脂多糖通过一氧化氮和环鸟苷酸诱导对兴奋性毒性的早期耐受。

Lipopolysaccharide induces early tolerance to excitotoxicity via nitric oxide and cGMP.

作者信息

Orio Marcello, Kunz Alexander, Kawano Takayuki, Anrather Josef, Zhou Ping, Iadecola Costantino

机构信息

Division of Neurobiology, Weill Medical College of Cornell University, 411 East 69th St, KB-410, New York, NY 10021, USA.

出版信息

Stroke. 2007 Oct;38(10):2812-7. doi: 10.1161/STROKEAHA.107.486837. Epub 2007 Aug 30.

DOI:10.1161/STROKEAHA.107.486837

PMID:17761917

Abstract

BACKGROUND AND PURPOSE

Sublethal injury induces tolerance to a subsequent lethal insult, a phenomenon termed preconditioning (PC). PC occurs within hours (early tolerance) or days (delayed tolerance) after the inducing stimulus. In the brain, delayed tolerance has been studied extensively, but very little is known about early tolerance. We investigated whether the proinflammatory agent lipopolysaccharide (LPS), a well-established inducer of delayed tolerance, can also induce early tolerance and, if so, whether nitric oxide (NO) is involved in its mechanisms.

METHODS

In C57BL/6 mice, LPS was administered and N-methyl-D-aspartate (NMDA) was microinjected into the neocortex 30 minutes to 24 hours later. Lesion volume was assessed 24 hours after NMDA administration in thionine-stained sections.

RESULTS

LPS reduced NMDA lesions when administered 1 hour (-25+/-1%; P<0.05, n=5 per group) or 24 hours (-25+/-4%; P<0.05, n=5 per group) before NMDA application. LPS administration 30 minutes or 2 to 4 hours before NMDA administration was not neuroprotective (P>0.05). The protection at 1 hour was independent of protein synthesis and was blocked by inhibition of neuronal NO synthase or soluble guanylyl cyclase. Furthermore, early protection was not observed in neuronal or endothelial NO synthase-null mice, but it was present in inducible NO synthase-null mice.

CONCLUSIONS

The data demonstrate that LPS induces both early and late tolerance. At variance with delayed tolerance, which depends on inducible NO synthase and peroxynitrite, early tolerance is mediated by endothelial and neuronal NO through production of cGMP. The findings suggest that LPS can trigger signaling between endothelial cells and neurons, leading to NO production and cGMP-dependent neuroprotection.

摘要

背景与目的

亚致死性损伤可诱导机体对随后的致死性损伤产生耐受，这一现象称为预处理（PC）。PC在诱导刺激后的数小时（早期耐受）或数天（延迟耐受）内发生。在脑内，延迟耐受已得到广泛研究，但对早期耐受却知之甚少。我们研究了促炎剂脂多糖（LPS），一种已被证实的延迟耐受诱导剂，是否也能诱导早期耐受，以及如果是这样，一氧化氮（NO）是否参与其机制。

方法

在C57BL/6小鼠中，给予LPS，30分钟至24小时后将N-甲基-D-天冬氨酸（NMDA）微量注射到新皮层。在硫堇染色切片中于NMDA给药24小时后评估损伤体积。

结果

在NMDA应用前1小时（-25±1%；P<0.05，每组n=5）或24小时（-25±4%；P<0.05，每组n=5）给予LPS可减少NMDA损伤。在NMDA给药前30分钟或2至4小时给予LPS没有神经保护作用（P>0.05）。1小时时的保护作用与蛋白质合成无关，并且被神经元型NO合酶或可溶性鸟苷酸环化酶的抑制所阻断。此外，在神经元型或内皮型NO合酶缺失的小鼠中未观察到早期保护作用，但在诱导型NO合酶缺失的小鼠中存在早期保护作用。

结论

数据表明LPS可诱导早期和晚期耐受。与依赖诱导型NO合酶和过氧亚硝酸盐的延迟耐受不同，早期耐受是由内皮型和神经元型NO通过cGMP的产生介导的。这些发现提示LPS可触发内皮细胞与神经元之间的信号传导，导致NO产生和cGMP依赖性神经保护。

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脂多糖通过一氧化氮和环鸟苷酸诱导对兴奋性毒性的早期耐受。

Lipopolysaccharide induces early tolerance to excitotoxicity via nitric oxide and cGMP.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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