Adolescent social isolation disrupts developmental tuning of neuropeptide circuits in the hypothalamus to amygdala regulating social and defensive behavior

IF 2.8 4区 医学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Peptides Pub Date : 2024-02-16 DOI:10.1016/j.peptides.2024.171178
Hiroyuki Arakawa , Mana Tokashiki , Yuki Higuchi , Toshihiro Konno
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Abstract

Engaging in positive social (i.e., prosocial) interactions during adolescence acts to modulate neural circuits that determine adult adaptive behavior. While accumulating evidence indicates that a strong craving for prosocial behavior contributes to sustaining neural development, the consequences of social deprivation during adolescence on social neural circuits, including those involving oxytocin (OXT) and vasopressin (AVP), are poorly characterized. We evaluated adaptive behaviors in socially isolated mice, including anxiety-like, social, and defensive behaviors, along with OXT and AVP neural profiles in relevant brain regions. Social isolation from postnatal day (P-)22 to P-48 induced enhanced defensive and exploratory behaviors, in nonsocial and social contexts. Unlike OXT neurons, AVP+ cell density in the paraventricular nucleus of the hypothalamus increases with age in males. Social isolation also modulated gene expression in the medial amygdala (MeA), including the upregulation of OXT receptors in males and the downregulation of AVP1a receptors in both sexes. Socially isolated mice showed an enhanced defensive, anogenital approach toward a novel adult female during direct social interactions. Subsequent c-Fos mapping revealed diminished neural activity in restricted brain areas, including the MeA, lateral septum, and posterior intralaminar nucleus of the thalamus, in socially isolated mice. These data indicate that neural signals arising from daily social interactions invoke region-specific modification of neuropeptide expression that coordinates with altered defensiveness and neural responsivities, including OXT- and AVP-projecting regions. The present findings indicate an involvement of OXT and AVP circuits in adolescent neural and behavioral plasticity that is tuned by daily social interaction.

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青少年的社会隔离会破坏下丘脑至杏仁核调节社会和防御行为的神经肽回路的发育调整
青春期参与积极的社会(即亲社会)互动可调节决定成人适应行为的神经回路。虽然越来越多的证据表明,对亲社会行为的强烈渴望有助于维持神经系统的发育,但青春期社交剥夺对社交神经回路(包括涉及催产素(OXT)和血管加压素(AVP)的神经回路)造成的后果还不甚明了。我们评估了社会隔离小鼠的适应行为,包括焦虑样行为、社会行为和防御行为,以及相关脑区的 OXT 和 AVP 神经概况。从出生后第 22 天到出生后第 48 天的社会隔离会诱导小鼠在非社会和社会环境中增强防御和探索行为。与OXT神经元不同,男性下丘脑室旁核的AVP+细胞密度会随着年龄的增长而增加。社会隔离还调节了内侧杏仁核(MeA)的基因表达,包括雄性OXT受体的上调和雌性AVP1a受体的下调。与社会隔离的小鼠在直接社会交往中对新的成年雌性动物表现出更强的防御性肛门接近。随后的c-Fos图谱显示,社交隔离小鼠受限脑区的神经活动减弱,包括MeA、外侧隔膜和丘脑后层内核。这些数据表明,日常社会交往产生的神经信号会引起特定区域神经肽表达的改变,这种改变与防御性和神经反应性的改变相协调,其中包括OXT和AVP投射区域。目前的研究结果表明,OXT 和 AVP 环路参与了青少年神经和行为的可塑性,而这种可塑性是由日常社会交往调整的。
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来源期刊
Peptides
Peptides 医学-生化与分子生物学
CiteScore
6.40
自引率
6.70%
发文量
130
审稿时长
28 days
期刊介绍: Peptides is an international journal presenting original contributions on the biochemistry, physiology and pharmacology of biological active peptides, as well as their functions that relate to gastroenterology, endocrinology, and behavioral effects. Peptides emphasizes all aspects of high profile peptide research in mammals and non-mammalian vertebrates. Special consideration can be given to plants and invertebrates. Submission of articles with clinical relevance is particularly encouraged.
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