Magnitude and Mechanism of Phrenic Long-term Facilitation Shift Between Daily Rest Versus Active Phase.

IF 5.1 Q2 CELL BIOLOGY Function (Oxford, England) Pub Date : 2023-08-08 eCollection Date: 2023-01-01 DOI:10.1093/function/zqad041
Alexandria B Marciante, Yasin B Seven, Mia N Kelly, Raphael R Perim, Gordon S Mitchell
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Abstract

Plasticity is a fundamental property of the neural system controlling breathing. One key example of respiratory motor plasticity is phrenic long-term facilitation (pLTF), a persistent increase in phrenic nerve activity elicited by acute intermittent hypoxia (AIH). pLTF can arise from distinct cell signaling cascades initiated by serotonin versus adenosine receptor activation, respectively, and interact via powerful cross-talk inhibition. Here, we demonstrate that the daily rest/active phase and the duration of hypoxic episodes within an AIH protocol have profound impact on the magnitude and mechanism of pLTF due to shifts in serotonin/adenosine balance. Using the historical "standard" AIH protocol (3, 5-min moderate hypoxic episodes), we demonstrate that pLTF magnitude is unaffected by exposure in the midactive versus midrest phase, yet the mechanism driving pLTF shifts from serotonin-dominant (midrest) to adenosine-dominant (midactive). This mechanistic "flip" results from combined influences of hypoxia-evoked adenosine release and daily fluctuations in basal spinal adenosine. Since AIH evokes less adenosine with shorter (15, 1-min) hypoxic episodes, midrest pLTF is amplified due to diminished adenosine constraint on serotonin-driven plasticity; in contrast, elevated background adenosine during the midactive phase suppresses serotonin-dominant pLTF. These findings demonstrate the importance of the serotonin/adenosine balance in regulating the amplitude and mechanism of AIH-induced pLTF. Since AIH is emerging as a promising therapeutic modality to restore respiratory and nonrespiratory movements in people with spinal cord injury or ALS, knowledge of how time-of-day and hypoxic episode duration impact the serotonin/adenosine balance and the magnitude and mechanism of pLTF has profound biological, experimental, and translational implications.

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在日常休息期和活动期之间的膈肌长期促进转变的程度和机制。
可塑性是控制呼吸的神经系统的一个基本特性。呼吸运动可塑性的一个关键例子是膈长期易化(pLTF),这是由急性间歇性缺氧(AIH)引起的膈神经活动的持续增加。pLTF可以分别由血清素和腺苷受体激活引发的不同细胞信号级联产生,并通过强大的串扰抑制相互作用。在这里,我们证明,由于血清素/腺苷平衡的变化,AIH方案中的每日休息/活动期和缺氧发作的持续时间对pLTF的大小和机制有着深远的影响。使用历史上的“标准”AIH方案(3-5分钟中度缺氧发作),我们证明pLTF的大小在活动中期与休息中期不受暴露的影响,但驱动pLTF从血清素主导(休息中期)转变为腺苷主导(活动中期)的机制。这种机制性的“翻转”是缺氧引起的腺苷释放和脊髓基底腺苷每日波动的综合影响的结果。由于AIH在较短(15,1分钟)的缺氧发作中引起较少的腺苷,因此由于腺苷对血清素驱动的可塑性的限制减少,中脑pLTF被放大;相反,在中期活动期升高的背景腺苷抑制血清素占主导地位的pLTF。这些发现证明了血清素/腺苷平衡在调节AIH诱导的pLTF的幅度和机制中的重要性。由于AIH正在成为一种很有前途的治疗方式,可以恢复脊髓损伤或ALS患者的呼吸和非呼吸运动,因此了解一天中的时间和缺氧发作持续时间如何影响血清素/腺苷平衡以及pLTF的大小和机制具有深远的生物学、实验和翻译意义。
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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CiteScore
5.70
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0.00%
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0
审稿时长
3 weeks
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