Lung cancer is the leading cause of cancer death in the world. It was also elevated to the leading cause of Taiwan in 2013. Recently, aberrant modifications of DNA methylation have been found on the initiation and progression of numerous tumors including lung cancer. The genomic hypomethylation and hypermethylation in the promoter regions of tumor suppressor genes may increase the chromatin instability and promote malignancy. During the past few years, inhibitors of DNA methyltransferase (DNMT), such as decitabine (DAC), have been applied clinically to treat leukemia and other solid tumors, highlighting the epigenetic basis of cancer progression. The pre-clinical data of DAC in lung cancer shows promising effects: it can reduce cancer cell proliferation and re-activate tumor suppressor genes to inhibit tumor growth. Although low-doses DAC showed the promising responses in the treatment of leukemia, only a small portion of lung cancer patients had responses in previous clinical trials. Therefore, to identify the genetic or epigenetic markers for selection of patients more likely to benefit from hypomethylating agents may improve the treatment for lung cancer. In this study, we used low doses of DAC (10, 100, 200 nM), which were sufficient to observe the anti-tumor effects without acute cytotoxicity in NSCLC cell lines within 72 h of pre-treatments. Base on the anti-proliferation efficacy via MTT assay, we characterized the cell responses to DAC and divided NSCLC cell lines to four groups showing different DAC sensitivities under different treatment protocol. Next we further confirm the anti-tumor effects of DAC in the four groups by functional assays, including colony formation and tumorous sphere forming; moreover, DAC also decreased ALDH high activity stem-like population in sensitive cell lines. Finally, by organizing the DAC sensitivity with epidermal growth factor receptor (EGFR) status and validating the DNMT expression levels in each cell lines, we found that NSCLC cell lines with EGFR mutation (L858R and del-19) show more resistant to DAC treatment; whereas, early depletion of Dnmt1 expression may associate with DAC sensitivity. In conclusion, we found the DAC sensitive, intermediate, and resistant cell lines. We also found that the genetic markers could be associated with DAC-sensitivity. Using different DAC sensitive groups to find out the molecular mechanisms and the biomarkers for DAC treatments, and combining DAC with chemotherapy to improve the treatments of lung cancer with EGFR wild type status are the goals of our future works.