Review
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World J Hepatol. Oct 27, 2013; 5(10): 541-549
Published online Oct 27, 2013. doi: 10.4254/wjh.v5.i10.541
Cytoprotective role of heme oxygenase-1 and heme degradation derived end products in liver injury
Clarice Silvia Taemi Origassa, Niels Olsen Saraiva Câmara
Clarice Silvia Taemi Origassa, Laboratory of Experimental and Clinical Immunology, Nephrology Division, Medicine Department, Federal University of São Paulo, 04039-032 São Paulo, Brazil
Niels Olsen Saraiva Câmara, Laboratory of Transplantation Immunobiology, Department of Immunology, Institute of Biomedical Science IV, University of São Paulo, 05508-900 São Paulo, Brazil
Author contributions: Origassa CST and Camara NOS wrote the manuscript.
Supported by Brazilian Foundation-FAPESP (Fundação de apoio à pesquisa do Estado de São Paulo), No. 07/07139-3, 10/02024-6 and CNPq
Correspondence to: Niels Olsen Saraiva Câmara, MD, Full Professor and Head of the Department of Immunobiology, Institute of Biomedical Science IV, Universidade de São Paulo, Rua Prof Lineu Prestes, 1730, 05508-900 São Paulo, Brazil. niels@icb.usp.br
Telephone: +55-5511-30917388 Fax: +55-5511-30917224
Received: July 4, 2012
Revised: November 8, 2012
Accepted: November 25, 2012
Published online: October 27, 2013
Abstract

The activation of heme oxygenase-1 (HO-1) appears to be an endogenous defensive mechanism used by cells to reduce inflammation and tissue damage in a number of injury models. HO-1, a stress-responsive enzyme that catabolizes heme into carbon monoxide (CO), biliverdin and iron, has previously been shown to protect grafts from ischemia/reperfusion and rejection. In addition, the products of the HO-catalyzed reaction, particularly CO and biliverdin/bilirubin, have been shown to exert protective effects in the liver against a number of stimuli, as in chronic hepatitis C and in transplanted liver grafts. Furthermore, the induction of HO-1 expression can protect the liver against damage caused by a number of chemical compounds. More specifically, the CO derived from HO-1-mediated heme catabolism has been shown to be involved in the regulation of inflammation; furthermore, administration of low concentrations of exogenous CO has a protective effect against inflammation. Both murine and human HO-1 deficiencies have systemic manifestations associated with iron metabolism, such as hepatic overload (with signs of a chronic hepatitis) and iron deficiency anemia (with paradoxical increased levels of ferritin). Hypoxia induces HO-1 expression in multiple rodent, bovine and monkey cell lines, but interestingly, hypoxia represses expression of the human HO-1 gene in a variety of human cell types (endothelial cells, epithelial cells, T cells). These data suggest that HO-1 and CO are promising novel therapeutic molecules for patients with inflammatory diseases. In this review, we present what is currently known regarding the role of HO-1 in liver injuries and in particular, we focus on the implications of targeted induction of HO-1 as a potential therapeutic strategy to protect the liver against chemically induced injury.

Keywords: Heme oxygenases; Bilirubin; Hepatitis C; Kupffer cells; Polymorphisms; Immunoregulatory; Hypoxia; Liver ischemia