Sleep deprivation soon after recovery from synthetic torpor enhances tau protein dephosphorylation in the rat brain.

IF 1.7 3区 生物学 Q4 PHYSIOLOGY Journal of Comparative Physiology B-Biochemical Systems and Environmental Physiology Pub Date : 2024-06-01 Epub Date: 2023-10-09 DOI:10.1007/s00360-023-01516-2
Timna Hitrec, Fabio Squarcio, Emiliana Piscitiello, Matteo Cerri, Davide Martelli, Alessandra Occhinegro, Ludovico Taddei, Domenico Tupone, Roberto Amici, Marco Luppi
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Abstract

Neuronal Tau protein hyperphosphorylation (PPtau) is a hallmark of tauopathic neurodegeneration. However, a reversible brain PPtau occurs in mammals during either natural or "synthetic" torpor (ST), a transient deep hypothermic state that can be pharmacologically induced in rats. Since in both conditions a high sleep pressure builds up during the regaining of euthermia, the aim of this work was to assess the possible role of post-ST sleep in PPtau dephosphorylation. Male rats were studied at the hypothermic nadir of ST, and 3-6 h after the recovery of euthermia, after either normal sleep (NS) or total sleep deprivation (SD). The effects of SD were studied by assessing: (i) deep brain temperature (Tb); (ii) immunofluorescent staining for AT8 (phosphorylated Tau) and Tau-1 (non-phosphorylated Tau), assessed in 19 brain structures; (iii) different phosphorylated forms of Tau and the main cellular factors involved in Tau phospho-regulation, including pro- and anti-apoptotic markers, assessed through western blot in the parietal cortex and hippocampus; (iv) systemic factors which are involved in natural torpor; (v) microglia activation state, by considering morphometric variations. Unexpectedly, the reversibility of PPtau was more efficient in SD than in NS animals, and was concomitant with a higher Tb, higher melatonin plasma levels, and a higher frequency of the microglia resting phenotype. Since the reversibility of ST-induced PPtau was previously shown to be driven by a latent physiological molecular mechanism triggered by deep hypothermia, short-term SD soon after the regaining of euthermia seems to boost the possible neuroprotective effects of this mechanism.

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从合成迟钝中恢复后不久的睡眠剥夺增强了大鼠大脑中tau蛋白的去磷酸化。
神经元Tau蛋白过度磷酸化(PPtau)是Tau病性神经退行性变的标志。然而,哺乳动物在自然或“合成”体温过低(ST)期间会出现可逆的大脑PPtau,这是一种短暂的深低温状态,可以在大鼠中进行药理学诱导。由于在这两种情况下,在恢复体温的过程中都会产生高睡眠压力,因此这项工作的目的是评估ST后睡眠在PPtau去磷酸化中的可能作用。雄性大鼠在ST的低温最低点,在常温恢复后3-6小时,在正常睡眠(NS)或完全睡眠剥夺(SD)后进行研究。SD的影响通过评估来研究:(i)脑深部温度(Tb);(ii)在19个脑结构中评估的AT8(磷酸化的Tau)和Tau-1(非磷酸化的Tau)的免疫荧光染色;(iii)不同磷酸化形式的Tau和参与Tau磷酸化调节的主要细胞因子,包括促凋亡和抗凋亡标志物,通过在顶叶皮层和海马中的蛋白质印迹进行评估;(iv)与自然迟钝有关的系统性因素;(v) 小胶质细胞激活状态,通过考虑形态计量学变化。出乎意料的是,PPtau的可逆性在SD动物中比在NS动物中更有效,并且伴随着更高的Tb、更高的褪黑素血浆水平和更高频率的小胶质细胞静息表型。由于ST诱导的PPtau的可逆性先前被证明是由深低温触发的潜在生理分子机制驱动的,因此在恢复低温后不久的短期SD似乎增强了该机制可能的神经保护作用。
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来源期刊
CiteScore
3.90
自引率
0.00%
发文量
51
审稿时长
3.5 months
期刊介绍: The Journal of Comparative Physiology B publishes peer-reviewed original articles and reviews on the comparative physiology of invertebrate and vertebrate animals. Special emphasis is placed on integrative studies that elucidate mechanisms at the whole-animal, organ, tissue, cellular and/or molecular levels. Review papers report on the current state of knowledge in an area of comparative physiology, and directions in which future research is needed.
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