Poly I:C 病毒介导的炎症诱导新生大鼠小脑 NK 细胞中的趋化因子 CCL5 及其小胶质细胞中的受体 CCR1 和 CCR5

Miguel Perez-Pouchoulen, Amanda S. Holley, E. Reinl, J. VanRyzin, Amir Mehrabani, Christie Dionisos, Muhammed Mirza, Margaret M. McCarthy
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摘要

研究多聚胞苷酸(PIC)诱导的病毒性炎症在大鼠发育关键时期对小脑的影响。 新生大鼠在出生后第 8 天和第 10 天接受 PIC 治疗,之后我们使用 Nanostring、qRT-PCR 和 RNAscope 对 RNA 进行了定量,并在出生后第 11 天通过流式细胞术和免疫组化对免疫细胞进行了分析。我们还使用相同的范式分析了幼犬的游戏行为、焦虑样行为、使用平衡木和旋转木马进行的运动平衡测试,以及使用葵花籽开口测试进行的精细运动行为。 我们发现,接受 PIC 处理的雄性和雌性幼犬在 PN11 时 CCL5 的反应明显增加,CCL5 是一种趋化细胞因子,能吸引 T 细胞、嗜酸性粒细胞和嗜碱性粒细胞到炎症部位。PIC 处理还增加了 PN11 期雄性和雌性小脑蚓部的两种 CCL5 受体(CCR1 和 CCR5)的表达。针对特定转录本的原位杂交(RNAscope®)显示,在炎症和非炎症条件下,雄性和雌性小胶质细胞都能表达两种 CCL5 受体。PIC 处理还增加了发育中小脑中 CCL5+ 细胞的总数,这些细胞被确定为自然杀伤细胞和 T 细胞。PIC治疗对大运动技能、精细运动技能和青少年游戏行为的影响不大,但很明显。 我们的研究结果表明,CCL5和其他免疫细胞在介导发育中小脑的炎症中扮演着重要角色,有可能在发育的关键时期影响小脑神经元的成熟。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Viral-mediated inflammation by Poly I:C induces the chemokine CCL5 in NK cells and its receptors CCR1 and CCR5 in microglia in the neonatal rat cerebellum
To study the effect of viral inflammation induced by Polyinosinic:polycytidylic acid (PIC) on the cerebellum during a critical period of development in rats. Neonatal rat pups were treated with PIC on postnatal days (PN) 8 and 10 after which we quantified RNA using Nanostring, qRT-PCR and RNAscope and analyzed immune cells through flow cytometry and immunohistochemistry on PN11. Using the same paradigm, we also analyzed play juvenile behavior, anxiety-like behavior, motor balance using the balance beam and the rotarod assays as well as fine motor behavior using the sunflower seed opening test. We determined that male and female pups treated with PIC reacted with a significant increase in CCL5, a chemotactic cytokine that attracts T-cells, eosinophils and basophils to the site of inflammation, at PN11. PIC treatment also increased the expression of two receptors for CCL5, CCR1 and CCR5 in the cerebellar vermis in both males and females at PN11. In-situ hybridization (RNAscope®) for specific transcripts revealed that microglia express both CCL5 receptors under inflammatory and non-inflammatory conditions in both males and females. PIC treatment also increased the total number of CCL5+ cells in the developing cerebellum which were determined to be both natural killer cells and T-cells. There were modest but significant impacts of PIC treatment on large and fine motor skills and juvenile play behavior. Our findings suggest an important role for CCL5 and other immune cells in mediating inflammation in the developing cerebellum that potentially impact the maturation of cerebellar neurons during a critical period of development.
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