Cisplatin DNA damage and repair maps of the human genome at single-nucleotide resolution

The chemotherapy drug cisplatin kills cancer cells by damaging their DNA. It has been used for treating a variety of cancer types for almost four decades. Although the drug is generally effective, it has strong adverse side effects, and some cancers exhibit or, after initial favorable response, develop drug resistance. The mechanism of drug resistance is multifactorial and involves the ability of cancer cells to repair the cisplatin-induced DNA damages. We have developed methods to map the sites of cisplatin damage and its repair for the entire human genome at single-nucleotide resolution. These methods can be used to study cancer sensitivity and resistance to the drugs, and to identify new strategies for efficient combination therapies.