✦ LIBER ✦

An in silico model for HIF-α regulation and hypoxia response in tumor cells

✍ Scribed by Meryem A. Yucel; Isil Aksan Kurnaz

Publisher: John Wiley and Sons
Year: 2007
Tongue: English
Weight: 284 KB
Volume: 97
Category: Article
ISSN: 0006-3592
DOI: 10.1002/bit.21247

No coin nor oath required. For personal study only.

✦ Synopsis

Abstract

The dependency of the growth and metastasis of tumors on the new blood vessel formation, or angiogenesis, has opened up new potentials to tumor therapy, nevertheless understanding the molecular mechanisms involved in angiogenesis is crucial in the bioengineering of novel anti‐angiogenic drugs. The key component in hypoxia sensing in tumor cells is the hypoxia‐inducible factor, HIF‐1α, which is inactivated through proteosome‐mediated degradation under normoxic conditions. Two enzymes have been reported to hydroxylate HIF‐1α, namely prolyl hydroxylase (PH), recruiting the proetasome complex and degrading cytoplasmic HIF‐1α, and asparaginyl hydroxylase/factor inhibiting HIF‐1α (FIH‐1), downregulating the recruitment of p300 to the promoter, thereby reducing the transcriptional activity of HIF‐1α. In this study, we have constructed an in silico model of a tumor cell using the GEPASI 3.30 biochemical simulation software (http://www.gepasi.org) and studied the performances of PH and FIH‐1 on HIF‐1α degradation and inactivation, respectively, as monitored by expression of the vascular endothelial growth factor, VEGF, during hypoxia. In our biochemical models, FIH‐1 can successfully increase hypoxic transcription of VEGF, however FIH‐1 on its own is not sufficient to inactivate HIF‐1 completely, leading to background VEGF transcription under normoxic conditions. On the other hand, PH is necessary to increase the hypoxic transcriptional response, and can effectively shut off normoxic transcription. We therefore propose that regulating PH activity can be a primary target for anti‐angiogenic bioengineering research. Biotechnol. Bioeng. 2007;97: 588–600. © 2006 Wiley Periodicals, Inc.

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