The amygdala is a highly interconnected brain region involved in fear, anxiety, social and reproductive behaviors. In humans and laboratory species the amygdala exhibits sexual dimorphisms in neuroanatomy and function both in juveniles and adults. In rodents, the medial posterodorsal amygdala (MePD) is particularly sexually dimorphic and gonadal hormone sensitive, and while neurons have been examined in this region, few reports have examined the potential influence of gonadal hormones on other cellular components of the MePD. Astrocytes are a subtype of glia involved in synapse formation and known to be plastic and dynamic cells sensitive to gonadal hormone influence in several brain regions. My dissertation reveals sexual dimorphisms in the number of astrocytes in the juvenile rat MePD and that this sexual dimorphism remains present in adult animals. I also found sex differences in the arbor complexity of astrocytes in adults that are not present prior to puberty. Astrocytes also respond to changes in circulating hormone levels in adulthood. Furthermore, while the sex difference in astrocyte numbers in juvenile animals is androgen receptor-independent, the sex differences found in adult astrocyte numbers and arbor complexity are both androgen receptor-dependent. Finally, I provide evidence that astrocytes in the MePD contain androgen receptors, suggesting that androgens may act directly on these cells. The influence of gonadal hormones on astrocytes in the MePD is likely an important part of pubertal development and has implications for our understanding of the cellular organization of the amygdala and its function.
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