Jens Meiler Lab Published Study Revealing Need for Matching Targeted Therapies with EGFR Subtypes

New research from Vanderbilt investigators suggests that clinicians should take a deeper dive into distinguishing EGFR mutations when prescribing targeted therapies for non-small-cell lung cancers.

EGFR exon 19 deletion mutations are the most common EGFR mutations in patients with lung cancer. However, the term “exon 19 deletion” is a catch-all phrase used to denote more than 20 distinct EGFR mutations that have different genomic coordinates and different protein structures. Despite these differences, all EGFR exon 19 deletion mutations are currently treated the same in the clinic.

The team’s goal was to provide data that would support bringing further precision into the care of patients with EGFR-mutant lung cancer. Coupling computational, biophysical and biochemical methods with patient level data, the researchers showed that allele-specific differences matter with respect to how individual exon 19 deletion variants respond to EGFR-directed tyrosine kinase inhibitor targeted therapies. Meaning, even within the “bin” of EGFR exon 19 deletion mutations, there are some mutations within this bin that are more or less sensitive to currently available EGFR targeted therapies used in the clinic. Through their analyses, the researchers provide a framework for how to better classify the heterogenous group of EGFR exon 19 deletion variants and offer suggestions for which EGFR-directed therapies may be most efficacious in each group.

The work, published in Proceedings of the National Academy of Sciences, is the latest finding from an interdisciplinary team from the Vanderbilt University lab of Jens Meiler, PhD, professor of Chemistry, Pharmacology and Biomedical Informatics, and the Vanderbilt University Medical Center lab of Christine Lovly, MD, PhD, Ingram Associate Professor of Cancer Research and associate professor of Medicine. Adam Smith, PhD, associate professor of Chemistry from the University of Akron, is also a key member of the team, providing his expertise in biophysics and membrane-bound proteins.

Read more in the VUMC Reporter here.