Yale University School of Medicine, Department of Pediatrics, New Haven, CT 06520, USA.
Prog Neurobiol. 2010 Apr;90(4):439-70. doi: 10.1016/j.pneurobio.2009.12.007. Epub 2009 Dec 28.
Neurons in the mammalian central nervous system are extremely vulnerable to oxygen deprivation and blood supply insufficiency. Indeed, hypoxic/ischemic stress triggers multiple pathophysiological changes in the brain, forming the basis of hypoxic/ischemic encephalopathy. One of the initial and crucial events induced by hypoxia/ischemia is the disruption of ionic homeostasis characterized by enhanced K(+) efflux and Na(+)-, Ca(2+)- and Cl(-)-influx, which causes neuronal injury or even death. Recent data from our laboratory and those of others have shown that activation of opioid receptors, particularly delta-opioid receptors (DOR), is neuroprotective against hypoxic/ischemic insult. This protective mechanism may be one of the key factors that determine neuronal survival under hypoxic/ischemic condition. An important aspect of the DOR-mediated neuroprotection is its action against hypoxic/ischemic disruption of ionic homeostasis. Specially, DOR signal inhibits Na(+) influx through the membrane and reduces the increase in intracellular Ca(2+), thus decreasing the excessive leakage of intracellular K(+). Such protection is dependent on a PKC-dependent and PKA-independent signaling pathway. Furthermore, our novel exploration shows that DOR attenuates hypoxic/ischemic disruption of ionic homeostasis through the inhibitory regulation of Na(+) channels. In this review, we will first update current information regarding the process and features of hypoxic/ischemic disruption of ionic homeostasis and then discuss the opioid-mediated regulation of ionic homeostasis, especially in hypoxic/ischemic condition, and the underlying mechanisms.
哺乳动物中枢神经系统中的神经元极易受到缺氧和血液供应不足的影响。事实上,缺氧/缺血应激会引发大脑中的多种病理生理变化,从而形成缺氧/缺血性脑病的基础。缺氧/缺血引起的最初和关键事件之一是离子稳态的破坏,其特征是增强的 K(+)外排和 Na(+)、Ca(2+)和 Cl(-)内流,这会导致神经元损伤甚至死亡。我们实验室和其他实验室的最新数据表明,阿片受体(特别是 δ 型阿片受体,DOR)的激活对缺氧/缺血损伤具有神经保护作用。这种保护机制可能是决定神经元在缺氧/缺血条件下存活的关键因素之一。DOR 介导的神经保护的一个重要方面是其对抗缺氧/缺血引起的离子稳态破坏的作用。具体而言,DOR 信号通过膜抑制 Na(+)内流并减少细胞内 Ca(2+)的增加,从而减少细胞内 K(+)的过度渗漏。这种保护依赖于 PKC 依赖性和 PKA 非依赖性信号通路。此外,我们的新探索表明,DOR 通过抑制性调节 Na(+)通道来减轻缺氧/缺血引起的离子稳态破坏。在这篇综述中,我们将首先更新关于缺氧/缺血引起的离子稳态破坏的过程和特征的最新信息,然后讨论阿片介导的离子稳态调节,特别是在缺氧/缺血条件下的调节及其潜在机制。