Transitional cells in the regenerating pancreas

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JOURNAL ARTICLES

Transitional cells in the regenerating pancreas

D Gu, MS Lee, T Krahl and N Sarvetnick
Department of Neuropharmacology CVN-10, Scripps Research Institute, La Jolla, CA 92037.

We examined the spectrum of intermediate cell types in the regenerating pancreas as duct epithelial cells progressed through their differentiation pathway to become mature endocrine cells. The model used was transgenic mice in which the pancreatic islets continue to grow during adulthood, unlike normal mice whose islet cell formation ceases early in life. Because the intermediate cells migrated into islet-like clusters at specific locations, we propose a specific pathway for islet development. Endocrine cells are derived from duct cells co-expressing a duct cell antigen, carbonic anhydrase II (CA II) and an exocrine enzyme, amylase. The CA II/amylase cells become amylase/endocrine intermediate cells as they exited from their lumenal location. The abluminal amylase/endocrine cells continue to differentiate to multihormone-bearing young endocrine cells, which migrated to form clusters with other differentiating endocrine cells.
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				H. T. Ku Pancreatic Progenitor Cells--Recent Studies Endocrinology, September 1, 2008; 149(9): 4312 - 4316. [Abstract] [Full Text] [PDF]

				M. Wagner, S. Koschnick, S. Beilke, M. Frey, G. Adler, and R. M. Schmid Selective expansion of the {beta}-cell compartment in the pancreas of keratinocyte growth factor transgenic mice Am J Physiol Gastrointest Liver Physiol, May 1, 2008; 294(5): G1139 - G1147. [Abstract] [Full Text] [PDF]

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				R. Bottino and M. Trucco Multifaceted Therapeutic Approaches for a Multigenic Disease Diabetes, December 1, 2005; 54(suppl_2): S79 - S86. [Abstract] [Full Text] [PDF]

				K. Minami, M. Okuno, K. Miyawaki, A. Okumachi, K. Ishizaki, K. Oyama, M. Kawaguchi, N. Ishizuka, T. Iwanaga, and S. Seino Lineage tracing and characterization of insulin-secreting cells generated from adult pancreatic acinar cells PNAS, October 18, 2005; 102(42): 15116 - 15121. [Abstract] [Full Text] [PDF]

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				J.-P. Stephan, P. E. Roberts, L. Bald, J. Lee, Q. Gu, B. Devaux, and J. P. Mather Selective Cloning of Cell Surface Proteins Involved in Organ Development: Epithelial Glycoprotein Is Involved in Normal Epithelial Differentiation Endocrinology, December 1, 1999; 140(12): 5841 - 5854. [Abstract] [Full Text]

				M. S. Horwitz, T. Krahl, C. Fine, J. Lee, and N. Sarvetnick Protection from Lethal Coxsackievirus-Induced Pancreatitis by Expression of Gamma Interferon J. Virol., March 1, 1999; 73(3): 1756 - 1766. [Abstract] [Full Text]

				V. Cirulli, L. Crisa, G.M. Beattie, M.I. Mally, A.D. Lopez, A. Fannon, A. Ptasznik, L. Inverardi, C. Ricordi, T. Deerinck, et al. KSA Antigen Ep-CAM Mediates Cell-Cell Adhesion of Pancreatic Epithelial Cells: Morphoregulatory Roles in Pancreatic Islet Development J. Cell Biol., March 23, 1998; 140(6): 1519 - 1534. [Abstract] [Full Text] [PDF]

				F Miralles, P Czernichow, and R Scharfmann Follistatin regulates the relative proportions of endocrine versus exocrine tissue during pancreatic development Development, January 3, 1998; 125(6): 1017 - 1024. [Abstract] [PDF]

				E. Bertelli and M. Bendayan Intermediate endocrine-acinar pancreatic cells in duct ligation conditions Am J Physiol Cell Physiol, November 1, 1997; 273(5): C1641 - C1649. [Abstract] [Full Text] [PDF]

				M Pack, L Solnica-Krezel, J Malicki, S. Neuhauss, A. Schier, D. Stemple, W Driever, and M. Fishman Mutations affecting development of zebrafish digestive organs Development, January 12, 1996; 123(1): 321 - 328. [Abstract] [PDF]

				J. Slack Developmental biology of the pancreas Development, January 6, 1995; 121(6): 1569 - 1580. [Abstract] [PDF]