Chronic social stress is involved in the increasing risk for the development of psychopathology. Social defeat is a potent stressor that produces numerous behavioral and neuroendocinal alternations, especially during juvenile period. Animal models provide a relatively manageable and straightforward approach to study behavioral and physiological consequences after experiencing social defeats. To understand the impact of chronic social defeat during juvenile stage on behavioral, physiological, hormonal, immune and neurochemical responses, we take advantage of male Syrian hamsters and their agonistic behavior to design a serial of 5 experiments in this study. Juvenile (postnatal day 28) male hamsters were randomly assigned into one of the following three groups: the social defeat group, the social threaten group, or the arena control group. Males in different groups received a series of 9 social interaction trials during juvenile period from postnatal days 33-66. In Experiment 1, their behavioral performances were evaluated in 3 different testing contexts for acute and chronic tests after experiencing the 1st and the last social interaction trials, respectively. The experience of a series of social defeat (rather than the 1st social defeat) had significant impact on the behavioral responses in male hamsters. Experiment 2 and 3 were conducted to assess physiological and hormonal indexes after experiencing acute and chronic social defeat. In Experiment 2, neither a series of social defeat nor the 1st defeated experience affected basic physiological responses but the chronic defeated experience had significant impact on the enlargement of spleen. In Experiment 3, the experience of chronic social defeat significantly enhanced cortisol and norepinephrine concentrations in the blood of hamsters. In Experiment 4, pro-inflammatory cytokine levels in different brain areas were measured to reveal immune responses using cytometric beads array. Our data revealed that such chronic defeat experience had differential effects on the regulation of IL-1β, IL-6, and TNF-α expressions in different brain areas. In Experiment 5, monoamine neurotransmitter levels in different brain areas were examined. We found that chronic defeat experience had a region-specific impact on the alterations of dopamine and 5-HT levels in the brains of male hamsters, especially in the striatum and hippocampus. Collectively, our hamster model offers several advantages for studying social defeat and our data indicate that the experience of chronic social defeat during juvenile period has multiple levels of impact on adult male hamsters.