The discovery of the chromosomal fusion product of anaplastic lymphoma kinase (ALK) with echinoderm microtubule-associated protein-like 4 (EML4) (EML4-ALK) has changed the treatment paradigm of lung cancer.
These observations indicate that signals from oncogenic drivers (EGFR signaling in EGFR -mutant lung cancer and ALK signaling in EML4-ALK lung cancer) and ligand-triggered bypass signals (HGF-Met and EGFR ligands-EGFR, respectively) must be simultaneously blocked to avoid the resistance.
More recently, a surprising positive effect of an ALK inhibitor on EML4-ALK-positive lung cancer has been suggested that lung cancer in never smokers is likely to be an assemblage of molecularly defined subsets which would be a good candidate for personalized diagnostic and therapeutic approaches.
Similar levels of drug sensitivity were displayed by the three most common ALK fusion proteins in lung cancer (EML4-ALK variants E13;A20, E20;A20, and E6b;A20) as well as a KIF5B-ALK fusion protein.
One of the most recent targets is microtubule-associated human EML4 generating a fusion-type oncogene with ALK demonstrating marked transforming activity in lung cancer.
A lung cancer cell line expressing endogenous variant 3 of EML4-ALK underwent cell death on exposure to a specific inhibitor of ALK catalytic activity.