Of the roughly 20,000 people in the U.S. diagnosed with oesophageal cancer this year, just 4,000 are likely to still be alive in 2027.
Such dire data has long driven researchers to try to understand the roots of the disease, but they have discovered little—until now.
A team of researchers at the Case Western Reserve University School of Medicine and Case Comprehensive Cancer Center believe they have identified a cell signalling pathway responsible for the development of oesophageal adenocarcinomas, an aggressive form of oesophageal cancer that has gradually become more common, even in younger people.
“The incidence of oesophageal cancers has increased several fold over the last few decades, making it the most common oesophageal malignancy in the U.S.,” said Kishore Guda, associate professor at the School of Medicine and member of the Case Comprehensive Cancer Center.
“Like gastric and pancreatic cancers, these are highly aggressive malignancies that can be resistant to treatment, with dismal survival rates and with lack of effective targeted therapies.”
New research published this month in Gastroenterology explains how an important molecular signal, known to scientists as the “Ephrin B2 (EphB2) Tyrosine kinase pathway,” is activated during the development of oesophageal adenocarcinomas and contributes to cancer growth.
The findings also show that the EphB2 pathway appears to control the growth of cancer cells while also regulating the behaviour of normal oesophageal cells.
“From a molecular standpoint, EphB2 induces the levels of a well-recognised pro-cancer gene, called c-MYC. One mechanism by which EphB2 seems to affect MYC levels is through its direct interaction with a protein known as MYCBP2, which is a suppressor of MYC activity,” Guda said.
“This is the first discovery to our knowledge that demonstrates EphB2 regulation of MYC and its physical interaction with MYCBP2.”
By analysing normal, pre-cancer, and cancerous biopsy samples with RNA sequencing, the researchers found that EphB2 signalling is hyperactivated in nearly all instances of oesophageal adenocarcinomas as well as a condition called Barrett’s oesophagus.
Barrett’s oesophagus occurs when the lining of the oesophagus becomes damaged by acid reflux, resulting in the replacement of oesophageal cells with intestinal-type cells.
This condition is linked to an increased risk of developing oesophageal cancer, according to the National Institutes of Health (NIH).
The scientists believe the EphB2 pathway is an attractive therapeutic target and suppressing its activity in cancer could be a beneficial treatment strategy for these cancers.
“Our immediate goal is to explore and develop EphB2 chemical inhibitors and/or EphB2-targeting immune-cell based strategies, and to test their efficacy in preclinical oesophageal as well as gastric cancer models, followed by transitioning to human trials,” said Guda.
Source: Case Western Reserve University