Abstract 2103: Activating alternative receptor tyrosine kinases induced alectinib-resistance in ALK rearranged non-small cell lung cancer cells

Background The second-generation anaplastic lymphoma kinase (ALK) tyrosine kinase inhibitor (TKI), alectinib, demonstrated high response rate, long response duration and a favorable toxic profile in patients with ALK-rearranged advanced non-small cell lung cancer in a phase II study (Lancet Oncol 14:590-8, 2013). However, even this promising drug is predicted to develop acquired resistance. Therefore, we investigated the mechanisms of resistance using two alectinib-resistant cell lines. Methods We established alectinib-resistant cell lines, H2228/CHR and ABC-11/CHR, from H2228 (EML4-ALK fusion genes variant 3a/b E6) and ABC-11 (EML4-ALK fusion genes variant 3b E6) respectively, by continuous exposure to alectinib. They were characterized using MTT assay, Western blotting, receptor tyrosine kinase array, ELISA, FISH, RT-PCR, and xenograft models. Results H2228/CHR and ABC-11/CHR cells were 117- and 40-fold more resistant than the parental lines, respectively, and maintained downstream AKT and ERK phosphorylation even in the presence of 10 μM alectinib. There were no ALK secondary mutations in those resistant cell lines. H2228/CHR lost the EML4-ALK fusion gene, and exhibited increased activation of insulin-like growth factor-1 receptor (IGF-1R) and human epidermal growth factor receptor 3 (HER3) with overexpression of the HER3 ligand neuregulin 1. Accordingly, pharmacologic inhibition of IGF-1R and HER3 signaling overcame the resistance. In ABC-11/CHR, MET was activated by stimulated hepatocyte growth factor (HGF) autocrine signaling. We found HGF gene translocation underlying the HGF autocrine system. Anti-HGF antibody suppressed the MET activation and combined treatment with alectinib and anti-HGF antibody or a MET inhibitor suppressed downstream signaling in ABC-11/CHR cells. Finally, crizotinib, which targets both ALK and MET, most effectively inhibited the growth of ABC-11/CHR both in vitro and in vivo. Conclusions We identified novel alectinib resistance mechanisms caused by the activation of alternative tyrosine kinase receptors. Our findings provide new insights into constructing a therapeutic strategy for ALK-positive lung cancer. Citation Format: Hideko Isozaki, Eiki Ichihara, Masayuki Yasugi, Nagio Takigawa, Kadoaki Ohashi, Toshio Kubo, Takashi Ninomiya, Nobuaki Ochi, Daisuke Minami, Kenichiro Kudo, Yuka Kato, Hiroe Kayatani, Tomoki Tamura, Kiichiro Ninomiya, Toshio Higo, Tsuyoshi Makimoto, Akiko Sato, Katsuyuki Hotta, Kunio Matsumoto, Toshiaki Se