Liver stem cells: The fall and rise of tissue biology
2003; Lippincott Williams & Wilkins; Volume: 38; Issue: 4 Linguagem: Inglês
10.1002/hep.1840380405
ISSN1527-3350
Autores Tópico(s)Organ Transplantation Techniques and Outcomes
ResumoHepatologyVolume 38, Issue 4 p. 804-806 EditorialFree Access Liver stem cells: The fall and rise of tissue biology Neil D. Theise M.D., Corresponding Author Neil D. Theise M.D. [email protected] Division of Digestive Diseases, Department of Medicine, Department of Pathology, Beth Israel Medical Center, New York, NYDivision of Digestive Diseases, Department of Medicine, Department of Pathology, Beth Israel Medical Center, First Ave. at 16th St., New York, NY 10003. fax: 212–420–4373===Search for more papers by this author Neil D. Theise M.D., Corresponding Author Neil D. Theise M.D. [email protected] Division of Digestive Diseases, Department of Medicine, Department of Pathology, Beth Israel Medical Center, New York, NYDivision of Digestive Diseases, Department of Medicine, Department of Pathology, Beth Israel Medical Center, First Ave. at 16th St., New York, NY 10003. fax: 212–420–4373===Search for more papers by this author First published: 07 March 2007 https://doi.org/10.1002/hep.1840380405Citations: 14AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat No abstract is available for this article. References 1 Petersen BE, Bowen WC., Patrene KD, Mars WM, Sullivan AK, Murase N, Boggs SS, et al. Bone marrow as a potential source of hepatic oval cells. Science 1999; 284: 1168–1170. 10.1126/science.284.5417.1168 CASPubMedWeb of Science®Google Scholar 2 Theise ND, Badve S, Saxena R, Henegariu O, Sell S, Crawford JM, Krause DS. Derivation of hepatocytes from bone marrow cells in mice after radiation-induced myeloablation. Hepatology 2000; 31: 235–240. 10.1002/hep.510310135 CASPubMedWeb of Science®Google Scholar 3 Theise ND, Nimmakayalu M, Gardner R, Illei P, Morgan G, Teperman L, Henegariu O, et al. Liver from bone marrow in humans. Hepatology 2000; 32: 11–16. 10.1053/jhep.2000.9124 CASPubMedWeb of Science®Google Scholar 4 Alison MR, Poulsom R, Jeffery R, Dhilon AP, Quaglia A, Jacob J, Novelli M, et al. Hepatocytes from non-hepatic adult stem cells. Nature 2000; 406: 257. 10.1038/35018642 CASPubMedWeb of Science®Google Scholar 5 Alison MR, Poulsom R, Otto WR, Vig P, Brittan M, Direkze NC., Lovell M, et al. Adult stem cell plasticity: the case gets stronger. J Clin Pathol (in press). Google Scholar 6 Korbling M, Katz RL, Khanna A, Ruifrok AC., Rondon G, Albitar M, Champlin R, et al. Hepatocytes and epithelial cells of donor origin in recipients of peripheral-blood stem cells. N Engl J Med 2002; 346: 738–746. 10.1056/NEJMoa3461002 PubMedWeb of Science®Google Scholar 7 Kleeberger W, Rothamel T, Glockner S, Flemming P, Lehmann U, Kreipe H. High frequency of epithelial chimersm in liver transplants demonstrated by microdissection and STR-analysis. Hepatology 2002; 35: 110–116. 10.1053/jhep.2002.30275 CASPubMedWeb of Science®Google Scholar 8 Fogt F, Beyser KH, Poremba, C., Zimmerman RL, Khettry U, Ruschoff J. Recipient-derived hepatocytes in liver transplants: a rare event in sex-mismatched transplants. Hepatology 2002; 36: 173–176. 10.1053/jhep.2002.33994 CASPubMedWeb of Science®Google Scholar 9 Ng IOL, Chan KL, Shek WH, Lee JMF, Fong DYT, Lo CM, Fan ST. High frequency of chimerism in transplanted livers. Hepatology 2003; 38: 989–998. 10.1002/hep.1840380425 CASPubMedWeb of Science®Google Scholar 10 Lemischka I. Stem cell dogmas in the genomics era. Rev Clin Exp Hematol 2001; 5: 15–25. 10.1046/j.1468-0734.2001.00030.x CASPubMedGoogle Scholar 11 Anderson DJ, Gage FH, Weissman IL. Can stem cells cross lineage boundaries? Nat Med 2001; 7: 393–395. 10.1038/86439 CASPubMedWeb of Science®Google Scholar 12 Hatch HM, Zheng D, Jorgensen ML, Petersen BE. SDF-1 alpha/CXCR4: a mechanism for hepatic oval cell activation and bone marrow stem cell recruitment to the injured liver of rats. Cloning Stem Cells 2002; 4: 339–351. 10.1089/153623002321025014 CASPubMedGoogle Scholar 13 Kollet O, Shivtiel S, Chen YQ, Suriawinata J, Thung SN, Dabeva MD, Hahn J, et al. HGF, SDF-1, and MMP - 9 are involved in stress-induced human CD 34 + stem cell recruitment to the liver. J Clin Invest 2003; 112: 160–169. 