Abstract
First- and second-generation EGFR tyrosine kinase inhibitors (TKI) are effective clinical therapies for patients with non-small cell lung cancer (NSCLC) harboring EGFR-activating mutations. However, almost all patients develop resistance to these drugs. The EGFR T790M mutation of EGFR is the most predominant mechanism for resistance. In addition, activation of AXL signaling is one of the suggested alternative bypassing pathways for resistance to EGFR-TKIs. Here, we report that naquotinib, a pyrazine carboxamide-based EGFR-TKI, inhibited EGFR with activating mutations, as well as T790M resistance mutation while sparing wild-type (WT) EGFR. In in vivo murine xenograft models using cell lines and a patient-derived xenograft model, naquotinib induced tumor regression of NSCLC with EGFR-activating mutations with or without T790M resistance mutation, whereas it did not significantly inhibit WT EGFR signaling in skin. Furthermore, naquotinib suppressed tumor recurrence during the treatment period of 90 days. In addition, unlike erlotinib and osimertinib, naquotinib inhibited the phosphorylation of AXL and showed antitumor activity against PC-9 cells overexpressing AXL in vitro and in vivo Our findings suggest that naquotinib has therapeutic potential in patients with NSCLC with EGFR-activating mutations, T790M resistance mutation, and AXL overexpression.
Highlights
EGFR mutations are detected in approximately 10% of non– small cell lung cancer (NSCLC) in Caucasian patients and approximately 40% of NSCLC in East Asian patients [1,2,3]
In vitro cell proliferation assays in human cancer cell lines harboring mutant EGFR or WT EGFR revealed that naquotinib inhibited the growth of NCI-H1975 (L858R/T790M), HCC827, PC-9, II-18 (L858R), A431 (WT), NCIH292 (WT), and NCI-H1666 (WT) cells with IC50 values of 26, 7.3, 6.9, 43, 600, 260, and 230 nmol/L, respectively (Table 1)
We characterized the efficacy of naquotinib, a pyrazine carboxamide–based compound, as a third-generation EGFR-tyrosine kinase inhibitors (TKI)
Summary
EGFR mutations are detected in approximately 10% of non– small cell lung cancer (NSCLC) in Caucasian patients and approximately 40% of NSCLC in East Asian patients [1,2,3]. EGFR mutations lead to constitutive activation of EGFR signaling, including the MAPK/ERK and PI3K/AKT pathways [4, 5] and oncogenic transformation, such as increased malignant cell survival, proliferation, invasion, metastatic spread, and tumor angiogenesis in NSCLC [6, 7]. The most common EGFR mutations are deletion in exon 19 (del ex19) and leucine-to-arginine substitution at amino acid position 858 (L858R) in exon 21 mutations, which together account for approximately 90% of activating EGFR mutations in NSCLC [8, 9].
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