Is the Relationship Between Adolescent Social Isolation and Anxiety-Like Behaviors Altered by Microglia Ablation in Female Long Evans Rats?

IF 2.7 3区心理学 Q2 BEHAVIORAL SCIENCES Brain and Behavior Pub Date : 2025-03-09 DOI:10.1002/brb3.70369

Matthew A. Blumberg, Ava Shipman, Lidia Olyha, Stephen C. Gironda, Jeffrey L. Weiner

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Abstract

Objective

Despite extensive, cross-disciplinary research revealing a relationship between early life stress (ELS) and an increased risk for neuropsychiatric disorders, the underlying processes mediating this relationship are not fully understood. Further, the majority of preclinical studies investigating this relationship have not taken sex differences into consideration. A growing body of work suggests that microglia, resident immune cells of the brain, are impacted by ELS and contribute to some of the maladaptive behavioral phenotypes in adulthood. Here, we utilized an adolescent social isolation (aSI) model of ELS in female rats to test the role of microglia in mediating the effects of ELS on anxiety-related behaviors.

Methods

The present study sought to determine whether microglia ablation during aSI could prevent anxiety-like behaviors in female Long Evans rats. A colony-stimulating factor 1 receptor (CSF1-r) inhibitor, PLX3397, was provided in chow to ablate microglia at the start of the isolation period (postnatal day (P) 21–42). During the aSI period, animals performed a battery of behavioral assays including the open field test, elevated plus maze, and successive alleys test. Following completion of the behavioral assays, brain tissue was collected to confirm the efficacy of PLX3397 and identify changes in microglia population density.

Results

Relative to group-housed (GH) controls, aSI rats showed increased locomotor activity in the open field test and higher closed-arm entries on the elevated plus maze. Although PLX3397 effectively ablated microglia across all animals, this treatment had minimal effects on observed aSI-associated phenotypes.

Conclusions

Together, these data suggest that microglia are not required for behavioral adaptations promoted by aSI. Future studies will be needed to assess the role of microglia in the relationship between ELS and maladaptive behavioral phenotypes.

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雌性Long Evans大鼠小胶质细胞消融是否改变了青春期社会隔离与焦虑样行为的关系？

尽管广泛的跨学科研究揭示了早期生活压力（ELS）与神经精神疾病风险增加之间的关系，但介导这种关系的潜在过程尚未完全了解。此外，大多数调查这种关系的临床前研究都没有考虑到性别差异。越来越多的研究表明，小胶质细胞（大脑的常驻免疫细胞）受到ELS的影响，并导致成年期的一些不适应行为表型。在此，我们利用雌性大鼠青少年社会隔离（aSI）模型来测试小胶质细胞在介导ELS对焦虑相关行为的影响中的作用。方法本研究旨在确定aSI期间小胶质细胞消融是否可以预防雌性Long Evans大鼠的焦虑样行为。一种集落刺激因子1受体（CSF1-r）抑制剂PLX3397在分离期开始时（出生后21-42天）加入饲料中，用于消融小胶质细胞。在aSI期间，动物进行了一系列行为试验，包括开阔场试验、高架加迷宫试验和连续小巷试验。行为测试完成后，收集脑组织以确认PLX3397的疗效，并确定小胶质细胞种群密度的变化。结果与对照组相比，aSI大鼠在开放场地测试中表现出更高的运动活性，在高架+迷宫中表现出更高的闭臂进入率。虽然PLX3397有效地消融了所有动物的小胶质细胞，但这种治疗对观察到的asi相关表型的影响很小。综上所述，这些数据表明，aSI促进的行为适应并不需要小胶质细胞。未来的研究将需要评估小胶质细胞在ELS和适应不良行为表型之间的关系中的作用。

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来源期刊

Brain and Behavior BEHAVIORAL SCIENCES-NEUROSCIENCES

CiteScore

5.30

自引率

0.00%

发文量

352

审稿时长

14 weeks

期刊介绍： Brain and Behavior is supported by other journals published by Wiley, including a number of society-owned journals. The journals listed below support Brain and Behavior and participate in the Manuscript Transfer Program by referring articles of suitable quality and offering authors the option to have their paper, with any peer review reports, automatically transferred to Brain and Behavior. * [Acta Psychiatrica Scandinavica](https://publons.com/journal/1366/acta-psychiatrica-scandinavica) * [Addiction Biology](https://publons.com/journal/1523/addiction-biology) * [Aggressive Behavior](https://publons.com/journal/3611/aggressive-behavior) * [Brain Pathology](https://publons.com/journal/1787/brain-pathology) * [Child: Care, Health and Development](https://publons.com/journal/6111/child-care-health-and-development) * [Criminal Behaviour and Mental Health](https://publons.com/journal/3839/criminal-behaviour-and-mental-health) * [Depression and Anxiety](https://publons.com/journal/1528/depression-and-anxiety) * Developmental Neurobiology * [Developmental Science](https://publons.com/journal/1069/developmental-science) * [European Journal of Neuroscience](https://publons.com/journal/1441/european-journal-of-neuroscience) * [Genes, Brain and Behavior](https://publons.com/journal/1635/genes-brain-and-behavior) * [GLIA](https://publons.com/journal/1287/glia) * [Hippocampus](https://publons.com/journal/1056/hippocampus) * [Human Brain Mapping](https://publons.com/journal/500/human-brain-mapping) * [Journal for the Theory of Social Behaviour](https://publons.com/journal/7330/journal-for-the-theory-of-social-behaviour) * [Journal of Comparative Neurology](https://publons.com/journal/1306/journal-of-comparative-neurology) * [Journal of Neuroimaging](https://publons.com/journal/6379/journal-of-neuroimaging) * [Journal of Neuroscience Research](https://publons.com/journal/2778/journal-of-neuroscience-research) * [Journal of Organizational Behavior](https://publons.com/journal/1123/journal-of-organizational-behavior) * [Journal of the Peripheral Nervous System](https://publons.com/journal/3929/journal-of-the-peripheral-nervous-system) * [Muscle & Nerve](https://publons.com/journal/4448/muscle-and-nerve) * [Neural Pathology and Applied Neurobiology](https://publons.com/journal/2401/neuropathology-and-applied-neurobiology)