10.1172/JCI17902 CASPubMedWeb of Science®Google Scholar 14 Baumann U, Crosby HA, Ramani P, Kelly DA, Strain AJ. Expression of the stem cell factor receptor c-kit in normal and diseased pediatric liver: identification of a human hepatic progenitor cell? Hepatology 1999; 30: 112–117. 10.1002/hep.510300140 CASPubMedWeb of Science®Google Scholar 15 Theise ND, Saxena R, Portmann BP, Thung SN, Yee H, Chiriboga L, Kumar A, Crawford JM. The canals of hering and hepatic stem cells in humans. Hepatology 1999; 30: 1425–1433. 10.1002/hep.510300614 CASPubMedWeb of Science®Google Scholar 16 Gaca MD, Pickering JA, Arthur MJ, Benyon RC. Human and rat hepatic stellate cells produce stem cell factor: a possible mechanism for mast cell recruitment in liver fibrosis. J Hepatol 1999; 30: 850–858. 10.1016/S0168-8278(99)80139-1 CASPubMedWeb of Science®Google Scholar 17 Simpson K, Hogaboam CM, Kunkel SL, Harrison DJ, Bone-Larson C., Lukacs NW. Stem cell factor attenuates liver damage in a murine model of acetaminophen-induced hapatic injury. Lab Invest 2003; 83: 199–206. 10.1097/01.LAB.0000057002.16935.84 CASPubMedWeb of Science®Google Scholar 18 Roskams T, van den Oord JJ, De Vos R, Desmet VJ. Neuroendocrine features of reactive bile ductules in cholestatic liver disease. Am J Pathol 1990; 137: 1019–1025. CASPubMedWeb of Science®Google Scholar 19 Roskams R, De Vos R, van den Oord JJ, Desmet V. Cells with neuroendocrine features in regenerating human liver. APMIS Suppl 1991; 23: 32–39. CASPubMedGoogle Scholar 20 Libbrecht L, Roskams T. Hepatic progenitor cells in human liver diseases. Semin Cell Dev Biol 2002; 13: 389–396. 10.1016/S1084952102001258 PubMedWeb of Science®Google Scholar 21 Cassiman D, Libbrecht L, Sinelli N, Desmet V, Denef C., Roskams T. The vagal nerve stimulates activation of the hepatic progenitor cell compartment via muscarinic acetylcholine receptor type 3. Am J Pathol 2002; 161: 521–530. 10.1016/S0002-9440(10)64208-3 CASPubMedWeb of Science®Google Scholar 22 Oben JA, Roskams T, Yang S, Sinelli N, Li Z, Torbenson M, Huang J, et al. Sympathetic Nervous System Inhibition Increases Hepatic Progenitors and Reduces Liver Injury. Hepatology 2003; 38: 664–673. 10.1053/jhep.2003.50371 CASPubMedWeb of Science®Google Scholar 23 Hess D, Li L, Martin M, Sakano S, Hill D, Strutt B, Thyssen S, Gray DA, Bhatia M. Bone marrow — derived stem cells initiate pancreatic regeneration. Nat Biotechnol 2003; 21: 763–770. 10.1038/nbt841 CASPubMedWeb of Science®Google Scholar 24 Ianus IA, Holz GG, Theise ND, Hussain MA. In vivo derivation of glucose competent pancreatic endocrine cells from bone marrow without evidence of cell fusion. JCI 2003; 111: 843–850. 10.1172/JCI200316502 CASPubMedWeb of Science®Google Scholar 25 Saxena R, Theise ND, Crawford JM. Microanatomy of the human liver — exploring the hidden interfaces. Hepatology 1999; 30: 1339–1346. 10.1002/hep.510300607 CASPubMedWeb of Science®Google Scholar 26 Wang X, Willengring H, Akkari Y, Torimaru Y, Foster M, Al-Dhalimy M, Lagasse E, et al. Cell fusion is the principal source of bone-marrow-derived hepatocytes. Nature 2003; 422: 897–901. 10.1038/nature01531 CASPubMedWeb of Science®Google Scholar 27 Vassilopoulos G, Wang PR, Russell DW. Transplanted bone marrow regenerates liver by cell fusion. Nature 2003; 422: 901–904. 10.1038/nature01539 CASPubMedWeb of Science®Google Scholar 28 Theise ND, Wilmut I. Cell plasticity: flexible arrangement. Nature 2003; 425: 21. 10.1038/425021a CASPubMedWeb of Science®Google Scholar 29 Grompe M, Lindstedt S, al-Dhalimy M, Kennaway NG, Papaconstantinou J, Torre-Ramos CA, Ou CN, et al. Pharmacological correction of neonatal lethal hepatic dysfuncion in a murine model of hereditary tyrosinaemia type I. Nat Genet 1995; 10: 453–460. 10.1038/ng0895-453 CASPubMedWeb of Science®Google Scholar 30 Gupta S, Rajvanshi P, Sokhi R, Slehria S, Yam A, Kerr A, Novikoff PM. Entry and integration of transplanted hepatocytes in rat liver plates occur by disruption of hepatic sinusoidal endothelium. Hepatology 1999; 29: 509–519. 10.1002/hep.510290213 CASPubMedWeb of Science®Google Scholar Citing Literature Volume38, Issue4October 2003Pages 804-806 ReferencesRelatedInformation
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