CDNA Technologies and their application to drug resistance research: power, potential and problems.

Abstract

The effectiveness of systemic chemotherapy is dramatically limited by both intrinsic and acquired drug resistance. Several new technologies have been developed over the last decade to more rapidly identify underlying genetic alterations that impart a drug-resistant phenotype. Techniques such as cDNA-based subtraction technologies, SAGE analysis, and most recently cDNA array and high-density micro-array technologies have rapidly expanded our ability to detect changes in RNA transcription in drug-resistant tumors. These technologies are currently being applied to generate a large number of new hypotheses regarding the regulatory molecules underlying the drug-resistance phenotype. These techniques suggest that there is a large number of transcriptional changes which occur in the drug-resistance phenotype and future work will need to focus on dissecting which of these transcriptional changes are central to the drug resistance phenotype, both in vitro, and more importantly within clinical neoplasia. Copyright 2000 Harcourt Publishers Ltd.