反义寡核苷酸抑制表明ikappab - α在系膜细胞中不形成NF-kappaB的负自我调节环。

R B Auwardt, S J Mudge, C Chen, D A Power
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引用次数: 15

摘要

IkappaB蛋白在NF-kappaB/Rel组转录因子的调控中起重要作用,而NF-kappaB/Rel组转录因子在炎症反应中起关键作用。ikappab - α本身通过NF-kappaB的激活而上调,并被认为是负反馈回路的一部分。然而,ikappab - α的作用受到了挑战,最近的证据表明:(1)尽管ikappab - α蛋白重新合成,但系膜和内皮细胞中NF-kappaB的持续激活;(2)皮质类固醇对NF-kappaB反激活活性的抑制可以与ikappab - α蛋白的升高分离。我们利用针对ikappab - α翻译起始点的硫代反义寡核苷酸研究了ikappab - α在系膜细胞中的作用。如果ikappab - α确实在这些细胞中起负反馈抑制剂的作用,那么ikappab - α水平的降低应该会导致NF-kappaB活性的增加。我们首先证明刺激后ikappab - α蛋白的再合成可以特异性地减少。我们随后发现,刺激后的反义处理并没有增加NF-kappaB DNA结合。最后,刺激后NF- kappab依赖的基因信号传导(通过NF- kappab荧光素酶报告基因和已知NF- kappab应答基因MCP-1和ikappab - α mRNA的上调来测定)减少而不是增加。这些数据表明,IkappaB-alpha不会在系膜细胞中形成NF-kappaB的负自我调节环,实际上可能会降低NF-kappaB的活性。这可能与在系膜细胞疾病中抑制NF-kappaB活性的治疗有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inhibition with antisense oligonucleotide suggests that IkappaB-alpha does not form a negative autoregulatory loop for NF-kappaB in mesangial cells.

The IkappaB proteins are important in the regulation of the NF-kappaB/Rel group of transcription factors which are pivotal in the inflammatory response. IkappaB-alpha is itself upregulated by activation of NF-kappaB and is postulated to be part of a negative feedback loop. This role of IkappaB-alpha has been challenged, however, by recent evidence that demonstrates (1) continued activation of NF-kappaB in mesangial and endothelial cells despite the resynthesis of IkappaB-alpha protein and (2) that inhibition of the transactivating activity of NF-kappaB by corticosteroids can be dissociated from a rise in IkappaB-alpha protein. We investigated the role of IkappaB-alpha in mesangial cells using a phosphorothioate antisense oligonucleotide directed against the translational start point of IkappaB-alpha. If IkappaB-alpha does function as a negative feedback inhibitor in these cells, then reducing IkappaB-alpha levels should lead to an increase in NF-kappaB activity. We first demonstrated that IkappaB-alpha protein resynthesis following stimulation could be specifically reduced. We then showed that NF-kappaB DNA binding was not increased with antisense treatment following stimulation. Finally, NF- kappaB-dependent gene signalling after stimulation (determined through an NF-kappaB luciferase reporter and upregulation of the mRNA of known NF-kappaB-responsive genes MCP-1 and IkappaB-alpha) was reduced rather than increased. These data suggest that IkappaB-alpha does not form a negative autoregulatory loop for NF-kappaB in mesangial cells and may actually reduce NF-kappaB activity. This may have relevance to therapies directed at inhibition of NF-kappaB activity in mesangial cell diseases.

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