5 %) tumor tissues, while the increased

5 %) tumor tissues, while the increased expression of EGFR protein was found in 41 (34.2 %) tumor tissues. In lung adenocarcinoma, the increased expression of EGFR protein was found in 19 (40.4 %) tumor cases and, in squamous cell carcinoma, 22 (30.1 %) cases had this website overexpressed EGFR protein (P = 0.246). Furthermore, we found that the

increased expression of EGFR protein was more frequent in lymph node metastasis of NSCLC compared to non-metastatic NSCLCs (27 vs. 14 or 45 % vs. 23.3 %; P = 0.009). Expression of EGFR protein also associated with tumor stages. Increase EGFR protein expression was more frequently observed in patients with IIIA and IIIB compared to those in I and IIA. But there was no association Selleckchem NVP-BGJ398 of EGFR expression with other clinicopathological data from NSCLC patients (Table 1). Differential expression of KRAS mRNA and protein in NSCLC Expression of KRAS mRNA and protein in 120 cases of NSCLC and adjacent normal tissue specimens is summarized in Figure 1A and Figure 2A. By comparison of normal and tumor expression of KRAS mRNA and protein at a ratio of 2.0 as a cutoff point, we found that expression of KRAS mRNA and protein was significantly increased in NSCLC compared the non-tumor tissues (P = 0.03 and P = 0.018, respectively). Specifically,

increased expression of KRAS mRNA was found in 52 (43 %) tumor tissues, while the increased expression of KRAS protein was found in 54 (45 %) tumor tissues. Moreover, the increased expression of KRAS protein was found in 17 (36.2 %) ACY-1215 cell line adenocarcinoma samples all and in 37 (50.7 %) squamous cell carcinoma samples. Increased expression of KRAS protein was more frequent in squamous cell carcinomas and in lymph node metastasis compared to non-metastatic tumors (34 vs. 20 or 56.7 % vs. 33.3 %; P = 0.01). Expression of KRAS protein was associated with tumor stages and also occurred more frequently in ever-smokers (P = 0.002; Table 1). RBM5, EGFR and KRAS expression correlations in NSCLC We examined the relationship between expression of RBM5, EGFR, and KRAS in NSCLC and found that expression of RBM5 mRNA and protein

was significantly negatively correlated with expression of EGFR and KRAS mRNA and protein in NSCLC tissues (p < 0.01; Tables 2 and 3). Table 2 Association of RBM5 with EGFR and KRAS mRNA expression   EGFR-T KRAS-T RBM5-T     Correlation coefficient −0.961 −0.809 Sig.(2-tailed)A 0.000** 0.000** N 120 120 aP-values represent asymptotic two-tailed significance with asterisks denoting **P < 0.01, from the Spearman`s rho test. Table 3 Association of RBM5, EGFR, and KRAS proteins expression   EGFR-T KRAS-T RBM5-T     Correlation coefficient −0.943 −0.842 Sig. (2-tailed)A 0.000** 0.000** N 120 120 aP-values represent asymptotic two-tailed significance with asterisks denoting **P < 0.01, from the Spearman`s rho test.

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