Dravet 综合征小鼠模型中的呼吸紊乱。
Disordered breathing in a mouse model of Dravet syndrome.
机构信息
Department of Physiology and Neurobiology, University of Connecticut, Storrs, United States.
出版信息
Elife. 2019 Apr 26;8:e43387. doi: 10.7554/eLife.43387.
Abstract
Dravet syndrome (DS) is a form of epilepsy with a high incidence of sudden unexpected death in epilepsy (SUDEP). Respiratory failure is a leading cause of SUDEP, and DS patients' frequently exhibit disordered breathing. Despite this, mechanisms underlying respiratory dysfunction in DS are unknown. We found that mice expressing a DS-associated missense mutation (A1783V) conditionally in inhibitory neurons (; defined as ) exhibit spontaneous seizures, die prematurely and present a respiratory phenotype including hypoventilation, apnea, and a diminished ventilatory response to CO. At the cellular level in the retrotrapezoid nucleus (RTN), we found inhibitory neurons expressing the A1783V variant are less excitable, whereas glutamatergic chemosensitive RTN neurons, which are a key source of the CO/H-dependent drive to breathe, are hyper-excitable in slices from mice. These results show loss of function can disrupt respiratory control at the cellular and whole animal levels.
摘要
德拉维特综合征(DS)是一种癫痫,具有较高的癫痫猝死(SUDEP)发生率。呼吸衰竭是 SUDEP 的主要原因,DS 患者经常出现呼吸紊乱。尽管如此,DS 患者呼吸功能障碍的机制尚不清楚。我们发现,在抑制性神经元中条件性表达 DS 相关错义突变(A1783V)的小鼠(定义为 )表现出自发性癫痫发作、过早死亡,并表现出呼吸表型,包括通气不足、呼吸暂停和对 CO 的通气反应减弱。在延髓腹外侧核(RTN)的细胞水平上,我们发现表达 A1783V 变异的抑制性神经元兴奋性降低,而谷氨酸能化学敏感性 RTN 神经元是 CO/H 依赖呼吸驱动的关键来源,在 小鼠的切片中表现出过度兴奋。这些结果表明 功能丧失可在细胞和整体动物水平上破坏呼吸控制。
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