DNA abnormalities in chronic lymphocytic leukemia (CLL), has revealed many altered genes that drive the mentioned common blood cancer, according to new research.
DNA abnormalities in chronic lymphocytic leukemia (CLL), has revealed many altered genes that drive the mentioned common blood cancer, according to new research. The finding could potentially facilitate doctors to predict if an individual patient's disease will evolve rapidly or stay indolent for years, opine scientists from Dana-Farber Cancer Institute and the Broad Institute. Using powerful "next-generation" DNA sequencing, the teams identified nine frequently mutated genes across 91 patients. Catherine J. Wu, MD, of Dana-Farber, a co-senior author of the report, says five of the mutated genes are implicated in CLL for the first time. Wu says that mutations in one of the new genes, SF3B1, interfere with gene splicing, or "editing" of RNA messages that form a genetic template the cell uses to build a specified protein. "We have identified a new cancer pathway – aberrant RNA splicing – that has been underappreciated," says Wu, a researcher in Dana-Farber's Cancer Vaccine Center.
An advanced online publication has been scheduled for Dec. 12 by the New England Journal of Medicine, to coincide with a presentation of the results (abstract 463) at the American Society of Hematology's 2011 annual meeting on Monday, Dec. 12 at 10:30 a.m. PST.
The study's other two co-senior authors are Jennifer Brown, MD, PhD, of Dana-Farber and Brigham and Women's Hospital, and Gad Getz, PhD, of the Broad Institute, where the sequencing search was carried out.CLL is the most common form of leukemia. The American Cancer Society expects it will be diagnosed in 14,570 patients in 2011, and projects 4,380 deaths. The behavior of the disease differs widely among patients. About half the time, CLL is aggressive, worsening steadily and rapidly, often with fatal outcomes. In many other patients, the leukemia is said to be "indolent," causing few symptoms for years or even decades. Doctors often choose not to treat the indolent form until symptoms become life-threatening.
Physicians have only a limited set of markers to predict the course of CLL in an individual, such as the presence of certain types of chromosome damage in the cancer cells, which are associated with more aggressive disease. Previous searches for predictive genetic clues spotted only a small number of "driver" mutations, but those hunts were limited in their power by the small number of tumor samples in the study.
The latest search harnessed Illumina sequencing technology at the Broad Institute to sequence leukemia and matched normal DNA samples from 91 patients with CLL, looking for frequently mutated genes in the tumors. They sequenced the entire genome in three patient samples, and only the protein-coding genes, collectively termed the "exome," in the other 88 patients.
The search turned up nine genes frequently mutated in the CLL samples, and these fell into five pathways regulating DNA damage repair, cell-cycle control, Notch signaling, inflammation, and RNA splicing/processing. Two had previously been associated with CLL and cancer in general. Another two mutations – MYD88 and NOTCH1 – were implicated in leukemia this year (2011). The remaining five, now identified for the first time as culprits in CLL, are SF3B1, FBXW7, DDX3X, MAPK1, and ZMYM3.
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The researchers checked to see whether CLL samples that contained the mutated genes also had specific deletions in chromosomes (the DNA structures that carry genes) previously known to signal a poor outlook in patients. They found that, indeed, the SF3B1 gene was often found in tandem with a particular chromosomal abnormality, consistent with a more aggressive form of CLL.
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The researchers said the study findings show the value of large-scale genome searches in elucidating cancers. The numerous genetic flaws uncovered by the search could not only aid in the prediction of disease course, they said, but also offer clues to the biological underpinnings of CLL, paving the way for novel targeted treatments.
Source-Eurekalert