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Comment on "A Novel Role of Hypoxia-Inducible Factor in Cobalt Chloride- and Hypoxia-Mediated Expression of IL-8 Chemokine in Human Endothelial Cells"¹

Department of Medical Biotechnology, Faculty of Biochemistry, Biophysics, and Biotechnology, Jagiellonian University, Krakow, Poland

In their recent article, Kim et al. (1) demonstrated that activation of hypoxia-inducible factor-1 (HIF-1) transcription factor by hypoxia (1% O₂) or CoCl₂, a hypoxia-mimic, can induce IL-8 mRNA and protein expressions in various human endothelial cells, namely dermal vascular(HDMVEC), pulmonary microvascular (HPMVEC), brain (HBEC), and pulmonary aortic (HPAEC), an observation similar to that of previous, but uncited, investigators (2). The majority of the present experiments has been done in HDMVEC.

However, our recently published data indicate that the underlying mechanisms may be more complex. In our experiments done in immortalized HDMVEC line HMEC-1, we have observed that neither hypoxia (3) nor CoCl₂ (4) induces IL-8 expression. In fact, the effect of hypoxia (1% O₂) on both IL-8 mRNA and protein expression was inhibitory (3). In addition, CoCl₂ was not able to enhance the expression of IL-8 (4), although it increased HIF-1 activation and synthesis of vascular endothelial growth factor to the same level as hypoxia (3, 4). Thus, our data point to the other mechanisms of regulation of IL-8 than that demonstrated by Kim et al. Moreover, in another recent article (5), activation of HIF-1 by prolyl hydroxylase inhibitor attenuated IL-8 production in HMEC-1. Interestingly, the negative role of HIF-1 in regulation of IL-8 expression also has been demonstrated recently in several tumor cell lines (6), whereas another study showed that desferoxamine, an activator of HIF-1, decreased TNF-induced IL-8 synthesis in HDMVEC (7).

The reasons for such different data are not clear. First, the cell-type specific effect may exist. However, it seems that HDMVEC used by Kim et al., which were provided to them by Drs. Ades and Lawley, might be in fact the same as the HMEC-1 line (8) used by us (3, 4) and others (5, 7). Second, the concentrations of CoCl₂ used by Kim et al. to stimulate IL-8 expression were very high, i.e., 0.5-1 mM. Both in our hands (4) and in Ockaili et al. experiments (5), much lower concentrations, i.e., 0.1-0.25 mM, of CoCl₂ potently stabilized HIF-1 and activated a hypoxia-responsive element in reporter gene assays. However, such low concentration of CoCl₂ did not affect IL-8 production, although it potently enhanced HIF-1-dependent vascular endothelial growth factor synthesis by HMEC-1 to the level exerted by hypoxia (3, 4). In fact, 0.25 mM CoCl₂ was also not effective in the work of Kim et al. (1). Finally, in our hands, 1% O₂ down-regulated IL-8 mRNA expression and protein synthesis after 24 h of culture. In turn, Kim et al. measured IL-8 production only after 6 h of hypoxia (description to Fig. 3 states this time, although in the text the authors mentioned 24 h, recalling the same figure) and observed only an 1.6-fold increase in protein synthesis.

Thus, the influence of HIF-1 and hypoxia on IL-8 production is far from clear. Which effects reflect the physiological conditions remain to be elucidated.

Footnotes

¹ The research in the authors’ department is supported by grants from the Ministry of Science and Higher Education, the European Union 6 Framework Programme, and the Wellcome Trust.

References

1. Kim, K. S., V. Rajagopal, C. Gonsalves, C. Johnson, V. K. Kalra. 2006. A novel role of hypoxia-inducible factor in cobalt chloride- and hypoxia-mediated expression of IL-8 chemokine in human endothelial cells. J. Immunol. 177: 7211-7224. [Abstract/Free Full Text]
2. Karakurum, M., R. Shreeniwas, J. Chen, D. Pinsky, S. D. Yan, M. Anderson, K. Sunouchi, J. Major, T. Hamilton, K. Kuwabara, et al 1994. Hypoxic induction of interleukin-8 gene expression in human endothelial cells. J. Clin. Invest. 93: 1564-1570. [Medline]
3. Loboda, A., A. Jazwa, A. Jozkowicz, G. Molema, J. Dulak. 2006. Angiogenic transcriptome of human microvascular endothelial cells: effect of hypoxia, modulation by atorvastatin. Vascul. Pharmacol. 44: 206-214. [Medline]
4. Loboda, A., A. Jazwa, B. Wêgiel, A. Jozkowicz, J. Dulak. 2005. Heme oxygenase-1-dependent and -independent regulation of angiogenic gene expression: effect of cobalt protoporphyrin and cobalt chloride on VEGF and IL-8 synthesis in human microvascular endothelial cells. Cell. Mol. Biol. 51: 347-355. [Medline]
5. Ockaili, R., R. Natarajan, F. Salloum, B. J. Fischer, D. Jones, A. A. Fowler, III, R. C. Kukreja. 2005. HIF-1 activation attenuates postischemic myocardial injury: role for heme oxygenase-1 in modulating microvascular chemokine generation. Am. J. Physiol. 289: H542-H548.
6. Mizukami, Y., W.-S. Jo, E.-M. Duerr, M. Gala, J. Li, X. Zhang, M. A. Zimmer, O. Iliopoulos, L. R. Zukerberg, Y. Kohgo, et al 2005. Induction of interleukin-8 preserves the angiogenic response in HIF-1-deficient colon cancer cells. Nat. Med. 11: 992-997. [Medline]
7. Koo, S. W., K. A. Casper, K. B. Otto, A. K. Gira, R. A. Swerlick. 2003. Iron chelators inhibit VCAM-1 expression in human dermal microvascular endothelial cells. J. Invest. Dermatol. 120: 871-879. [Medline]
8. Ades, E. W., F. J. Candal, R. A. Swerlick, V. G. George, S. Summers, D. C. Bosse, T. J. Lawley. 1992. HMEC-1: establishment of an immortalized human microvascular endothelial cell line. J. Invest. Dermatol. 99: 683-690. [Medline]

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