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Cobalt protoporphyrin as a potential therapeutic agent?

Department of Anesthesiology, University Medical Center, Freiburg, Germany

¹Correspondence: Department of Anesthesiology, University Medical Center, D-79106 Freiburg, Germany

Shan et al have recently investigated the role of Bach1 and Nrf-2 in up-regulation of heme oxygenase-1 (HO-1 ) by cobalt protoporphyrin (CoPP) in Huh-7 cells (1) . The authors could demonstrate the repression of Bach1 and up-regulation of the Nrf-2 protein by posttranscriptional sites of action. These data obtained in a human liver cell culture system are of high relevance for the understanding of HO-1 up-regulation by CoPP. In the abstract and discussion section, the authors state that "cobalt protoporphyrin might be considered as a potential therapeutic agent where HO-1 upregulation is desired." As noted by the authors, CoPP is regarded as the most potent metalloporphyrin inducer of HO-1 identified so far. In addition, numerous publications have shown marked protective effects of HO-1 induced by CoPP in various experimental in vivo and in vitro models (2) . Nevertheless and despite these impressive experimental data, CoPP treatment has also a number of side effects which often are not considered. As already noted by Shan et al, CoPP administration can lead to a depletion of hepatic cytochrome P450 levels and induce weight loss in animals (3 , 4) . Furthermore, CoPP suppresses thyroid and testicular hormone concentrations in serum, affects copper metabolism, elevates plasma ceruloplasmin levels, and has many other side effects (5 , 6) . In addition, our own unpublished results reveal that a single injection of 5 mg/kg CoPP, which is the most established experimental dose for in vivo experiments conferring protection in a multitude of experimental models, could have at least transient toxic effects on hepatocellular integrity as shown by increased GPT and LDH serum levels 24 hours after treatment in rats. In addition, administration of at least 2.5 µM CoPP in in vitro experiments can lead to a significant LDH release, indicating cytotoxicity. All these demonstrated adverse effects of CoPP in animal and cell culture experiments might have been the reason why CoPP so far has not been used as a therapeutic agent in clinical studies in humans.

As an alternative for such studies we point to our own recent results on volatile anesthetics (isoflurane, sevoflurane) as potent inducers of HO-1 in the rat liver (7) . Up-regulation of hepatic HO-1 by isoflurane exerts beneficial effects under normal and pathological experimental conditions (8 , 9) . These compounds are approved pharmacologic agents that are used in patients for induction and maintenance of general anesthesia and the therapy of severe asthmatic events because of their bronchodilatatory potency. Furthermore, adverse side effects of these compounds are rare and well characterized, because of their frequent usage in daily clinical anesthesia practice for more than 30 years. These substances would therefore be a realistic alternative for a possible HO-1 induction in humans.

Thus, we have recently initiated an approved clinical trial to evaluate this hypothesis.

FOOTNOTES

The opinions expressed in editorials, essays, letters to the editor, and other articles comprising the Up Front section are those of the authors and do not necessarily reflect the opinions of FASEB or its constituent societies. The FASEB Journal welcomes all points of view and many voices. We look forward to hearing these in the form of op-ed pieces and/or letters from its readers addressed to journals@faseb.org.

REFERENCES

1. Shan, Y., Lambrecht, R. W., Donohue, S. E., Bonkovsky, H. L. (2006) Role of Bach1 and Nrf2 in up-regulation of the heme oxygenase-1 gene by cobalt protoporphyrin. FASEB J. 20,2651-2653[Abstract/Free Full Text]
2. Ryter, S. W., Alam, J., Choi, A. M. (2006) Heme oxygenase-1/carbon monoxide: from basic science to therapeutic applications. Physiol. Rev. 86,583-650[Abstract/Free Full Text]
3. Galbraith, R. A., Kappas, A. (1989) Regulation of food intake and body weight by cobalt porphyrins in animals. Proc. Natl. Acad. Sci. U.S.A 86,7653-7657[Abstract/Free Full Text]
4. Muhoberac, B. B., Hanew, T., Halter, S., Schenker, S. (1989) A model of cytochrome P-450-centered hepatic dysfunction in drug metabolism induced by cobalt-protoporphyrin administration. Biochem. Pharmacol. 38,4103-4113[CrossRef][Medline]
5. Rosenberg, D. W., Kappas, A. (1995) The comparative abilities of inorganic cobalt and cobalt-protoporphyrin to affect copper metabolism and elevate plasma ceruloplasmin. Pharmacology 50,201-208[Medline]
6. Smith, T. J., Drummond, G. S., Kappas, A. (1987) Cobalt-protoporphyrin suppresses thyroid and testicular hormone concentrations in rat serum: a novel action of this synthetic heme analogue. Pharmacology 34,9-16[Medline]
7. Hoetzel, A., Geiger, S., Loop, T., Welle, A., Schmidt, R., Humar, M., Pahl, H. L., Geiger, K. K., Pannen, B. H. (2002) Differential effects of volatile anesthetics on hepatic heme oxygenase-1 expression in the rat. Anesthesiology 97,1318-1321[CrossRef][Medline]
8. Schmidt, R., Tritschler, E., Hoetzel, A., Loop, T., Humar, M., Halverscheid, L., Geiger, K. K., Pannen, B. H. J. (2007) Isofluorane pretreatment protects rat livers from ischemia/reperfusion injury by induction of heme oxygenase-1. Ann. Surg. 245,931-942[CrossRef][Medline]
9. Schmidt, R., Hoetzel, A., Baechle, T., Loop, T., Humar, M., Bauer, M., Pahl, H. L., Geiger, K. K., Pannen, B. H. (2004) Isoflurane pretreatment lowers portal venous resistance by increasing hepatic heme oxygenase activity in the rat liver in vivo. J. Hepatol. 41,706-713[CrossRef][Medline]

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