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本文引用的文献

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Contributions of 5-HT neurons to respiratory control: neuromodulatory and trophic effects.5-羟色胺能神经元对呼吸控制的贡献:神经调节和营养作用。
Respir Physiol Neurobiol. 2008 Dec 10;164(1-2):222-32. doi: 10.1016/j.resp.2008.05.014.
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Defects in breathing and thermoregulation in mice with near-complete absence of central serotonin neurons.中枢5-羟色胺神经元几乎完全缺失的小鼠的呼吸和体温调节缺陷。
J Neurosci. 2008 Mar 5;28(10):2495-505. doi: 10.1523/JNEUROSCI.4729-07.2008.
3
Contribution of orexin in hypercapnic chemoreflex: evidence from genetic and pharmacological disruption and supplementation studies in mice.食欲素在高碳酸血症化学反射中的作用:来自小鼠基因和药理学干扰及补充研究的证据。
J Appl Physiol (1985). 2007 Nov;103(5):1772-9. doi: 10.1152/japplphysiol.00075.2007. Epub 2007 Aug 23.
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Control of hypothalamic orexin neurons by acid and CO2.酸和二氧化碳对下丘脑食欲素神经元的调控
Proc Natl Acad Sci U S A. 2007 Jun 19;104(25):10685-90. doi: 10.1073/pnas.0702676104. Epub 2007 Jun 11.
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Mice lacking central serotonergic neurons show enhanced inflammatory pain and an impaired analgesic response to antidepressant drugs.缺乏中枢5-羟色胺能神经元的小鼠表现出炎症性疼痛增强,并且对抗抑郁药物的镇痛反应受损。
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Comparative analysis and physiological impact of different tissue biopsy methodologies used for the genotyping of laboratory mice.用于实验室小鼠基因分型的不同组织活检方法的比较分析及生理影响。
Lab Anim. 2007 Apr;41(2):174-84. doi: 10.1258/002367707780378113.
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Lmx1b is required for maintenance of central serotonergic neurons and mice lacking central serotonergic system exhibit normal locomotor activity.Lmx1b是维持中枢5-羟色胺能神经元所必需的,缺乏中枢5-羟色胺能系统的小鼠表现出正常的运动活性。
J Neurosci. 2006 Dec 6;26(49):12781-8. doi: 10.1523/JNEUROSCI.4143-06.2006.
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Carbon dioxide and pH effects on temperature-sensitive and -insensitive hypothalamic neurons.二氧化碳和pH值对温度敏感及不敏感的下丘脑神经元的影响。
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Multiple serotonergic brainstem abnormalities in sudden infant death syndrome.婴儿猝死综合征中多个血清素能脑干异常。
JAMA. 2006 Nov 1;296(17):2124-32. doi: 10.1001/jama.296.17.2124.
10
Medullary raphe neurons facilitate brown adipose tissue activation.延髓中缝神经元促进棕色脂肪组织的激活。
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缺乏5-羟色胺神经元的小鼠中通气与体温调节控制缺陷之间的相互作用。

Interaction between defects in ventilatory and thermoregulatory control in mice lacking 5-HT neurons.

作者信息

Hodges Matthew R, Richerson George B

机构信息

Department of Neurology, Yale University School of Medicine, New Haven, CT 06520, United States.

出版信息

Respir Physiol Neurobiol. 2008 Dec 31;164(3):350-7. doi: 10.1016/j.resp.2008.08.003. Epub 2008 Aug 15.

DOI:10.1016/j.resp.2008.08.003
PMID:18775520
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2613046/
Abstract

We have previously shown that mice with near-complete absence of 5-HT neurons (Lmx1bf/f/p) display a blunted hypercapnic ventilatory response (HCVR) and impaired cold-induced thermogenesis, but have normal baseline ventilation (), core body temperature (TCore) and hypoxic ventilatory responses (HVR) at warm ambient temperatures (TAmb; 30 degrees C). These results suggest that 5-HT neurons are an important site for integration of ventilatory, metabolic and temperature control. To better define this integrative role, we now determine how a moderate cold stress (TAmb of 25 degrees C) influences ventilatory control in adult Lmx1bf/f/p mice. During whole animal plethysmographic recordings at 25 degreesC, baseline , metabolic rate , and TCore of Lmx1bf/f/p mice were reduced (P < 0.001) compared to wild type (WT) mice. Additionally, the HCVR was reduced in Lmx1bf/f/p mice during normoxic (-33.1%) and hyperoxic (-40.9%) hypercapnia. However, in Lmx1bf/f/p mice was equal to that in WT mice while breathing 10% CO2, indicating that non-5-HT neurons may play a dominant role during extreme hypercapnia. Additionally, ventilation was decreased during hypoxia in Lmx1bf/f/p mice compared to WT mice at 25 degrees C due to decreased TCore. These data suggest that a moderate cold stress in Lmx1bf/f/p mice leads to further dysfunction in ventilatory control resulting from failure to adequately maintain TCore. We conclude that 5-HT neurons contribute to the hypercapnic ventilatory response under physiologic, more than during extreme levels of CO2, and that mild cold stress further compromises ventilatory control in Lmx1bf/f/p mice as a result of defective thermogenesis.

摘要

我们之前已经表明,5-羟色胺(5-HT)神经元几乎完全缺失的小鼠(Lmx1bf/f/p)表现出钝性高碳酸通气反应(HCVR)和冷诱导产热受损,但在温暖环境温度(TAmb;30摄氏度)下具有正常的基线通气、核心体温(TCore)和低氧通气反应(HVR)。这些结果表明,5-HT神经元是通气、代谢和体温控制整合的重要部位。为了更好地定义这种整合作用,我们现在确定中度冷应激(TAmb为25摄氏度)如何影响成年Lmx1bf/f/p小鼠的通气控制。在25摄氏度下进行全动物体积描记记录期间,与野生型(WT)小鼠相比,Lmx1bf/f/p小鼠的基线、代谢率和TCore降低(P < 0.001)。此外,在常氧(-33.1%)和高氧(-40.9%)高碳酸血症期间,Lmx1bf/f/p小鼠的HCVR降低。然而,在Lmx1bf/f/p小鼠中,当呼吸10%二氧化碳时与WT小鼠相等,表明在极端高碳酸血症期间非5-HT神经元可能起主导作用。此外,由于TCore降低,与25摄氏度下的WT小鼠相比,Lmx1bf/f/p小鼠在低氧期间通气减少。这些数据表明,Lmx1bf/f/p小鼠中的中度冷应激导致通气控制进一步功能障碍,这是由于未能充分维持TCore所致。我们得出结论,5-HT神经元在生理状态下对高碳酸通气反应的贡献大于在极端二氧化碳水平期间,并且轻度冷应激由于产热缺陷进一步损害了Lmx1bf/f/p小鼠的通气控制。