Studies of intestinal stem cells using normal, chimeric, and transgenic mice

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Studies of intestinal stem cells using normal, chimeric, and transgenic mice

JI Gordon, GH Schmidt and KA Roth
Department of Molecular Biology, Washington University School of Medicine, St. Louis, Missouri 63110.

The mouse intestinal epithelium represents a continuous developmental system. Its four principal differentiated cell types--enterocytes, goblet, enteroendocrine, and Paneth cells--are derived from a common multipotent stem cell located near the base of monoclonal crypts. Members of these four lineages undergo rapid and perpetual renewal along an anatomically well-defined pathway. The gut epithelium provides a unique mammalian model for studying the biological features of stem cells (e.g., their ability to undergo asymmetric division, their enormous proliferative potential, their capacity for functional anchorage in a niche), examining how stem cell hierarchies are established and maintained in renewing cell populations, analyzing the relationships between passage through the cell cycle and lineage allocation (commitment), and defining the mechanisms that give stem cells a "positional address" along the cephalocaudal axis, allowing them to generate regional differences in the differentiation programs of their derived lineages (axial pattern formation).

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				B. F. Hinnebusch, A. Siddique, J. W. Henderson, M. S. Malo, W. Zhang, C. P. Athaide, M. A. Abedrapo, X. Chen, V. W. Yang, and R. A. Hodin Enterocyte differentiation marker intestinal alkaline phosphatase is a target gene of the gut-enriched Kruppel-like factor Am J Physiol Gastrointest Liver Physiol, January 1, 2004; 286(1): G23 - G30. [Abstract] [Full Text] [PDF]

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				W. R. Bennett, T. E. Crew, J. M. W. Slack, and A. Ward Structural-proliferative units and organ growth: effects of insulin-like growth factor 2 on the growth of colon and skin Development, March 15, 2003; 130(6): 1079 - 1088. [Abstract] [Full Text] [PDF]

				G. Q. Daley, M. A. Goodell, and E. Y. Snyder Realistic Prospects for Stem Cell Therapeutics Hematology, January 1, 2003; 2003(1): 398 - 418. [Abstract] [Full Text] [PDF]

				Q. Yang, N. A. Bermingham, M. J. Finegold, and H. Y. Zoghbi Requirement of Math1 for Secretory Cell Lineage Commitment in the Mouse Intestine Science, December 7, 2001; 294(5549): 2155 - 2158. [Abstract] [Full Text] [PDF]

				James. R. Gum Jr., James. W. Hicks, A. M. Gillespie, J. L. Rius, P. A. Treseler, S. C. Kogan, E. J. Carlson, C. J. Epstein, and Y. S. Kim Mouse Intestinal Goblet Cells Expressing SV40 T Antigen Directed by the MUC2 Mucin Gene Promoter Undergo Apoptosis upon Migration to the Villi Cancer Res., April 1, 2001; 61(8): 3472 - 3479. [Abstract] [Full Text]

				J. Pacha Development of Intestinal Transport Function in Mammals Physiol Rev, October 1, 2000; 80(4): 1633 - 1667. [Abstract] [Full Text] [PDF]

				J. M. Slack Stem Cells in Epithelial Tissues Science, February 25, 2000; 287(5457): 1431 - 1433. [Abstract] [Full Text]

				E. Levy, J.-F. Beaulieu, E. Delvin, E. Seidman, W. Yotov, J.-R. Basque, and D. Ménard Human crypt intestinal epithelial cells are capable of lipid production, apolipoprotein synthesis, and lipoprotein assembly J. Lipid Res., January 1, 2000; 41(1): 12 - 22. [Abstract] [Full Text]

				Q. Ding, Q. Wang, Z. Dong, and B. M. Evers Characterization and regulation of E2F activity during Caco-2 cell differentiation Am J Physiol Cell Physiol, January 1, 2000; 278(1): C110 - C117. [Abstract] [Full Text] [PDF]

				M. R. Condon, A. Viera, M. D'Alessio, and G. Diamond Induction of a Rat Enteric Defensin Gene by Hemorrhagic Shock Infect. Immun., September 1, 1999; 67(9): 4787 - 4793. [Abstract] [Full Text] [PDF]

				B. M. Evers Intestinal Cell Differentiation: Cellular Mechanisms and the Search for the Perfect Model Focus on "Involvement of p21(WAF1/Cip1) and p27(Kip1) in intestinal epithelial cell differentiation" Am J Physiol Cell Physiol, June 1, 1999; 276(6): C1243 - C1244. [Full Text] [PDF]

				Q.-M. Ding, T. C. Ko, and B. M. Evers Caco-2 intestinal cell differentiation is associated with G1 arrest and suppression of CDK2 and CDK4 Am J Physiol Cell Physiol, November 1, 1998; 275(5): C1193 - C1200. [Abstract] [Full Text] [PDF]

				J. Saarnio, S. Parkkila, A.-K. Parkkila, A. Waheed, M. C. Casey, X. Y. Zhou, S. Pastoreková, J. Pastorek, T. Karttunen, K. Haukipuro, et al. Immunohistochemistry of Carbonic Anhydrase Isozyme IX (MN/CA IX) in Human Gut Reveals Polarized Expression in the Epithelial Cells with the Highest Proliferative Capacity J. Histochem. Cytochem., April 1, 1998; 46(4): 497 - 504. [Abstract] [Full Text]

				L. B. Nielsen, S. P.�A. McCormick, V. Pierotti, C. Tam, M. D. Gunn, H. Shizuya, and S. G. Young Human Apolipoprotein B Transgenic Mice Generated with 207-�and 145-Kilobase Pair Bacterial Artificial Chromosomes. EVIDENCE THAT A DISTANT 5'-ELEMENT CONFERS APPROPRIATE TRANSGENE EXPRESSION IN THE INTESTINE J. Biol. Chem., November 21, 1997; 272(47): 29752 - 29758. [Abstract] [Full Text] [PDF]

				J. M. Shields, R. J. Christy, and V. W. Yang Identification and Characterization of a Gene Encoding a Gut-enriched Kruppel-like Factor Expressed during Growth Arrest J. Biol. Chem., August 16, 1996; 271(33): 20009 - 20017. [Abstract] [Full Text] [PDF]

				J. G. Bisaha, T. C. Simon, J. I. Gordon, and J. L. Breslow Characterization of an Enhancer Element in the Human Apolipoprotein C-III Gene That Regulates Human Apolipoprotein A-I Gene Expression in the Intestinal Epithelium J. Biol. Chem., August 25, 1995; 270(34): 19979 - 19988. [Abstract] [Full Text] [PDF]

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Studies of intestinal stem cells using normal, chimeric, and transgenic mice

				U Paulus, M Loeffler, J Zeidler, G Owen, and C. Potten The differentiation and lineage development of goblet cells in the murine small intestinal crypt: experimental and modelling studies J. Cell Sci., January 10, 1993; 106(2): 473 - 483. [Abstract] [PDF]