内毒素耐受的分子机制。

B Yoza, K LaRue, C McCall
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引用次数: 0

摘要

细菌脂多糖内毒素(LPS)是许多炎症基因的有效激活剂,包括白细胞介素-1 (IL-1)。IL-1和其他细胞因子如肿瘤坏死因子α (TNF α)是诱导严重脓毒症综合征(SS)的重要介质。LPS的主要靶细胞是血液或组织中的白细胞,如巨噬细胞和中性粒细胞。这些细胞能够对LPS产生反应和适应,后一种现象被称为LPS耐受。在动物中,脂多糖耐受性是一种非常有效的机制,可以防止严重败血症的致命综合征。两个模型被用来研究脂多糖耐受性的分子基础。第一种模型采用分离自SS患者的血白细胞,第二种模型采用体外培养的原单核细胞THP-1。在SS模型中,LPS耐受涉及IL-1 β mRNA水平的抑制。IL-1 β mRNA的抑制受一种不稳定的抑制蛋白的控制。与IL-1 β的抑制相反,mRNA受一种不稳定的抑制蛋白的控制。与抑制IL-1 β相反,SS患者白细胞中2型IL-1受体mRNA和蛋白的表达增加。LPS耐受的THP-1模型也涉及抑制LPS诱导IL-1 β基因表达。对THP-1细胞IL-1 β表达的抑制是在转录水平,与SS模型一样是受一种不稳定蛋白的控制。两种模型的LPS耐受性都是刺激特异性的。我们进一步发现转录因子如NF κ B和AP-1可能参与调节LPS耐受。
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Molecular mechanisms responsible for endotoxin tolerance.

Bacterial lipopolysaccharide endotoxin (LPS) is a potent activator of a number of inflammatory genes, including interleukin-1 (IL-1). IL-1 and other cytokines such as tumor necrosis factor alpha (TNF alpha) are essential mediators in inducing severe sepsis syndromes (SS). Major cellular targets of LPS are blood or tissue leukocytes, such as macrophages and neutrophils. These cells can respond and adapt to LPS, the latter phenomenon is known as LPS tolerance. In animals, LPS tolerance is a highly effective mechanism of protection against the lethal syndrome of severe sepsis. Two models are used to investigate the molecular basis of LPS tolerance. The first model employs blood leukocytes isolated from patients with SS. The second model employs the promonocytic cell line, THP-1 in vitro. In the SS model, LPS tolerance of involves repression at the level of IL-1 beta mRNA. Suppression of IL-1 beta mRNA is under the control of a labile repressor protein. In contrast to suppression of IL-1 beta, mRNA is under the control of a labile repressor protein. In contrast to suppression of IL-1 beta, there is increased expression of the Type 2 IL-1 receptor mRNA and protein in leukocytes from patients with SS. The THP-1 model of LPS tolerance also involves repression of LPS induction of IL-1 beta gene expression. The repression of THP-1 cell IL-1 beta expression is at the level of transcription, and like the SS model is under the control of a labile protein. LPS tolerance in both models is stimulus-specific. We further find that transcription factors such as NF kappa B and AP-1 may participate in regulating LPS tolerance.

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