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Clear cell renal carcinoma, the most common form of adult kidney cancer, is often characterized by the presence of inactivating mutations in the VHL gene. A large survey for somatic mutations now identifies inactivating mutations in two genes encoding enzymes involved in histone modification, highlighting the role of mutations in components of the chromatin modification machinery in human cancer.

Pancreatic cancer is highly aggressive, usually because of widespread metastasis. Here, next-generation DNA sequencing has been used to detect genomic rearrangements in 13 patients with pancreatic cancer and to explore clonal relationships among metastases. The results reveal not only considerable inter-patient heterogeneity, but also ongoing genomic instability and evolution during the development of metastases.

Using large-scale exome sequencing, this study identifies a second (after VHL) frequently mutated gene in clear cell renal cell carcinomas, the most frequent type of kidney cancer. PBRM1, a member of the SWI/SNF complex involved in transcriptional regulation, is mutated in about 40% of cases and shown to function as tumour suppressor gene. PBRM1 was independently found as a putative cancer gene involved in pancreatic cancer in a mouse transposon screen.

Andrew Futreal and colleagues report inactivating somatic mutations in the histone lysine demethylase gene UTX in human cancers, including multiple myelomas, esophageal squamous carcinomas, renal clear cell carcinomas, acute and chronic myeloid leukemias, breast and colorectal cancers and glioblastomas, identifying UTX as a new tumor suppressor gene.

Here, the genomes of a malignant melanoma and a lymphoblastoid cell line from the same person are sequenced, providing the first comprehensive catalogue of somatic mutations from an individual cancer. The data provide insight into the causes of tumour formation and the development of the cancer genome, with the dominant mutational signature reflecting DNA damage due to ultraviolet light exposure.

Tobacco smoke contains more than sixty carcinogens that bind and mutate DNA. Here, massively parallel sequencing technology is used to sequence a small-cell lung cancer cell line, exploring the mutational burden associated with tobacco smoking. Multiple mutation signatures from the cocktail of carcinogens in tobacco smoke are found, as well as evidence of transcription-coupled repair and another, more general, expression-linked repair pathway.

Multiple somatic rearrangements are often found in cancer genomes, but the underlying processes of rearrangement and the effects of this are unclear. A paired-end sequencing strategy is now used to map somatic rearrangements in human breast cancer genomes. More rearrangements in some breast cancers are found than previously recognized, including frequent tandem duplications that may reflect a specific defect in DNA maintenance.