The Broad Institute and Sanger Institute announced yesterday (March 28) details from their separate cancer cell line databases, the largest such repositories of genomic and drug profiling data to date. With preliminary results published in two Nature papers, the databases should help researchers identify which drugs to use against which cancers to streamline drug development efforts. <\/p>\n
This continues to move us towards cancer being understood as a molecular disease instead of an anatomical disease, said Eileen Dolan, who studies pharmacogenomics at the University of Chicago and was not involved in either study. It will help us understand our existing drugs, as well as new drugs, to make more informed decisions in phase I and phase II trials. <\/p>\n
In recent years, researchers have become increasingly aware that whether a tumor will respond to a given drug treatment depends on its genomic profile. But because of the vast number of cell lines and variety of drug options, researchers in smaller labs often dont have the resources to identify the best fit for the cancer type or drug theyre studying. <\/p>\n
For any variety of cancer drugs that are being developed, we cant necessarily know in advance which cancers are going to be vulnerable, said Levi Garraway, a cancer biologist at the Dana Farber Cancer Institute who spearheaded the Broad project. If you have a large collection of cell lines that are deeply annotated genetically and molecularly, you can probe the biology linked to many types of genetic alterations of interest. <\/p>\n
Four years ago, Garraway and his colleagues began a massive screen of 947 cancer cell lines, sequencing cancer-associated genes, profiling drugs, collecting RNA expression data using microarrays, and combing the cancer genomes for repeated regions. And they werent too far along when they learned of a parallel project at the Sanger Institute, led by genomicist Mathew Garnett. <\/p>\n
The projects arent identical; they screen different genes and different drugs using slightly different methods. For this reason, Garnett views the two databases as complementary. There was sufficient non-overlap that it was possible to make different observations, agreed Garraway. (See table for details.) <\/p>\n
Plus, having two separate databases rather than pooling the data, as previous databases have done, could lend more weight to certain findings. I think having two independent resources is a good thing, said Jian Ma, a computational genomicist at the University of Illinois, who did not participate in the research. If two different groups have the same result for one cell line, it would be more reliable. <\/p>\n
The two Nature papers, submitted as a pair, describe how the data for each project were collected, and include confirmatory experiments to demonstrate how the databases could enhance cancer drug development. Garnetts project, called the Cancer Cell Line Encyclopedia, identified a mutation in Ewings sarcoma cells that is highly sensitive to PARP inhibitors, for example. Meanwhile, Garraways database, the Genomics of Drug Sensitivity in Cancer project, includes data suggesting that MEK inhibitors, a class of cancer drugs that target the RAS oncogene, may have increased efficacy in cancers with a mutation in another gene, AHR. <\/p>\n
The ultimate hope is that the databases will be used to help people with cancer by better matching a cancer type to a drug, and identifying which patients to enroll in clinical trials based on their genetic flavor of cancer. Often, drugs fail [in clinical trails] simply because theyre not tested in the right people, said Garnett. A better understanding of how drugs respond to genetic mutations, helped by the databases, could help clinicians single out what populations are most likely to respond. <\/p>\n<\/p>\n
Continued here: The Broad Institute and Sanger Institute announced yesterday (March 28) details from their separate cancer cell line databases, the largest such repositories of genomic and drug profiling data to date. With preliminary results published in two Nature papers, the databases should help researchers identify which drugs to use against which cancers to streamline drug development efforts. Continue reading
\nCollecting Cancer Data<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"