Gastrin-Releasing Peptide Receptors Stimulate MAPK-Mediated Growth of Lung Cancer Cells by Transactivating HER4 in a Neuregulin-1, MAP Kinase-Dependent Manner Requiring Activation of the ROS-System.

The bombesin (Bn) receptor family [Gastrin-releasing peptide (GRPR/BB2R) and Neuromedin B receptors (NMBR/BB1R)] are G-protein coupled receptors (GPCR's) with potent growth effects on normal tissues/numerous cancers, often by transactivating the ErbB receptor-tyrosine kinase (RTK) family. Whereas GRPR stimulation transactivates ErbB RTKs EGFR, HER2, and HER3 in non-small cell lung-cancer (NSCLC) cells, its effects on HER4 are unknown. This study was designed to address this question. Of 12 NSCLC's studied, 75% had HER4 mRNA expression and Western-Blotting. NCI-H522 and NCI-H661-cells had high levels of GRPR, HER4, and the HER4-ligand neuregulin (NRG1). Adding GRP to NCI-H522/NCI-H661-cells activated HER4, shown by its increased phosphorylation (P-HER4). The GRPR antagonists PD176252/BW2258U89 inhibited this increase. In NCI-H661-cells, GRP stimulated the formation of HER4-homodimers and HER2-HER4-heterodimers. Adding GRP to these NSCLC-cells increased P-ERK/P-AKT, which was inhibited by siRNA-HER4, PD176252, and ibrutinib, as well as N-acetylcysteine and Tiron, which reduce reactive-oxygen species (ROS). GRP increased secretion of NRG1 from NSCLC-cells, and NRG1 increased P-HER4 and P-ERK, which were impaired by ibrutinib. GRP and NRG1 stimulated proliferation of NSCLC-cells, which was inhibited by PD176252, siRNA-HER4, or ibrutinib and which was mediated by MAPK, not AKT/PI3K, activation. These results show GRPR activation results in HER4 transactivation in a ROS-dependent manner, which stimulates NSCLC-growth through a MAPK-mediated mechanism.