Hypoxia: Targeting the Tumour

Title: Hypoxia: Targeting the Tumour

Volume: 6 Issue: 4

Author(s): Robert George Boyle and Stuart Travers

Affiliation:

Keywords: Hypoxia, tumour targeting, bioreduction

Abstract: Solid tumours contain regions of very low oxygen concentrations that are said to be hypoxic. Hypoxia is a natural phenotype of solid tumours resulting from an imperfect vascular network. There are a number of consequences associated with tumour hypoxia including: resistance to ionising radiation, resistance to chemotherapy and the magnification of mutated p53. In addition tissue hypoxia has been regarded as a key factor for tumour aggressiveness and metastasis by activation of signal transduction pathways and gene regulatory mechanisms. It is clear that hypoxia in solid tumours promotes a strong oncogenic phenotype and is a phenomenon that occurs in all solid tumours. As such this provides a significant target for drug discovery particularly for tumour-targeting agents. A range of chemical classes (N-oxides, quinones, nitro-aromatics) have been explored as bioreductive agents that target tumour hypoxia. The most advanced agent, tirapazamine, is in phase III clinical trials in combination with cis-platin. The aim of this review is to give a brief overview of the current molecules and strategies being explored for targeting tumour hypoxia.

Cite this article as:

George Boyle Robert and Travers Stuart, Hypoxia: Targeting the Tumour, Anti-Cancer Agents in Medicinal Chemistry 2006; 6 (4) . https://dx.doi.org/10.2174/187152006777698169