磷脂酶、环氧化酶和脂氧化酶在脑缺血/创伤性损伤中的作用。

John W Phillis, Michael H O'Regan
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引用次数: 95

摘要

游离脂肪酸(FFAs)在脑缺血和创伤性损伤后升高。磷脂酶激活,随后从膜磷脂中释放FFAs,可能是其机制。除了磷脂酶A1、B、C和D外,PLA2至少有19组,包括多种胞浆型、钙独立型和分泌型异构体。磷脂酶活性可通过钙、磷酸化和与g蛋白偶联受体结合的激动剂来调节。这些酶通常在细胞膜的生理重塑中起作用,通过磷脂酶活性去除游离脂肪酸,然后用不同的游离脂肪酸再酰基化。然而,细胞维持正常代谢功能的能力降低以及由此导致的ATP水平下降可导致膜磷脂再酰化的失败。膜磷脂的改变可能会损害许多细胞功能,包括积累兴奋毒性氨基酸的能力。这篇综述提出了磷脂酶及其产物在脑损伤后损伤病因学中的核心作用的证据。在脑缺血和脑外伤动物模型中,磷脂酶的表达和活性增加。选择性磷脂酶抑制剂的应用减少了大鼠脑内游离脂肪酸的释放,这种抑制也降低了前脑缺血、局灶性(大脑中动脉闭塞)缺血和脑外伤后皮质损伤的严重程度。敲除PLA2的小鼠梗死体积减小。人类数据显示脑脊液FFAs升高与中风、外伤性脑损伤和蛛网膜下腔出血后预后恶化之间存在相关性。释放的游离脂肪酸,尤其是花生四烯酸和二十二碳六烯酸,与溶血磷脂的产生一起,可以启动一系列可能导致神经元损伤的事件。环加氧酶和脂加氧酶途径的抑制剂已被证明可以减少缺血和创伤后的脑缺陷。这些结果提示了使用选择性磷脂酶、环氧化酶和脂氧化酶抑制剂来降低脑损伤后发病率的治疗策略,强调需要进一步研究它们在脑损伤发展中的作用。
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The role of phospholipases, cyclooxygenases, and lipoxygenases in cerebral ischemic/traumatic injuries.

Free fatty acids (FFAs) are elevated in the brain following both ischemic and traumatic injury. Phospholipase activation, with the subsequent release of FFAs from membrane phospholipids, is the likely mechanism. In addition to phospholipases A1, B, C, and D, there are at least 19 groups of PLA2, including multiple cytosolic, calcium independent, and secretory isoforms. Phospholipase activity can be regulated by calcium, by phosphorylation, and by agonists binding to G-protein-coupled receptors. These enzymes normally function in the physiological remodeling of cellular membranes, whereby FFAs are removed by phospholipase activity and then reacylated with a different FFA. However, reductions in the cell's ability to maintain normal metabolic function and the resultant fall in ATP levels can cause the failure of reacylation of membrane phospholipids. Alterations to membrane phospholipids would be expected to compromise many cellular functions, including the ability to accumulate excitotoxic amino acids. This review presents evidence for a central role of phospholipases and their products in the etiology of damage following injury to the brain. Phospholipase expression and activity is increased in animal models of cerebral ischemia and trauma. FFA release from the in vivo rat brain is reduced following the application of selective phospholipase inhibitors, and this inhibition also decreases the severity of cortical damage following forebrain ischemia, focal (middle cerebral artery occlusion) ischemia, and cerebral trauma. Mice with knockouts of PLA2 have decreased infarct volumes. Human data demonstrate a correlation between the elevation of CSF FFAs and worsened outcome following stroke, traumatic brain injury, and subarachnoid hemorrhage. The released FFAs, especially arachidonic and docosahexaenoic acids, together with the production of lysophospholipids, can initiate a chain of events which may be responsible for the development of neuronal damage. Inhibitors of both cyclooxygenase and lipoxygenase pathways have been shown to reduce cerebral deficits following ischemia and trauma. These results suggest therapeutic strategies to reduce morbidity following cerebral injury using selective inhibitors of phospholipases, cyclooxygenases, and lipoxygenases, underlining the need for further investigation of their role in the development of cerebral damage.

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