Creating a free account will enable you to subscribe to our daily and weekly email newsletters, as well as customize your reading experience to show only the categories most relevant to you.
Signing up only take a few minutes, so why not give it a try and see what you've been missing out on.
Researchers at Boston University School of Medicine (BUSM) have discovered a molecule that could help lead to the non-invasive detection of lung cancer as well as its treatment. Using RNA sequencing, the team looked at airway epithelial cells and identified a regulatory molecule that was less abundant in people with lung cancer and inhibits lung cancer cell growth. The findings, which are published in the Proceedings of the National Academy of Sciences, suggest that this molecule may aid in diagnosing lung cancer in earlier stages and could potentially, when at healthy levels, aid in treating the disease.
According to the National Cancer Institute (NCI), lung cancer is the leading cause of cancer death among both men and women in the United States, and 90 percent of lung cancer deaths among men and approximately 80 percent of lung cancer deaths among women are due to smoking. The NCI also estimates that approximately 373,489 Americans are living with lung cancer and its treatment costs approximately $10.3 billion in the United States each year.
MicroRNA's are a new class of molecules classified as important regulators of the activity of other genes. In this study, the research team used a next-generation RNA sequencing technology and identified that a microRNA named miR-4423 in epithelial airway cells plays a major role in how these cells develop. In epithelial cells from the airway of smokers with lung cancer, levels of miR-4423 were decreased.
"These results suggest measuring the levels of microRNAs like miR-4423 in cells that line the airway could aid in lung cancer detection through a relatively non-invasive procedure," said Avrum Spira, MD, MSc, the Alexander Graham Bell professor of medicine and chief of the division of computational biomedicine at BUSM, one of the study's senior authors.
Using experimental models in vitro and in vivo, the research team demonstrated that miR-4423 can both promote the development of the normal airway cells and suppress lung cancer cell growth. This suggests that miR-4423 plays a major regulatory role in cell fate decisions made by airway epithelial cells during maturation and low levels of miR-4423 contributes to lung cancer development. Interestingly, throughout the body, miR-4423 seems only to be present in high levels in the airway epithelium, suggesting this could be a very specific process occurring only in the lungs.
"Our findings open up the option to study whether returning miR-4423 levels to normal in the airway could help stop cancer growth and potentially be a way to treat lung cancer," said Catalina Perdomo, PhD, a researcher in the division of computational biomedicine at BUSM who is the paper's lead author.
"Interestingly, when we examined the genomes of other species for microRNAs that might function like miR-4423, we did not find anything in non-primates," said Marc Lenburg, PhD, an associate professor in computational medicine and bioinformatics at BUSM who is one the study's senior authors. "It makes us wonder what it is different about lung development in primates and excited that this could be a very specific process to target for lung cancer treatment."
This study was funded in part by the National Institutes of Health's National Cancer Institute Early Detection Research Network under grant award numbers R01 CA 124640 and U01 CA152751; the National Science Foundation Integrative Graduate Education and Research Traineeship under grant award number P50CA58184; and Merit Review grants 5I01BX000359 and R43HL088807-01.
MicroRNA 4423 is a primate-specific regulator of airway epithelial cell differentiation and lung carcinogenesis. Published online before print October 24, 2013, doi: 10.1073/pnas.1220319110
Article adapted by Medical News Today from original press release. Click 'references' tab above for source.
Visit our Lung Cancer category page for the latest news on this subject.
Please use one of the following formats to cite this article in your essay, paper or report:
Boston University Medical Center. "Molecule identified that could aid lung cancer detection, treatment." Medical News Today. MediLexicon, Intl., 29 Oct. 2013. Web.
6 Dec. 2013. <http://www.medicalnewstoday.com/releases/267981>
Boston University Medical Center. (2013, October 29). "Molecule identified that could aid lung cancer detection, treatment." Medical News Today. Retrieved from
Please note: If no author information is provided, the source is cited instead.
If you write about specific medications, operations, or procedures please do not name healthcare professionals by name.
For any corrections of factual information, or to contact the our editorial team, please use our feedback form. Please send any medical news or health news press releases to:
Note: Any medical information published on this website is not intended as a substitute for informed medical advice and you should not take any action before consulting with a health care professional. For more information, please read our terms and conditions.
This page was printed from: http://www.medicalnewstoday.com/releases/267981.php
Visit www.medicalnewstoday.com for medical news and health news headlines posted throughout the day, every day.
© 2004-2013 All rights reserved. MNT (logo) is the registered trade mark of MediLexicon International Limited.