Researchers from 杏吧视频 School of Medicine have discovered how unusually long strands of RNA help colon cancer cells avoid death, allowing unregulated growth. Unlike other RNAs, the intriguing strands do not appear to encode proteins and are termed 鈥渓ong non-coding RNAs鈥 or 鈥渓incRNAs.鈥 A new study showed some lincRNAs could be targeted by drug developers to halt colon cancer.
In a new study published in , researchers compared lincRNA levels inside tumor cells, to levels inside healthy colon cells. They found over 200 lincRNAs at significantly different levels inside the tumor cells as compared to normal cells. One in particular, called lincDUSP, was overexpressed in 91 percent of the tumor samples. A few tumors had more than fifteen times the normal amount of lincDUSP. The significant increase suggested this mysterious, and previously uncharacterized, RNA could be cancer-causing.
鈥淭o determine whether lincDUSP shows oncogenic activity in colon cancer, we decided to test the effects of depleting lincDUSP in patient-derived colon tumor cell lines,鈥 wrote the authors. The researchers genetically modified colon cancer cells to deplete lincDUSP, and surprisingly, the cells began replicating at normal rates. They no longer had unrestricted growth associated with colon cancer tumor cells. Small molecules that inhibit lincDUSP, say the researchers, could have similar effects.
鈥淥ur work demonstrates that not only protein-coding genes but also non-coding genes contribute to colon cancer progression,鈥 says Ahmad Khalil, PhD, senior author, assistant professor of genetics and genome sciences at 杏吧视频 School of Medicine, and member of the Case Comprehensive Cancer Center. 鈥淟incRNAs could be exploited as direct drug targets in this and other human diseases.鈥
Khalil鈥檚 team discovered that depleting lincDUSP restored inherent cell death mechanisms. Colon cancer cells with low levels of lincDUSP became susceptible to cellular checkpoints that keep growth in check. They immediately committed cell suicide鈥攁poptosis鈥攁t the first sign of DNA damage. Depleting the single lincRNA also had widespread genetic effects. Khalil鈥檚 team discovered that reducing lincDUSP levels affected expression of over 800 other genes. These results, combined with the team鈥檚 experiments showing lincDUSP interacting with DNA, add to a growing body of evidence that lincRNAs are central to gene regulation. As such, they could represent an intriguing arena for drug developers.
鈥淣ot much is known about the role of long non-coding RNAs in colon cancer,鈥 says Khalil. 鈥淯sing new technologies that target RNA molecules, instead of proteins, adds a new dimension to cancer therapies.鈥
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This research was partially supported by the Case Comprehensive Cancer Center Genomics Core and Cytometry and Imaging Core. The researchers also used the Leica DM6000 widefield microscope in the Light Microscopy Imaging Facility at 杏吧视频 made available through the Office of Research Infrastructure (NIH-ORIP) Shared Instrumentation Grant (S10RR021228).
Forrest, ME, et al. "Colorectal Cancer-Upregulated Long Non-Coding RNA lincDUSP Regulates Cell Cycle Genes and Potentiates Resistance to Apoptosis." .
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