Copy number gains of chromosome 17 identified by dual in situ hybridization in non-small cell lung cancer tissue correlate with overexpression of c-Myc.

Background: c-Myc regulates multiple genes involved in cell proliferation in various cancer types including non-small cell lung cancer (NSCLC). Copy number gains of cytoband 17q25.3, along with chromosome 17, have been reported in NSCLC patients, emphasizing the clinical significance as a potential molecular target for therapy. The upregulation of c-Myc has been found to accelerate tumor development associated with duplication of the syntenic human cytoband 17q25.3. This study aimed to explore and compare the correlations of chromosome 17 copy number and c-Myc expression in NSCLC with the paired-normal respiratory epithelium and to examine their role as potential molecular targets for NSCLC therapy. Methods: A total of 66 NSCLC tissue samples with paired-normal respiratory epithelium were examined. The copy number of chromosome 17 was determined by human epidermal growth factor receptor 2 (HER2)/centromeric enumeration probe of chromosome 17 (CEP17) dual in situ hybridization (DISH). Results: Copy number gains of chromosome 17 were identified in 8 of 60 (13.3%) available NSCLC specimens. No copy number gains of chromosome 17 were demonstrated in the paired-normal respiratory epithelium. The mean HER2 (1.2±0.3) and CEP17 (1.4±0.3) copy numbers of the normal respiratory epithelium were significantly lower than those of the NSCLC tissue [1.8±1.0 vs. 2.0±0.8, respectively (P<0.001)]. Twelve of 66 (18.2%) NSCLC patients had overexpression of c-Myc. Five (41.7%) of the patients whose tumors positive for c-Myc had HER2 gene amplification [1] or copy number gain of chromosome 17 [4]. HER2 gene amplification or copy number gain of chromosome 17 and high expression of c-Myc were associated with decreased overall survival. Conclusions: Both biomarkers deserve further investigation to identify NSCLC patients with poorer survival outcomes requiring better therapeutic approaches.

Expression and Prognostic Significance of c-Myc, ALK, ROS1, BRAF, and PD-L1 Among Patients With Non-Small Cell Lung Cancer.

Background: Non-small cell lung cancer (NSCLC) remains a leading cause of cancer death worldwide, for which better knowledge in molecular prognostic factors is needed to improve clinical outcome. This study aimed to investigate the clinical significance of c-Myc, ALK, ROS1, BRAF, and PD-L1 in NSCLC patients. Methods: Formalin-fixed paraffin-embedded tissue specimens were obtained from 124 NSCLC patients. Of these, 66 matched specimens of normal respiratory epithelial and tumor tissue from patients with stages I-III, who underwent surgical resection, and 58 NSCLC specimens from stage IV patients were recruited into this analysis. Immunohistochemistry staining along with semiquantitative criteria were used to evaluate the expression of the interested proteins. Results: Of the 66 patients with stages I-III, positive expression of c-Myc was detected in 12 specimens (18.2%) of NSCLC tissue, whereas none of the normal respiratory epithelial tissue was found to have c-Myc expression (P < .001). Of the 66 NSCLC patients, 28 (43.8%) had PD-L1-positive staining on 1%-49% tumor cells and 7 (10.9%) patients expressed PD-L1 in ⩾50% tumor cells. One (2.3%) adenocarcinoma patient was found to have ROS1 rearrangement. Patients with no expression of c-Myc and PD-L1 (co-negative expression) tended to have a better prognosis than other subgroups. Conclusions: NSCLC tissue significantly expressed more c-Myc and PD-L1, compared with the matched normal respiratory epithelium, emphasizing the important role of these key drivers in tumorigenesis. Therapeutic approach to precisely inhibit the targetable molecular pathways should be considered on an individual patient basis to improve survival outcome.