Role of the central amygdala in social communication in Syrian hamsters (Mesocricetus auratus).

In Syrian hamsters, vasopressin (AVP) controls a form of scent marking called flank marking. Microinjection and lesion studies have identified several components of the neural circuit controlling this behavior. Microinjection of AVP into the medial preoptic-anterior hypothalamus (MPOA-AH), lateral septal nucleus (LS), bed nucleus of stria terminalis (BNST), and periaqueductal gray (PAG) stimulates an intense bout of flank marking. Lesions of areas such as the MPOA-AH and the LS inhibit flank marking. Other studies employing Fos immunocytochemistry suggest that the central amygdala (Ce) might be a component of this neural circuit. The purpose of the present study was to assess the significance of the Ce in regulation of AVP-induced flank marking. In Expt. 1A, the Ce of hamsters were either lesioned with ibotenic acid or sham-lesioned. In Expt. 1B, the Ce of hamsters were either lesioned electrolytically or sham-lesioned. All lesions were made bilaterally. One week later, hamsters were microinjected with AVP into the MPOA-AH and immediately tested for flank marking. In Expt. 2, the hamsters were microinjected with AVP into the Ce and were immediately tested for flank marking. Ibotenic lesions of the Ce reduced flank marking and electrolytic lesions completely inhibited flank marking in response to AVP microinjected into the MPOA-AH. Sham-lesions or lesions placed in other areas of the amygdala resulted in intense bouts of AVP-induced flank marking and flank grooming. No flank marking or flank grooming was observed in response to AVP microinjected into the Ce. These data indicate that the Ce plays a critical role in AVP-induced flank marking, although flank marking is not induced by AVP within the Ce itself.