25 Jan

Salk Researchers Map The First Complete Human Epigenome

Although the human genome sequence faithfully lists (almost) every single DNA base of the roughly 3 billion bases that make up a human genome, it doesn’t tell biologists much about how its function is regulated. Now, researchers at the Salk Institute provide the first detailed map of the human epigenome, the layer of genetic control beyond the regulation inherent in the sequence of the genes themselves.

“In the past we’ve been limited to viewing small snippets of the epigenome,” says senior author Joseph Ecker, Ph.D., professor and director of the Genomic Analysis Laboratory at the Salk Institute and a member of the San Diego Epigenome Center. “Being able to study the epigenome in its entirety will lead to a better understanding of how genome function is regulated in health and disease but also how gene expression is influenced by diet and the environment.”

Their study, published in the Oct. 14, 2009 advance online edition of the journal Nature, compared the epigenomes of human embryonic stem cells and differentiated connective cells from the lung called fibroblasts, revealing a highly dynamic, yet tightly controlled, landscape of chemical signposts known as methyl-groups. The head-to-head comparison brought to light a novel DNA methylation pattern unique to stem cells, which may explain how stem cells establish and maintain their pluripotent state, the researchers say.

The emergence of epigenetics has already changed the way researchers think about how disease arises and how physicians treat it. Epigenetic changes play a crucial role in the development of cancer and some drugs that directly interact with the epigenome have been approved for the treatment of lymphoma and lung cancer and are now tested against a number of other cancer types. “Unless we know how these drugs affect the entire epigenome, we don’t really understand their full mechanism of action,” says Ecker.

Recognizing the central role of the epigenome in many areas of biology and medicine the National Institutes of Health launched a five-year Roadmap Epigenomics Program in 2008. The San Diego Epigenome Center, headed by Bing Ren, Ph.D., Professor of Cellular and Molecular Medicine at the University of California, San Diego School of Medicine and head of the Laboratory of Gene Regulation at the Ludwig Institute for Cancer Research, is an integral part of the five-year, $ 190 million push to accelerate research into modifications that alter genetic behavior across the human genome.

The current study, to which Ren and additional members of the Center located at the University of Wisconsin and the Morgridge Institute for Research in Madison, Wisconsin, also contributed, is not only the first complete high-resolution map of an epigenome superimposed on the human genome, but also the first study to be published as a direct result of the Roadmap Epigenomics Program.

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