Liver regeneration 4: transcriptional control of liver regeneration

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Liver regeneration 4: transcriptional control of liver regeneration

R Taub
Department of Genetics and Medicine, University of Pennsylvania School of Medicine, Philadelphia 19104-6145, USA.

Determining what factors are responsible for initiating regeneration following partial hepatectomy or toxic damage, and how the liver maintains differentiated functions while the hepatocytes are undergoing cellular proliferation are central issues in understanding the molecular bases of liver regeneration. Examination of the transcriptional milieu in the regenerating liver provides clues to the answers to these questions. Growth factor-generated intracellular signals that trigger liver regeneration result in activation via posttranslational modifications of latent, normally inactive transcription factors that preexist in the liver. Two transcription factors that are activated by this mechanism include posthepatectomy factor/nuclear factor-kappa B) and Stat3. Because cytokines such as tumor necrosis factor-alpha (TNF-alpha), interleukin-l (IL-1), and IL-6 can induce these factors in the liver, the finding of activated Stat3 and PHF/NF-kappa B suggests that these cytokines may play a role in some aspects of growth regulation during liver regeneration. Rapidly induced transcription factors, Stat3, PHF/NF-kappa B, and others are responsible for activation of the primary growth response or immediate- early genes, which play a role in regulating later phases of cell growth in regenerating liver and other mitogen-activated cells. Immediate-early genes encode many members of diverse transcription factor families including the Jun-Fos-LRF-1, nuclear receptor, and myc families to name a few. In this way a transcriptional cascade is established during the G1 phase of liver regeneration. Coexisting with these induced factors are liver-specific transcription factors such as the CAAT enhancer binding proteins and hepatocyte nuclear factors, which may interact with growth-induced factors to help the liver maintain metabolic homeostasis during regeneration. As a result the liver is able to accomplish the goals of reestablishing its mass while it maintains its functional capacity during regeneration.

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				M. Macias-Silva, W. Li, J. I. Leu, M. A. S. Crissey, and R. Taub Up-regulated Transcriptional Repressors SnoN and Ski Bind Smad Proteins to Antagonize Transforming Growth Factor-beta Signals during Liver Regeneration J. Biol. Chem., August 2, 2002; 277(32): 28483 - 28490. [Abstract] [Full Text] [PDF]

				S. P. Anderson, C. S. Dunn, R. C. Cattley, and J.C. Corton Hepatocellular proliferation in response to a peroxisome proliferator does not require TNF{alpha} signaling Carcinogenesis, November 1, 2001; 22(11): 1843 - 1851. [Abstract] [Full Text] [PDF]

				X. Wang, E. Quail, N.-J. Hung, Y. Tan, H. Ye, and R. H. Costa Increased levels of forkhead box M1B transcription factor in transgenic mouse hepatocytes prevent age-related proliferation defects in regenerating liver PNAS, September 25, 2001; 98(20): 11468 - 11473. [Abstract] [Full Text] [PDF]

REVIEWS

Liver regeneration 4: transcriptional control of liver regeneration

				D. A. Rudnick, D. H. Perlmutter, and L. J. Muglia Prostaglandins are required for CREB activation and cellular proliferation during liver regeneration PNAS, July 5, 2001; (2001) 151217998. [Abstract] [Full Text] [PDF]

				V. Wallenius, K. Wallenius, M. Hisaoka, J. Sandstedt, C. Ohlsson, M. Kopf, and J.-O. Jansson Retarded Liver Growth in Interleukin-6-Deficient and Tumor Necrosis Factor Receptor-1-Deficient Mice Endocrinology, July 1, 2001; 142(7): 2953 - 2960. [Abstract] [Full Text] [PDF]

				P Starkel, L Lambotte, C Sempoux, C De Saeger, A Saliez, D Maiter, and Y Horsmans After portal branch ligation in the rat, cellular proliferation in associated with selective induction of c-Ha-ras, p53, cyclin E, and Cdk2 Gut, July 1, 2001; 49(1): 119 - 130. [Abstract] [Full Text] [PDF]

				L. G. Koniaris, T. Zimmers-Koniaris, E. C. Hsiao, K. Chavin, J. V. Sitzmann, and J. M. Farber Cytokine-Responsive Gene-2/IFN-Inducible Protein-10 Expression in Multiple Models of Liver and Bile Duct Injury Suggests a Role in Tissue Regeneration J. Immunol., July 1, 2001; 167(1): 399 - 406. [Abstract] [Full Text] [PDF]

				M. PIBIRI, G. M. LEDDA-COLUMBANO, C. COSSU, G. SIMBULA, M. MENEGAZZI, H. SHINOZUKA, and A. COLUMBANO Cyclin D1 is an early target in hepatocyte proliferation induced by thyroid hormone (T3) FASEB J, April 1, 2001; 15(6): 1006 - 1013. [Abstract] [Full Text] [PDF]

				P. J. D. Delhanty, C. D. Scott, S. Babu, and R. C. Baxter Acid-labile subunit regulation during the early stages of liver regeneration: implications for glucoregulation Am J Physiol Endocrinol Metab, February 1, 2001; 280(2): E287 - E295. [Abstract] [Full Text] [PDF]

				J. I. Leu, M. A. S. Crissey, J. P. Leu, G. Ciliberto, and R. Taub Interleukin-6-Induced STAT3 and AP-1 Amplify Hepatocyte Nuclear Factor 1-Mediated Transactivation of Hepatic Genes, an Adaptive Response to Liver Injury Mol. Cell. Biol., January 15, 2001; 21(2): 414 - 424. [Abstract] [Full Text]

				T. C. Weglarz, J. L. Degen, and E. P. Sandgren Hepatocyte Transplantation into Diseased Mouse Liver : Kinetics of Parenchymal Repopulation and Identification of the Proliferative Capacity of Tetraploid and Octaploid Hepatocytes Am. J. Pathol., December 1, 2000; 157(6): 1963 - 1974. [Abstract] [Full Text] [PDF]

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				A. M. Reimold, A. Etkin, I. Clauss, A. Perkins, D. S. Friend, J. Zhang, H. F. Horton, A. Scott, S. H. Orkin, M. C. Byrne, et al. An essential role in liver development for transcription factor XBP-1 Genes & Dev., January 15, 2000; 14(2): 152 - 157. [Abstract] [Full Text]