Beit-Yannai E, Zhang R, Trembovler V, Samuni A, Shohami E
Department of Pharmacology, Faculty of Medicine, Hebrew University, School of Pharmacy, Jerusalem, Israel.
Brain Res. 1996 Apr 22;717(1-2):22-8. doi: 10.1016/0006-8993(95)01492-6.
Nitroxide stable radicals are unreactive toward most diamagnetic molecules, but readily undergo one-electron redox reactions with paramagnetic species such as free radicals and transition metals, thus serving as cell permeable antioxidants. The involvement of reactive oxygen species in the pathophysiology of neurotrauma has been well established. The neuroprotective properties of three nitroxides: 2,2,6,6-tetramethylpiperidine-1-N-oxyl (TPO), the hydrophilic analog: TPL, and its reduced form: TPH, were tested in a rat model of closed head injury (CHI). CHI was induced in ether anesthetized rats by a weight drop device and recovery was followed for up to 24 h. The "clinical status' was evaluated according to a "Neurological Severity Score' (NSS), at 1 h and 24 h, the difference between these scores, delta NSS, reflecting the extent of recovery. Edema was assessed by measurement of water content at 24 h. The integrity of the blood-brain barrier (BBB) was investigated using Evans Blue extravasation. TPL, TPH and TPO facilitated clinical recovery, the latter causing a more pronounced effect (delta NSS = 7.63 +/- 0.26 in treated rats vs 4.94 +/- 0.48 in control rats, P < 0.001). TPL was found to significantly reduce edema formation (80.13% +/- 0.26 vs 83.65% +/- 0.49, P < 0.001) and to ameliorate BBB disruption (P < 0.001). The therapeutic window of TPL was found to be in the range of 4 h after CHI. The mechanisms underlying the nitroxide neuroprotective activity presumably involve: (a) reoxidation of reduced transition metal ions; (b) a selective radical-radical reaction; and (c) catalytic removal of intracellular and extracellular .O2-. The results indicate that nitroxides could be used in neuroprotective treatment of CHI.
氮氧化物稳定自由基对大多数抗磁性分子无反应,但能与自由基和过渡金属等顺磁性物质轻松进行单电子氧化还原反应,因此可作为细胞可渗透的抗氧化剂。活性氧在神经创伤病理生理学中的作用已得到充分证实。在闭合性颅脑损伤(CHI)大鼠模型中测试了三种氮氧化物的神经保护特性:2,2,6,6-四甲基哌啶-1-N-氧基(TPO)、亲水性类似物TPL及其还原形式TPH。在乙醚麻醉的大鼠中,通过重物下落装置诱导CHI,并持续观察恢复情况长达24小时。在1小时和24小时时,根据“神经严重程度评分”(NSS)评估“临床状态”,这些评分之间的差异即δNSS,反映恢复程度。在24小时时通过测量含水量评估水肿情况。使用伊文思蓝外渗法研究血脑屏障(BBB)的完整性。TPL、TPH和TPO促进了临床恢复,其中TPO的效果更显著(治疗组大鼠δNSS = 7.63±0.26,对照组大鼠为4.94±0.48,P < 0.001)。发现TPL能显著减少水肿形成(80.13%±0.26对83.65%±0.49,P < 0.001)并改善BBB破坏情况(P < 0.001)。发现TPL的治疗窗在CHI后4小时范围内。氮氧化物神经保护活性的潜在机制可能涉及:(a)还原态过渡金属离子的再氧化;(b)选择性自由基-自由基反应;以及(c)催化清除细胞内和细胞外的超氧阴离子。结果表明,氮氧化物可用于CHI的神经保护治疗。
