Sleep-wake behavior and responses to sleep deprivation and immune challenge of protein kinase RNA-activated knockout mice

IF 8.8 2区医学 Q1 IMMUNOLOGY

Brain, Behavior, and Immunity Pub Date : 2024-07-21 DOI:10.1016/j.bbi.2024.07.027

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引用次数: 0

Abstract

Protein Kinase RNA-activated (PKR) is an enzyme that plays a role in many systemic processes, including modulation of inflammation, and is implicated in neurodegenerative diseases, such as Alzheimer’s disease (AD). PKR phosphorylation results in the production of several cytokines involved in the regulation / modulation of sleep, including interleukin-1β, tumor necrosis factor-α and interferon-γ. We hypothesized targeting PKR would alter spontaneous sleep of mice, attenuate responses to sleep deprivation, and inhibit responses to immune challenge. To test these hypotheses, we determined the sleep-wake phenotype of mice lacking PKR (knockout; PKR^-/-) during undisturbed baseline conditions; in responses to six hours of sleep deprivation; and after immune challenge with lipopolysaccharide (LPS). Adult male mice (C57BL/6J, n = 7; PKR^-/-, n = 7) were surgically instrumented with EEG recording electrodes and an intraperitoneal microchip to record core body temperature. During undisturbed baseline conditions, PKR ^-/- mice spent more time in non-rapid eye movement sleep (NREMS) and rapid-eye movement sleep (REMS), and less time awake at the beginning of the dark period of the light:dark cycle. Delta power during NREMS, a measure of sleep depth, was less in PKR^-/- mice during the dark period, and core body temperatures were lower during the light period. Both mouse strains responded to sleep deprivation with increased NREMS and REMS, although these changes did not differ substantively between strains. The initial increase in delta power during NREMS after sleep deprivation was greater in PKR^-/- mice, suggesting a faster buildup of sleep pressure with prolonged waking. Immune challenge with LPS increased NREMS and inhibited REMS to the same extent in both mouse strains, whereas the initial LPS-induced suppression of delta power during NREMS was greater in PKR^-/- mice. Because sleep regulatory and immune responsive systems in brain are redundant and overlapping, other mediators and signaling pathways in addition to PKR are involved in the responses to acute sleep deprivation and LPS immune challenge.

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蛋白激酶 RNA 激活基因敲除小鼠的睡眠-觉醒行为以及对睡眠剥夺和免疫挑战的反应。

蛋白激酶 RNA 激活（PKR）是一种在许多系统过程中发挥作用的酶，包括对炎症的调节，并与阿尔茨海默病（AD）等神经退行性疾病有关。PKR 磷酸化会导致多种细胞因子的产生，其中包括白细胞介素-1β、肿瘤坏死因子-α 和干扰素-γ，这些细胞因子参与调节睡眠。我们假设靶向 PKR 将改变小鼠的自发睡眠，减轻对睡眠剥夺的反应，并抑制对免疫挑战的反应。为了验证这些假设，我们测定了缺乏PKR（基因敲除；PKR-/-）的小鼠在不受干扰的基线条件下、对六小时睡眠剥夺的反应以及在受到脂多糖（LPS）免疫挑战后的睡眠-觉醒表型。成年雄性小鼠（C57BL/6J，n = 7；PKR-/-，n = 7）通过手术安装了脑电图记录电极和腹腔内微芯片，以记录核心体温。在不受干扰的基线条件下，PKR-/-小鼠在非快速眼动睡眠（NREMS）和快速眼动睡眠（REMS）中花费更多时间，而在光暗周期的黑暗期开始时清醒的时间较少。PKR-/-小鼠在非快速眼动睡眠（NREMS）和快速眼动睡眠（REMS）期间的Δ功率（衡量睡眠深度的指标）在黑暗期较低，核心体温在光明期较低。两个品系的小鼠对睡眠剥夺的反应都是NREMS和REMS增加，尽管这些变化在不同品系之间没有实质性差异。PKR-/-小鼠在睡眠剥夺后的NREMS期间δ功率的最初增加幅度更大，这表明睡眠压力会随着清醒时间的延长而更快地增加。在两个品系的小鼠中，LPS的免疫挑战增加了NREMS，并在相同程度上抑制了REMS，而在PKR-/-小鼠中，LPS诱导的NREMS期间delta功率的初始抑制更大。由于大脑中的睡眠调节系统和免疫反应系统是冗余和重叠的，因此除了PKR之外，其他介质和信号通路也参与了对急性睡眠剥夺和LPS免疫挑战的反应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Brain, Behavior, and Immunity 医学-免疫学

CiteScore

29.60

自引率

2.00%

发文量

290

审稿时长

28 days

期刊介绍： Established in 1987, Brain, Behavior, and Immunity proudly serves as the official journal of the Psychoneuroimmunology Research Society (PNIRS). This pioneering journal is dedicated to publishing peer-reviewed basic, experimental, and clinical studies that explore the intricate interactions among behavioral, neural, endocrine, and immune systems in both humans and animals. As an international and interdisciplinary platform, Brain, Behavior, and Immunity focuses on original research spanning neuroscience, immunology, integrative physiology, behavioral biology, psychiatry, psychology, and clinical medicine. The journal is inclusive of research conducted at various levels, including molecular, cellular, social, and whole organism perspectives. With a commitment to efficiency, the journal facilitates online submission and review, ensuring timely publication of experimental results. Manuscripts typically undergo peer review and are returned to authors within 30 days of submission. It's worth noting that Brain, Behavior, and Immunity, published eight times a year, does not impose submission fees or page charges, fostering an open and accessible platform for scientific discourse.

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