实验性坏死性小肠结肠炎中的肠系膜一氧化氮和超氧化物的产生。

Mesenteric nitric oxide and superoxide production in experimental necrotizing enterocolitis.

机构信息

Medical College of Wisconsin, Milwaukee, Wisconsin 53226, USA.

出版信息

J Surg Res. 2010 Jun 1;161(1):1-8. doi: 10.1016/j.jss.2009.07.028. Epub 2009 Aug 19.

DOI:10.1016/j.jss.2009.07.028

PMID:19922948

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3196648/

Abstract

BACKGROUND

A proposed mechanism of intestinal injury in necrotizing enterocolitis (NEC) involves vascular dysfunction through altered nitric oxide synthase (NOS) activity. We hypothesize that this dysfunction results in an imbalance in nitric oxide (NO) and superoxide (O(2)(-)) production by the intestinal vascular endothelium, which contributes to the intestinal injury seen in NEC.

MATERIALS AND METHODS

Neonatal rat pups were divided into two groups. Control pups were breast fed and housed with their mother. Experimental NEC pups were housed separately and either exposed to formula feeding and 5% to 10% hypoxia alone (FF/H) or with the addition of lipopolysaccharide (FF/H/LPS). Mesenteries from each group were analyzed for NO and O(2)(-) production with and without NOS inhibition by N(G)-monomethyl-L-arginine (L-NMMA). Western blot analysis for eNOS, phosphorylated eNOS (phospho-eNOS), and inducible NOS (iNOS) was performed, and each terminal ileum was graded for intestinal injury by histology.

RESULTS

Histology revealed mild intestinal injury (grade 1-2 on a 4-point scale) in the FF/H group and severe injury (grade 3-4) in the FF/H/LPS group. The FF/H cohort had significantly increased NO and lower O(2)(-) production, while the FF/H/LPS group shifted to significantly decreased NO and increased O(2)(-) production. L-NMMA inhibited >50% of O(2)(*-) production in all three groups but only inhibited *NO production in control and FF/H pups. Western blot analysis revealed increased levels of phospho-eNOS in FF/H pups and increased iNOS in FF/H/LPS pups.

CONCLUSIONS

This study demonstrates in the progression of NEC, intestinal ischemia is associated with a shift from NO to O(2)(-) production, which is NOS-dependent. Potentially greater injury results from impaired vasodilatation and over-production of reactive oxygen species.

摘要

背景

坏死性小肠结肠炎（NEC）的肠损伤机制涉及通过改变一氧化氮合酶（NOS）活性导致的血管功能障碍。我们假设这种功能障碍导致肠道血管内皮细胞中一氧化氮（*NO）和超氧化物（O2(-)）产生失衡，这导致了 NEC 中观察到的肠道损伤。

材料和方法

将新生大鼠幼崽分为两组。对照组幼崽母乳喂养，并与母亲一起饲养。实验组 NEC 幼崽单独饲养，并单独暴露于配方喂养和 5%至 10%低氧（FF/H）或添加脂多糖（FF/H/LPS）。分析每组肠系膜的*NO 和 O2(-)产生情况，并通过 N(G)-单甲基-L-精氨酸（L-NMMA）抑制 NOS 进行。进行 eNOS、磷酸化 eNOS（磷酸化 eNOS，phospho-eNOS）和诱导型 NOS（iNOS）的 Western blot 分析，并用组织学对每个末端回肠进行肠道损伤分级。

结果

组织学显示 FF/H 组有轻度肠道损伤（4 分制评分为 1-2 级），FF/H/LPS 组有严重损伤（3-4 级）。FF/H 队列的NO 明显增加，O2(-)生成减少，而 FF/H/LPS 队列则明显减少NO，增加 O2(-)生成。L-NMMA 抑制了所有三组中超过 50%的 O2(-)生成，但仅抑制了对照和 FF/H 幼崽的*NO 生成。Western blot 分析显示 FF/H 幼崽的 phospho-eNOS 水平增加，FF/H/LPS 幼崽的 iNOS 增加。

结论

本研究表明，在 NEC 的进展过程中，肠缺血与*NO 向 O2(-)生成的转变有关，这种转变依赖于 NOS。潜在的更大损伤是由于血管舒张功能障碍和活性氧物质过度产生所致。

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