Background: Stressful life events which consist of social or environmental distresses (negative stressors) commonly cause emotional change and thus lead to disorders on psychiatry or other neuro-endocrine-immune axis. The mechanisms of stress-caused functional changes in neuronal system remain unclear. Methods: We utilized 4-week CMS (Chronic Mild Stress) animal model mimicking the daily hassles from social or environments to provoke the unset of depression- or anxiety- like behaviors. Behavior evaluation (wheel-running, tail suspension, and forced swimming tests) were performed every week. MRI and microPET were also performed to observe the change of brain. At the endpoint, mice were sacrificed, the blood were collected for ROS analysis and cytokine array, while the urine were gathered for metabolomic assay, and the four parts including amygdala, hippocampus, prefrontal cortex and cerebral cortex of the brain were collected for whole genome gene and microRNA profiling. The microarray data were analyzed by GeneSpring, Metacore software to explore the potential pathways involved in neuro-pathologenesis under stress. Besides, we injected two lung cancer cell lines both intravenously and subcutaneously to see if emotion has any relations to cancer progression and metastasis. Results: Mice under CMS exhibits reduced motor activity and increased weight loss. The results of gene profiling show there were 505 genes with two-fold change in amygdala, 272 in hippocampus, 51 in prefrontal cortex and 331 in cerebral cortex while microRNA profiling showed 115, 61, 62and 60 microRNAs with two-fold change in these four parts respectively. These total 1005 genes with two-fold change are chosen for hierarchical clustering and can distinguish either the brain parts or treatment. The results reveal its tight connection to emotion regulation to the not only the genes but also the microRNAs. Most of CMS-affected genes are predicted to be involved in great networks related to neurological disease, nervous system development, cell growth, axon guidance, and transduction signaling, as well as many known or unknown genes that reportedly affect psychiatry. But there’s no enough evidence to conclude if emotion’s positively or negatively related to cancer progression and metastasis. Conclusion: These findings might provide insights into the molecular pathological mechanisms contributing to stress-induced neural malfunctions. Searching for compounds or drugs that can target the chronic stress-induced genes may be a potential therapy for related diseases.