Beclin1, as a key molecule in controlling autophagy pathway, can activate both cell survival and cell death pathway. As a role of autophagy in cancer progression remains controversial, introduction of beclin1 to the lungs of K-ras^LA1 mice was performed via inhalation. Prolonged autophagy activation was induced by repeated exposure of lentivirus-beclin1, total of 8 times (2 times/week, 4 weeks). By the time of sacrifice, lungs were collected and analyzed for the therapeutic efficacy. Total numbers of tumors on the surface and histopathological tumor progression were reduced in the lungs of K-ras^LA1 mice. Successful delivery of beclin1 induced autophagy and apoptosis in the target organ, which were confirmed by following features; increased autophagic vacuoles in the cytosol, increased number of mitochondria with decreased mitochondrial 12S RNA, and increased protein levels of mitochondria-related apoptosis. Markers for cell proliferation and angiogenesis, PCNA and VEGF, which used for prediction of cancer prognosis, were significantly reduced after introduction of beclin1. Taken together, the results indicate that autophagy regulating gene, beclin1, can be a potential target for lung cancer gene therapy.