Infant Nose, Lung Cells Possess Remarkably Similar RNA Patterns
Discovery could lead to new diagnostic methods, therapeutics for pediatric lung diseases
Thursday, October 13, 2016
Cells from an infant’s nose are remarkably similar to those found in the lungs, a discovery that could lead to much more precise diagnosis of respiratory syncytial virus (RSV) and other infant lung diseases, according to new research from the University of Rochester Medical Center (URMC).
The study, published in Scientific Reports, provides a potential avenue for diagnosis that has challenged physicians for years, as infants with respiratory disease are usually so fragile that attempting to obtain lung samples is unsafe. Nasal cells, however, can be captured through a simple swab of the nostril, and, their similarity to lung cells on an RNA level would allow physicians to get an accurate representation of how the lung is responding during disease states, without the need for more invasive tests.
“An infant with RSV could potentially have their nasal cells tested to determine if they are among the small group that will develop a severe response that might require hospitalization,” said Thomas Mariani, Ph.D., professor of Pediatrics at URMC. “Additionally, we could potentially use this method to examine other at-risk infants, such as those born prematurely who face a greater risk for lung disease throughout life — and identify which of those children should be treated more aggressively.”
The research also carries tremendous promise for future studies. While scientists have made significant progress over the past several decades to better understand adult lung diseases — such as chronic obstructive pulmonary disease and lung fibrosis — discovery has not been nearly as robust for infant diseases, due to the risks involved in securing lung tissue.
But the relative ease of obtaining nasal cells could accelerate understanding of how infant lungs respond to RSV and other diseases. While this study examined 53 healthy infants as a means of establishing a benchmark for normal cell structure, researchers at URMC have already begun studying the nasal tissue of diseased infants. Early results are promising.
“We’re actively working on studies in infants with lung diseases, and we’re showing quite clearly that we can identify differences between those with mild disease and those with more severe outcomes,” said Mariani, the study’s lead author.
The research is conducted by URMC’s Respiratory Pathogens Research Center, which coordinates its work with the national Respiratory Pathogens Research Center network established by the National Institute of Allergy and Infectious Diseases. Rochester's Center, under the direction of David Topham, Ph.D., focuses on research that will lead to a better understanding of the interactions between respiratory pathogens, the immune system, and other genetic and environmental factors.
ChinYi Chu, M.S., Xing Qiu, Ph.D., Lu Wang, M.S., Soumyaroop Bhattacharya, M.S., M.Ed., Gerry Lofthus, Ph.D., Anthony Corbett, M.S., Jeanne Holden-Wiltse, M.S., Alex Grier, M.S., Brenda Tesini, M.D., Steve Gill, Ph.D., Ann Falsey, M.D., Mary Caserta, M.D., and Ed Walsh, M.D., from the University of Rochester, contributed to these studies.