Genomics and Cancer Drug Resistance

Antonio S. Rodrigues, Joana Dinis, Marta Gromicho, Celia Martins, Antonio Laires, Jose Rueff

doi:10.2174/138920112799857549

Abstract

Cellular drug resistance is a major obstacle in cancer therapy. Mechanisms of resistance can be associated with altered expression of ATP-binding cassette (ABC) family of transporters on cell membrane transporters, the most common cause of multi-drug resistance (MDR), but can also include alterations of DNA repair pathways, resistance to apoptosis and _target modifications. Anti-cancer treatments may be divided into different categories based on their purpose and action: chemotherapeutic agents damage and kill dividing cells; hormonal treatments prevent cancer cells from receiving signals essential for their growth; _targeted drugs are a relatively new cancer treatment that _targets specific proteins and pathways that are limited primarily to cancer cells or that are much more prevalent in cancer cells; and antibodies function by either depriving the cancer cells of necessary signals or by causing their direct death. In any case, resistance to anticancer therapies leads to poor prognosis of patients. Thus, identification of novel molecular _targets is critical in development of new, efficient and specific cancer drugs. The aim of this review is to describe the impact of genomics in studying some of the most critical pathways involved in cancer drug resistance and in improving drug development. We shall also focus on the emerging role of microRNAs, as key gene expression regulators, in drug resistance. Finally, we shall address the specific mechanisms involved in resistance to tyrosine kinase inhibitors in chronic myeloid leukemia.

Keywords: ABC transporters, apoptosis, chronic myeloid leukemia, DNA repair, drug resistance, gene expression, growth receptors, MicroRNAs, cancer therapy, ATP-binding cassette (ABC) family, of multi-drug resistance (MDR), tyrosine kinase inhibitors