Watson B D, Busto R, Goldberg W J, Santiso M, Yoshida S, Ginsberg M D
J Neurochem. 1984 Jan;42(1):268-74. doi: 10.1111/j.1471-4159.1984.tb09728.x.
It has been hypothesized that ischemia, followed by reperfusion, facilitates peroxidative free-radical chain processes in brain. To resolve this question, rats were subjected to reversible global ischemia. From coronal sections of brains frozen in situ, small (ca. 2 mg) amounts of tissue were sampled from neocortex, hippocampus, and thalamus of both cerebral hemispheres of four groups of rats exposed to 30 min cerebral ischemia followed by 0, 30, 60, and 240 min of reperfusion, and from a control group subjected to the same operative procedures, except for the induction of ischemia. Heptane-solubilized total lipid extracts from these samples were analyzed spectroscopically in the 190-330 nm range for content of isolated (nonconjugated) double bonds and of conjugated diene structures; the latter are formed from isolated double bonds during peroxidation of unsaturated fatty acids. Spectra derived from tissue regions of rats subjected to ischemia, or ischemia followed by reperfusion, were compared to averaged, region-specific control spectra and were normalized to the original content of isolated double bonds in the peroxidized samples. The resultant difference spectra were analyzed in terms of ratios of conjugated diene concentration to the concentration of isolated double bonds originally at risk in the specific tissue zones considered. The peak representing conjugated diene formation was centered at 238 +/- 1 nm and was usually well resolved when the molar ratio [conjugated diene]/[isolated double bonds], expressed as a percentage [( CD]/[IDB]), was greater than 0.25%.(ABSTRACT TRUNCATED AT 250 WORDS)
有假说认为,缺血后再灌注会促进大脑中的过氧化自由基链式反应。为了解决这个问题,对大鼠进行了可逆性全脑缺血实验。从原位冷冻的大脑冠状切片中,从四组经历30分钟脑缺血后再灌注0、30、60和240分钟的大鼠的双侧大脑半球的新皮质、海马体和丘脑以及对照组(除未诱导缺血外,接受相同手术操作)中采集少量(约2毫克)组织样本。对这些样本的庚烷可溶总脂质提取物在190 - 330纳米范围内进行光谱分析,以测定分离的(非共轭)双键和共轭二烯结构的含量;后者是在不饱和脂肪酸过氧化过程中由分离的双键形成的。将经历缺血或缺血后再灌注的大鼠组织区域的光谱与平均的、区域特异性对照光谱进行比较,并根据过氧化样本中分离双键的原始含量进行归一化。根据共轭二烯浓度与特定组织区域中最初有风险的分离双键浓度的比率,对所得差异光谱进行分析。代表共轭二烯形成的峰值集中在238±1纳米处,当以百分比表示的摩尔比[共轭二烯]/分离双键大于0.25%时,通常能很好地分辨出来。(摘要截于250字)
