Abstract
Simple SummaryInvasive subtypes of lung adenocarcinoma (LUAD) show MDM2 amplification that is associated with poor survival. Mouse double minute 2 (MDM2) is frequently amplified in lung adenocarcinoma (LUAD) and is a negative regulator of p53, which binds to p53 and regulates its activity and stability. Genomic amplification and overexpression of MDM2, together with genetic alterations in p53, leads to genomic and genetic heterogeneity in LUAD that represents a therapeutic target. In vitro assays in a panel of LUAD cell lines showed that tumor cell response to MDM2-targeted therapy is associated with MDM2 amplification.Lung cancer is the most common cause of cancer-related deaths in both men and women, accounting for one-quarter of total cancer-related mortality globally. Lung adenocarcinoma is the major subtype of non-small cell lung cancer (NSCLC) and accounts for around 40% of lung cancer cases. Lung adenocarcinoma is a highly heterogeneous disease and patients often display variable histopathological morphology, genetic alterations, and genomic aberrations. Recent advances in transcriptomic and genetic profiling of lung adenocarcinoma by investigators, including our group, has provided better stratification of this heterogeneous disease, which can facilitate devising better treatment strategies suitable for targeted patient cohorts. In a recent study we have shown gene expression profiling identified novel clustering of early stage LUAD patients and correlated with tumor invasiveness and patient survival. In this study, we focused on copy number alterations in LUAD patients. SNP array data identified amplification at chromosome 12q15 on MDM2 locus and protein overexpression in a subclass of LUAD patients with an invasive subtype of the disease. High copy number amplification and protein expression in this subclass correlated with poor overall survival. We hypothesized that MDM2 copy number and overexpression predict response to MDM2-targeted therapy. In vitro functional data on a panel of LUAD cells showed that MDM2-targeted therapy effectively suppresses cell proliferation, migration, and invasion in cells with MDM2 amplification/overexpression but not in cells without MDM2 amplification, independent of p53 status. To determine the key signaling mechanisms, we used RNA sequencing (RNA seq) to examine the response to therapy in MDM2-amplified/overexpressing p53 mutant and wild-type LUAD cells. RNA seq data shows that in MDM2-amplified/overexpression with p53 wild-type condition, the E2F → PEG10 → MMPs pathway is operative, while in p53 mutant genetic background, MDM2-targeted therapy abrogates tumor progression in LUAD cells by suppressing epithelial to mesenchymal transition (EMT) signaling. Our study provides a potentially clinically relevant strategy of selecting LUAD patients for MDM2-targeted therapy that may provide for increased response rates and, thus, better survival.
Highlights
Lung adenocarcinoma is associated with a high degree of molecular heterogeneity through multiple mechanisms, such as somatic driver mutations, transcriptional dysregulation, and copy number alterations that include loss or gain in chromosomal region, copy number gain and amplification
Subtype breakdown showed MDM2 was amplified in 8% Adenocarcinoma in situ (AIS)/MIA, 15% Lepidic predominant adenocarcinoma (LPA), 18% acinar predominant (AC), 13% mucinous adenocarcinoma (MUC), 19% micro-papillary predominant (MP), 8% papillary predominant (PAP) and ~23% in solid predominant (SOL) cases (Figure 1A)
This data indicated a higher percentage of MDM2 amplification in LUAD patients with solid, micropapillary and invasive mucinous subtypes that are associated with increased aggressiveness and lower survival [12,13] across all subtypes with the highest in most invasive solid subtype, suggesting MDM2 gain is associated with more tumor invasiveness [14,15]
Summary
Lung adenocarcinoma is associated with a high degree of molecular heterogeneity through multiple mechanisms, such as somatic driver mutations, transcriptional dysregulation, and copy number alterations that include loss or gain in chromosomal region, copy number gain and amplification. Small-Cell Lung Cancer Evolution through Therapy) [1] tumors, extensive intratumor heterogeneity associated with dynamic copy-number alterations and mutations was reported in NSCLC [2]. The knowledge about how tumor heterogeneity, copy number alterations might alter early LUAD progression and response to therapy remains incompletely defined. A comprehensive systematic analysis identified copy number (CN) gain in 11–29% of LUAD tumors at chromosome 12q15 on MDM2 locus in different cohorts examined. MDM2 copy number amplification was found to be associated with high MDM2 protein expression in our LUAD tumors. Tumors with diploid copy number did not display protein overexpression
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