Abstract
A human infant initially shows non-selective sociality, and gradually develops selective attachment toward its caregiver, manifested as “separation anxiety.” It was unclear whether such sophistication of attachment system occurs in non-human mammals. To seek a mouse model of separation anxiety, we utilized a primitive attachment behavior, the Transport Response, in that both human and mouse newborns immediately stop crying and stay immobile to cooperate with maternal carrying. We examined the mouse Transport Response in three social contexts: 30-min isolation in a novel environment, 30-min maternal absence experienced with littermates in the home cage, and the control home-cage condition with the mother and littermates. The pups after postnatal day (PND) 13 attenuated their Transport Response not only in complete isolation but also by maternal absence, and activated several brain areas including the periventricular nucleus of the hypothalamus, suggesting that 30-min maternal absence was perceived as a social stress by mouse pups after PND13. This attenuation of Transport Response by maternal absence was independent with plasma corticosterone, but was diminished by prior administration of a corticotropin-releasing factor receptor 1 (CRFR1) antagonist. Among 18 brain areas examined, only neurons in the anterior cingulate cortex (ACC) co-express c-fos mRNA and CRFR1 after maternal absence. Consistently, excitotoxic ACC lesions inhibited the maternal absence-induced attenuation of Transport Response. These data indicate that the expression of mouse Transport Response is influenced not only by social isolation but also by maternal absence even in their home cage with littermates after PND13, at least partly via CRF-CRFR1 signaling in the ACC.
Highlights
IntroductionHuman infants are able to recognize their mother (or, more generally, primary caregiver) using visual, auditory, and/or olfactory cues even from the first month
Human infants are able to recognize their mother using visual, auditory, and/or olfactory cues even from the first month
To examine how social context regulates the expression of Transport Response, we designed three distinct social conditions: (1) 30 min complete isolation of a pup in a novel environment (ISO), (2) 30 min maternal absence experienced with littermates in their home-cage (MAB), or (3) the control home-cage condition staying with the mother and littermates (CTL)
Summary
Human infants are able to recognize their mother (or, more generally, primary caregiver) using visual, auditory, and/or olfactory cues even from the first month. After 6 months of age, infants start to form a selective bond with their mother, and show signs of distress by maternal absence (separation anxiety) or by approach of unfamiliar person (stranger anxiety) (Spitz, 1965; Bowlby, 1969; Cassidy, 2008). Such fine adaptations of their behaviors to a given social context is vital for infant survival, and is acquired as an important component of the attachment system. There is no animal study that aims to identify the brain area required for response to maternal absence for as less as 30 min, which is a physiologically normal duration for rodent pups (see below)
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