Masahide Yoshida scite author profile

The oxytocin receptor (OXTR) and its ligand, oxytocin (OXT), regulate reproductive physiology (i.e., parturition and lactation) and sociosexual behaviors. To define the essential functions of OXTR, we generated mice with a null mutation in the Oxtr gene (Oxtr ؊/؊ ) and compared them with OXT-deficient (Oxt ؊/؊ ) mice. Oxtr ؊/؊ mice were viable and had no obvious deficits in fertility or reproductive behavior. Oxtr ؊/؊ dams exhibited normal parturition but demonstrated defects in lactation and maternal nurturing. Infant Oxtr ؊/؊ males emitted fewer ultrasonic vocalizations than wild-type littermates in response to social isolation. Adult Oxtr ؊/؊ males also showed deficits in social discrimination and elevated aggressive behavior. Ligand Oxt ؊/؊ males from Oxt ؊/؊ dams, but not from Oxt ؉/؊ dams, showed similar high levels of aggression. These data suggest a developmental role for the OXT͞OXTR system in shaping adult aggressive behavior. Our studies demonstrate that OXTR plays a critical role in regulating several aspects of social behavior and may have important implications for developmental psychiatric disorders characterized by deficits in social behavior.lactation ͉ maternal behavior ͉ ultrasonic vocalization ͉ social discrimination ͉ aggressive behavior

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Evidence That Oxytocin Exerts Anxiolytic Effects via Oxytocin Receptor Expressed in Serotonergic Neurons in Mice

Yoshida¹,

Takayanagi²,

Inoue³

et al. 2009

J. Neurosci.

519

493

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The oxytocin receptor has been implicated in the regulation of reproductive physiology as well as social and emotional behaviors. The neurochemical mechanisms by which oxytocin receptor modulates social and emotional behavior remains elusive, in part because of a lack of sensitive and selective antibodies for cellular localization. To more precisely characterize oxytocin receptor-expressing neurons within the brain, we generated an oxytocin receptor-reporter mouse in which part of the oxytocin receptor gene was replaced with Venus cDNA (a variant of yellow fluorescent protein). Examination of the Venus expression revealed that, in the raphe nuclei, about one-half of tryptophan hydroxylase-immunoreactive neurons were positive for Venus, suggesting a potential role for oxytocin in the modulation of serotonin release. Oxytocin infusion facilitated serotonin release within the median raphe nucleus and reduced anxiety-related behavior. Infusion of a 5-HT 2A/2C receptor antagonist blocked the anxiolytic effect of oxytocin, suggesting that oxytocin receptor activation in serotonergic neurons mediates the anxiolytic effects of oxytocin. This is the first demonstration that oxytocin may regulate serotonin release and exert anxiolytic effects via direct activation of oxytocin receptor expressed in serotonergic neurons of the raphe nuclei. These results also have important implications for psychiatric disorders such as autism and depression in which both the oxytocin and serotonin systems have been implicated.

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Roles of Oxytocin Neurones in the Control of Stress, Energy Metabolism, and Social Behaviour

Onaka

Takayanagi

Yoshida

2012

J Neuroendocrinology

116

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Oxytocin neurones are activated by stressful stimuli, food intake and social attachment. Activation of oxytocin neurones in response to stressful stimuli or food intake is mediated, at least in part, by noradrenaline/prolactin‐releasing peptide (PrRP) neurones in the nucleus tractus solitarius, whereas oxytocin neurones are activated after social stimuli via medial amygdala neurones. Activation of oxytocin neurones induces the release of oxytocin not only from their axon terminals, but also from their dendrites. Oxytocin acts locally where released or diffuses and acts on remote oxytocin receptors widely distributed within the brain, resulting in anxiolytic, anorexic and pro‐social actions. The action sites of oxytocin appear to be multiple. Oxytocin shows anxiolytic actions, at least in part, via serotoninergic neurones in the median raphe nucleus, has anorexic actions via pro‐opiomelanocortin neurones in the nucleus tractus solitarius and facilitates social recognition via the medial amygdala. Stress, obesity and social isolation are major risk factors for mortality in humans. Thus, the oxytocin–oxytocin receptor system is a therapeutic target for the promotion of human health.

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New aspects of oxytocin receptor function revealed by knockout mice: sociosexual behaviour and control of energy balance

Nishimori

Takayanagi

Yoshida

et al. 2008

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