September 14, 2017

Acid reflux cancer link

Blocking acid reflux-induced production of reactive oxygen compounds may be a useful strategy for preventing DNA damage and decreasing the risk of esophageal cancer.

by Sanjay Mishra

Esophageal adenocarcinoma (EA) is an increasingly common cancer that silently affects the esophagus – the muscular tube that moves food into stomach. What causes EA is not well known but gastroesophageal reflux disease (GERD), characterized by chronic heartburn/acid reflux, is the strongest known risk factor.

Now in a study published in the journal Scientific Reports, Alexander Zaika, Ph.D. and coworkers show that DNA damage in the esophageal cells caused by acidic bile reflux (BA/A) activates enzymes called NADPH oxidases in the mitochondria, the cell’s power house, to release highly reactive-oxygen species (ROS).

Zaika and his team identified two specific enzymes, NOX1 and NOX2, which were responsible for ROS generation. When they blocked NOX1 and NOX2 with small interfering RNA (siRNA) or chemical inhibitors, ROS production and DNA damage induced by BA/A was significantly reduced.

Inhibition of ROS induced by reflux may be a useful strategy for preventing DNA damage and decreasing the risk for tumor formation caused by GERD, they concluded.

This work was supported by grants from the National Institutes of Health (CA206564, CA138833, CA068485, DK058404) and the Department of Veterans Affairs.

Send suggestions for articles to highlight in Aliquots and any other feedback about the column to aliquots@vanderbilt.edu