Abstract
An arginine-vasopressin (AVP) derivative, [d(CH 2) 5,Sar 7]AVP (SAVP), has been characterized as an antagonist to vasopressin V 1 receptors. Using AVP-dependent flank-marking behavior as a bioassay, it was possible to verify that iodinated SAVP (I-SAVP) retains biological activity within the central nervous system, as the antagonist blocked the behavior. Furthermore, 125I-SAVP was used to localize specific V 1 binding sites in the brain. The resulting binding was localized to discrete anatomical sites, and highly specific to V 1-like receptors. While we confirmed previous findings using 3H-AVP in golden hamsters, we also identified binding in many areas previously unreported (e.g., arcuate and paraventricular nuclei of the hypothalamus, tenia tecta, posteromedial cortical nucleus of the amygdala, and zona incerta), suggesting that 125I-SAVP provides a greater level of resolution. In addition, specific binding was observed in the lateral septum, anterior hypothalamus, and midbrain central gray, areas that have previously been shown to trigger flank marking in response to AVP microinjection. The presence of AVP binding sites in limbic and mesencephalic areas involved in the regulation of flank marking suggests that this neuropeptide may play an important role as a neurotransmitter at multiple levels in the neural circuits controlling this behavior.
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