Violence is a widespread public health and justice system problem with far-reaching consequences for victims, offenders, and their communities. Aggression, the cognitive and behavioral antecedent to violent action, is mainly understood in terms of the psychosocial risk factors that increase the likelihood of aggressive behavioral strategies. Neighborhood context is a principal risk factor for violent crime perpetration, but the mechanisms that mediate the effect of the environment on individual-level aggression behavior are poorly understood, especially the biological factors that may contribute to our understanding of violent behavior. In order to gain a better understanding of mechanisms that precipitate violence in specific geographic contexts, this dissertation explores the relationship between aggression behavior and the gut microbiome, a spatially determined physiological system that affects human health and behavior. Preclinical experiments elucidate the role of the gut microbiome in territorial, reactive aggression behavior in mice. Results show significant differences in gut microbiome composition across the spectrum of murine aggression behavior. Moreover, manipulation of the gut microbiome via administration of short-term antibiotics and sodium butyrate, a short-chain fatty acid byproduct of microbial fermentation, increases aggression behavior. The overall goal of this research is to use basic science findings in mice to better understand how environmental exposures could influence human health and behavior, thus revealing how community health affects individuals and supplying a potential target for future intervention.
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