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Ovarian cancer oncogene found in 'junk DNA'

Date:
September 6, 2014
Source:
University of Pennsylvania School of Medicine
Summary:
A research team has mined 'junk DNA' sequences to identify a non-protein-coding RNA whose expression is linked to ovarian cancer. Using clinical, genetic, and gene expression data as filters to distinguish genes whose copy number alteration causes cancer from those for whom copy number changes are incidental, the team whittled down their list from 14,000 to a more manageable number, each of which they systematically tested using genetic experiments in animals.
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Over the years researchers have made tremendous strides in the understanding and treatment of cancer by searching genomes for links between genetic alterations and disease.

Most of those studies have focused on the portion of the human genome that encodes protein -- a fraction that accounts for just 2 percent of human DNA overall. Yet the vast majority of genomic alterations associated with cancer lie outside protein-coding genes, in what traditionally has been derided as "junk DNA." Researchers today know that "junk DNA" is anything but -- much of it is transcribed into RNA, for instance -- but finding meaning in those sequences remains a challenge.

Now a team led by Lin Zhang, PhD, research associate professor in the Department of Obstetrics and Gynecology at the Perelman School of Medicine at the University of Pennsylvania, has mined those sequences to identify a non-protein-coding RNA whose expression is linked to ovarian cancer. The study is published online in Cancer Cell.

Supported by the Basser Research Center for BRCA in Penn's Abramson Cancer Center, Zhang and his team built a DNA copy number profile for nearly 14,000 long non-coding RNA, or lncRNAs, across 12 cancer types, including ovarian and breast cancers -- the two major BRCA-related cancers. They found that the number of copies of lncRNA genes on a chromosome consistently change in 12 different cancer types and lncRNA genes are widely expressed in cancer cells.

What these non-protein-coding RNAs do is still relatively unknown. However, given their vast numbers in the human genome, researchers believe that they likely play important roles in normal human development and response to disease.

Using clinical, genetic, and gene expression data as filters to distinguish genes whose copy number alteration causes cancer from those for whom copy number changes are incidental, the team whittled down their list from 14,000 to a more manageable number, each of which they systematically tested using genetic experiments in animals.

Of the 37 lncRNAs the team fully tested, one, which they called focally amplified lncRNA on chromosome 1, or FAL1, had all the makings of an RNA oncogene. FAL1 is one of only a handful of lncRNAs to be linked to cancer to date. This knowledge is being applied for clinical applications. For example, FAL1 expression may be a biomarker of BRCA-related cancer prognosis and the basis of new anti-cancer therapeutics. As proof-of-principle of the potential efficacy, Zhang's team grew human ovarian tumors in immunocompromised mice, then injected short-interfering RNAs to block the tumors' growth using RNA interference against FAL1. The tumors in treated animals shrank over the course of the experiment, while tumors in control animals continued to grow.

Personalized Diagnostics

FAL1 is overexpressed in ovarian and breast cancer samples. Blocking the activity of the gene via RNA interference reduces cancer cells' growth, while overexpressing it in normal cells increases their growth. When the team assessed FAL1 expression in human ovarian cancer samples, they found that high FAL1 expression tended to correlate with poor clinical prognosis.

"This is the first genome-wide study to use bioinformatics and clinical information to systematically identify one lncRNA, which we found to be oncogenic," Zhang says.

Finally, the team investigated what FAL1 does. They looked for proteins that associate with the FAL1 RNA and identified a protein called BMI1, a member of a gene regulatory complex called PRC1. In the absence of FAL1, the BMI1 protein is unstable. FAL1 RNA stabilizes BMI1, which in turn acts to turn down the expression of several hundred other genes. One of those downregulated genes encodes a tumor suppressor protein called p21.

These data, Zhang explains, suggest a molecular mechanism in which amplification of the FAL1 gene in ovarian cancer causes a surfeit of FAL1 RNA. That leads to enhanced stability of the BMI1 protein and downregulation of p21 and ultimately, unrestrained cell growth.

FAL1 expression may be able to serve as a biomarker of BRCA-related cancer prognosis, assuming these findings can be validated in other populations. But there also is the potential for new anti-cancer therapeutics, he says, whether those are therapeutics specifically targeting FAL1 RNA or small molecules that block the interaction between FAL1 and BMI1.


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Materials provided by University of Pennsylvania School of Medicine. Note: Content may be edited for style and length.


Journal Reference:

  1. Xiaowen Hu, Yi Feng, Dongmei Zhang, Sihai D. Zhao, Zhongyi Hu, Joel Greshock, Youyou Zhang, Lu Yang, Xiaomin Zhong, Li-Ping Wang, Stephanie Jean, Chunsheng Li, Qihong Huang, Dionyssios Katsaros, Kathleen T. Montone, Janos L. Tanyi, Yiling Lu, Jeff Boyd, Katherine L. Nathanson, Hongzhe Li, Gordon B. Mills, Lin Zhang. A Functional Genomic Approach Identifies FAL1 as an Oncogenic Long Noncoding RNA that Associates with BMI1 and Represses p21 Expression in Cancer. Cancer Cell, 2014; 26 (3): 344 DOI: 10.1016/j.ccr.2014.07.009

Cite This Page:

University of Pennsylvania School of Medicine. "Ovarian cancer oncogene found in 'junk DNA'." ScienceDaily. ScienceDaily, 6 September 2014. <www.sciencedaily.com/releases/2014/09/140906093056.htm>.
University of Pennsylvania School of Medicine. (2014, September 6). Ovarian cancer oncogene found in 'junk DNA'. ScienceDaily. Retrieved March 18, 2024 from www.sciencedaily.com/releases/2014/09/140906093056.htm
University of Pennsylvania School of Medicine. "Ovarian cancer oncogene found in 'junk DNA'." ScienceDaily. www.sciencedaily.com/releases/2014/09/140906093056.htm (accessed March 18, 2024).

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