一氧化氮和局灶性脑缺血:多重作用和不同的结果。

D A Dawson
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引用次数: 0

摘要

最初观察到一氧化氮(NO)合成抑制剂可以拮抗细胞培养中的谷氨酸毒性,这导致了NO在体内缺血性脑损伤病理生理中的作用的广泛研究。然而,对NO合酶抑制剂在局灶性脑缺血模型中的疗效的研究已经产生了广泛不同的发现,从显著的神经保护到缺血性损伤的加剧。这篇综述总结了这些研究,并提出他们明显矛盾的发现可以通过将结果视为反映一氧化氮许多不同生理作用的连续反应来调和。因此,不同研究之间实验设计的差异可能会改变这些NO控制过程之间的平衡,并导致NO合成抑制的明显神经保护作用转变为缺血性损伤的加剧作用。因此,本综述还确定了NO的一些最重要的生理和病理生理功能(以及它们被NO合成酶抑制剂抑制的后果),这些功能可能相互作用,决定局灶性脑缺血损伤后的预后。只有更充分地定义和理解一氧化氮合成抑制剂和一氧化氮供体对体内缺血性损伤程度的相互作用机制的影响的复杂性,才能更清楚地了解一氧化氮合成抑制剂和一氧化氮供体的潜在治疗效用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nitric oxide and focal cerebral ischemia: multiplicity of actions and diverse outcome.

The original observation that inhibitors of nitric oxide (NO) synthesis can antagonize glutamate toxicity in cell culture has led to extensive investigation of the role of NO in the pathophysiology of cerebral ischemic injury in vivo. However, studies of the efficacy of NO synthase inhibitors in models of focal cerebral ischemia have generated widely disparate findings, ranging from dramatic neuroprotection to exacerbation of ischemic damage. This review summarizes these studies and proposes that their apparently contradictory findings can be reconciled by viewing the results as a continuum of response that reflects the many and diverse physiological actions of NO. Thus, differences in experimental design between studies can alter the balance between these NO-controlled processes and result in the transformation of an overt neuroprotective effect of NO synthesis inhibition into one of exacerbation of ischemic injury. Thus, this review also identifies some of the most important physiological and pathophysiological functions of NO (and the consequences of their inhibition by NO synthase inhibitors) that may interact to determine outcome after a focal cerebral ischemic insult. A clearer appreciation of the potential therapeutic utility of both NO synthesis inhibitors and NO donors will emerge only when the complexity of their effects on mechanisms that interact to determine the extent of ischemic damage in vivo are more fully defined and understood.

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