Many peptides, when released as chemical messengers within the brain, have powerful influences on complex behaviours. Most strikingly, vasopressin and oxytocin, once thought of as circulating hormones whose actions were confined to peripheral organs, are now known to be released in the brain where they play fundamentally important roles in social behaviours1. In humans, disruptions of these peptide systems have been linked to several neurobehavioural disorders, including Prader-Willi syndrome, affective disorders, and obsessive-compulsive disorder, and polymorphisms of the vasopressin V1a receptor have been linked to autism2,3. Here we report that the rat olfactory bulb contains a large population of interneurones which express vasopressin, that blocking the actions of vasopressin in the olfactory bulb impairs the social recognition abilities of rats, and that vasopressin agonists and antagonists can modulate the processing of information by olfactory bulb neurones. The findings indicate that social information is processed in part by a vasopressin system intrinsic to the olfactory system.
To develop and validate a vasopressin (AVP) receptor knockdown strategy, we infused an antisense oligodeoxynucleotide to the V1 subtype mRNA into the septum of male rats with osmotic minipumps and measured behavioral, cellular and molecular parameters. Compared to vehicle and scrambled-sequence oligo controls, chronic antisense administration for up to 4 d diminished the ability of the animals to distinguish a previously exposed juvenile from a novel one and to respond to exogenous AVP (1 ng/5 microliters, intracerebroventricular) with an improved social memory. Furthermore, anxiety-related behavior was reduced. As measured in the behaviorally tested rats, antisense treatment resulted in a reduced binding of radiolabeled AVP in the septum, but not in other limbic brain areas (receptor autoradiography), and an increased amount of V1 receptor mRNA (reverse transcriptase PCR), indicating translational arrest and ongoing transcriptional activity. In sense oligo-treated rats, on the other hand, both the social and the anxiety-related behavior scores lay between levels obtained in control and antisense-treated animals. These sense-treated rats showed a slightly reduced V1 receptor density in the septum and reduced receptor mRNA levels, indicating hybridization of the sense oligo to the DNA. The data show the potential of antisense targeting to further reveal relationships between local gene expression, neuropeptide-receptor interactions in distinct brain areas, and behavioral performance.
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