ABSTRACT: KRAS mutations occur in approximately 25% of non-small cell lung cancer (NSCLC). They account for the therapy resistance to EGFR inhibitors and are suggested to be difficult to target by specific drugs. Therefore, new therapies for KRAS mutant NSCLC are urgently needed. The histone H3K4 and H3K9 di/mono-demethylase KDM1A is a key epigenetic writer, aberrantly upregulated in many cancer types, including NSCLC. In order to understand the functional role of KDM1A in the progression of lung adenocarcinoma, KDM1A expression profiles were analysed in tissue microarrays (TMAs) including 182 lung adenocarcinoma. KDM1A expression correlated with high grade and metastasized tumor. To investigate the impact of KDM1A in lung adenocarcinoma development, we used the KRAS mutated A549 cell line to establish a shRNA-mediated stable KDM1A knockdown cell clone. Unexpectedly, KDM1A knockdown had only a slight effect on retardation of cell growth. However, cell invasion and self-renewal capability was significantly decreased by KDM1A inhibition. KDM1A knockdown in A549 cell resulted in a dramatic change in the transcriptome profile as determined by RNA-Seq. Interestingly, genes involved in the KRAS signature and lung epithelial marker genes were significantly affected upon KDM1A knockdown. Ingenuity pathway analysis also suggested that the alternative integrin β3-KRAS signaling axis, which is involved in stem cell like properties, is abrogated upon KDM1A knockdown. Indeed, Integrin β3 and its non-canonical ligand galectin-3 were strongly downregulated and their downstream NF-κB activity was decreased upon KDM1A knockdown. Finally, correlation of KDM1A to the Integrin β3 level was validated in TMAs.