. J Cell Sci . 2000; 113 3639-3647
- 42 Aiuti A, Cicchini C, Bernardini S. et al . Hematopoietic support and cytokine expression of murine-stable hepatocyte cell lines (MMH). Hepatology . 1998; 28 1645-1654
- 43 Chagraoui J, Lepage-Noll A, Anjo A, Uzan G, Charbord P. Fetal liver stroma consists of cells in epithelial-to-mesenchymal transition. Blood . 2003; 101 2973-2982
- 44 Strick-Marchand H, Weiss M C. Inducible differentiation and morphogenesis of bipotential liver cell lines from wild-type mouse embryos. Hepatology . 2002; 36 794-805
- 45 Mennone A, Alvaro D, Cho W, Boyer J L. Isolation of small polarized bile duct units. Proc Natl Acad Sci USA . 1995; 92 6527-6531
- 46 Cho W K, Mennone A, Boyer J L. Isolation of functional polarized bile duct units from mouse liver. Am J Physiol Gastrointest Liver Physiol . 2001; 280 G241-G246
- 47 Strick-Marchand H, Weiss M C. Embryonic liver cells and permanent lines as models for hepatocyte and bile duct cell differentiation. Mech Dev . 2003; 120 89-99
- 48 Coleman W B, Grisham J W. Epithelial stem-like cells of the rodent liver. In: Strain AJ, Diehl AM, eds. Liver Growth and Repair London: Chapman & Hall 1998: 50-99
- 49 Fausto N, Campbell J S. The role of hepatocytes and oval cells in liver regeneration and repopulation. Mechanisms of Development . 2003; 120 117-130
- 50 Richards W G, Yoder B K, Isfort R J. et al . Isolation and characterization of liver epithelial cell lines from wild-type and mutant TgN737Rpw mice. Am J Pathol . 1997; 150 1189-1197
- 51 Richards W G, Yoder B K, Isfort R J. et al . Oval cell proliferation associated with the murine insertional mutation TgN737Rpw. Am J Pathol . 1996; 149 1919-1930
- 52 Dumble M L, Croager E J, Yeoh G CT, Quail E A. Generation and characterization of p53 null transformed hepatic progenitor cells: oval cells give rise to hepatocellular carcinoma. Carcinogenesis . 2002; 23 435-445
- 53 Petersen B E, Grossbard B, Hatch H, Pi L, Deng J, Scott E W. Mouse A6-positive hepatic oval cells also express several hematopoietic stem cell markers. Hepatology . 2003; 37 632-640
- 54 Hamazaki T, Iiboshi Y, Oka M. et al . Hepatic maturation in differentiating embryonic stem cells in vitro. FEBS Lett . 2001; 497 15-19
- 55 Miyashita H, Suzuki A, Fukao K, Nakauchi H, Taniguchi H. Evidence for hepatocyte differentiation from embryonic stem cells in vitro. Cell Transplant . 2002; 11 429-434
- 56 Chinzei R, Tanaka Y, Shimizu-Saito K. et al . Embryoid-body cells derived from a mouse embryonic stem cell lines show differentiation into functional hepatocytes. Hepatology . 2002; 36 22-29
- 57 Ishizaka S, Shiori A, Kanda S. et al . Development of hepatocytes from embryonic stem cells after transfection with the HNF3beta gene. FASEB J . 2002; 16 1444-1454
- 58 Reyes M, Lund T, Lenvik T. et al . Purification and ex vivo expansion of post-natal human marrow mesodermal progenitor cells. Blood . 2001; 98 2615-2625
- 59 Ivanova N B, Dimos J T, Schaniel C. et al . A stem cell molecular signature. Science . 2002; 298 601-604
- 60 Ramalho-Santos M, Yoon S, Matsuzaki Y, Mulligan R C, Melton D A. “Stemness”: transcriptional profiling of embryonic and adult stem cells. Science . 2002; 298 597-600
- 61 Plescia C, Rogler C, Rogler L. Genomic expression analysis implicates Wnt signaling pathway and extracellular matrix alterations in hepatic specification and differentiation of murine hepatic stem cells. Differentiation . 2001; 68 254-269
- 62 Wu J C, Merlino G, Cveklova K, Mosinger Jr B, Fausto N. Autonomous growth in serum-free medium and production of hepatocellular carcinomas by differentiated hepatocyte lines that overexpress transforming growth factor alpha 1. Cancer Res . 1994; 54 5964-5973
- 63 Wu J C, Merlino G, Fausto N. Establishment and characterization of differentiated, nontransformed hepatocyte cell lines derived from mice transgenic for transforming growth factor α. Proc Natl Acad Sci USA . 1994; 91 674-678
- 64 Matise M P, Auerbach W, Joyner A L. Production of targeted embryonic stem cell clones. In: Joyner AL, ed. Gene Targeting: a Practical Approach Oxford: Oxford University Press 1999: 101-131
- 65 Tang D G, Tokumoto Y M, Apperly J A, Lloyd A C, Raff M C. Lack of replicative senescence in cultured rat oligodendrocyte precursor cells. Science . 2001; 291 868-871
- 66 Mathon N F, Malcolm D S, Harrisingh M C, Cheng L, Lloyd A C. Lack of replicative senescence in normal rodent glia. Science . 2001; 291 868-875
- 67 Ramirez R D, Morales C P, Herbert B S. et al . Putative telomere-independent mechanisms of replicative aging reflect inadequate growth conditions. Genes Dev . 2001; 15 398-403