Abstract
BackgroundLung cancer is still the main cause of cancer death worldwide despite the availability of targeted therapies and immune-checkpoint inhibitors combined with chemotherapy. Cancer cell heterogeneity and primary or acquired resistance mechanisms cause the elusive behaviour of this cancer and new biomarkers and active drugs are urgently needed to overcome these limitations. p65BTK, a novel isoform of the Bruton Tyrosine Kinase may represent a new actionable target in non-small cell lung cancer (NSCLC).Methodsp65BTK expression was evaluated by immunohistochemistry in 382 NSCLC patients with complete clinico-pathological records including smoking habit, ALK and EGFR status, and in metastatic lymph nodes of 30 NSCLC patients. NSCLC cell lines mutated for p53 and/or a component of the RAS/MAPK pathway and primary lung cancer-derived cells from Kras/Trp53 null mice were used as a preclinical model. The effects of p65BTK inhibition by BTK Tyrosine Kinase Inhibitors (TKIs) (Ibrutinib, AVL-292, RN486) and first-generation EGFR-TKIs (Gefitinib, Erlotinib) on cell viability were evaluated by MTT. The effects of BTK-TKIs on cell growth and clonogenicity were assessed by crystal violet and colony assays, respectively. Cell toxicity assays were performed to study the effect of the combination of non-toxic concentrations of BTK-TKIs with EGFR-TKIs and standard-of-care (SOC) chemotherapy (Cisplatin, Gemcitabine, Pemetrexed).Resultsp65BTK was significantly over-expressed in EGFR-wild type (wt) adenocarcinomas (AdC) from non-smoker patients and its expression was also preserved at the metastatic site. p65BTK was also over-expressed in cell lines mutated for KRAS or for a component of the RAS/MAPK pathway and in tumors from Kras/Trp53 null mice. BTK-TKIs were more effective than EGFR-TKIs in decreasing cancer cell viability and significantly impaired cell proliferation and clonogenicity. Moreover, non-toxic doses of BTK-TKIs re-sensitized drug-resistant NSCLC cell lines to both target- and SOC therapy, independently from EGFR/KRAS status.Conclusionsp65BTK results as an emerging actionable target in non-smoking EGFR-wt AdC, also at advanced stages of disease. Notably, these patients are not eligible for EGFR-TKIs-based therapy due to a lack of EGFR mutation. The combination of BTK-TKIs with EGFR-TKIs is cytotoxic for EGFR-wt/KRAS-mutant/p53-null tumors and BTK-TKIs re-sensitizes drug-resistant NSCLC to SOC chemotherapy. Therefore, our data suggest that adding BTK-TKIs to SOC chemotherapy and EGFR-targeted therapy may open new avenues for clinical trials in currently untreatable NSCLC.
Highlights
Lung cancer is still the main cause of cancer death worldwide despite the availability of targeted therapies and immune-checkpoint inhibitors combined with chemotherapy
When we analyzed p65BTK expression according to nodal status of non-small cell lung cancer (NSCLC) patients, we found that tumor from patients with distant nodal metastases expressed higher levels of the protein than tumors with loco-regional or no nodal involvement (Fig. 1e)
Data are presented as mean ± SEM. n ≥ 3 independent experiments p65BTK inhibition strongly impairs proliferation and clonogenicity of NSCLC cell lines Given the significant reduction in cell number obtained with Bruton tyrosine kinase (BTK) inhibitors, we investigated the effects of p65BTK inhibition on cell proliferation and clonogenicity of NSCLC cell lines
Summary
Lung Cancer patients A previously described series of 383 chemo- and/or radio-naïve NSCLC patients who underwent surgery for therapeutic purposes at Fondazione IRCCS Ca′ GrandaOspedale Maggiore Policlinico Hospital (Milan, Italy) between 2004 and 2010 [19] was used to investigate p65BTK expression and correlation with patients’ clinic-pathological features. P65BTK cytoplasmic staining was evaluated and scored in all cases, by two pathologists independently, as percentage of positive neoplastic cells in all tumour cores or in the whole section (for metastatic lymph nodes). Cells were treated with the different concentrations of inhibitors (day 0) and cell number was evaluated after 72 h using an MTT-based assay (Sigma-Aldrich) according to the manufacturer’s instructions. Caspase assay 2 × 104 cells/well were seeded in triplicate in 96-well plates, let adhere overnight, and treated for 24hs before evaluating active caspase-3/7 by Caspase-Glo3/7 Assay System (Promega, Milan, Italy) according to the manufacturer’s instructions. Immunofluorescence staining NSCLC cell lines were seeded at a density of 10× 105 cells/well on glass slides pretreated with Polylysine (Sigma) and grown for 2 days. A probability (p) value less than 0.05 was considered as statistically significant
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