炎症小体是细胞内 LPS 的先天免疫受体。

Inflammatory caspases are innate immune receptors for intracellular LPS.

机构信息

1] Peking University-Tsinghua University-National Institute of Biological Sciences Joint Graduate Program, National Institute of Biological Sciences, Beijing 102206, China [2] National Institute of Biological Sciences, Beijing 102206, China [3].

1] National Institute of Biological Sciences, Beijing 102206, China [2].

出版信息

Nature. 2014 Oct 9;514(7521):187-92. doi: 10.1038/nature13683. Epub 2014 Aug 6.

DOI:10.1038/nature13683

PMID:25119034

Abstract

The murine caspase-11 non-canonical inflammasome responds to various bacterial infections. Caspase-11 activation-induced pyroptosis, in response to cytoplasmic lipopolysaccharide (LPS), is critical for endotoxic shock in mice. The mechanism underlying cytosolic LPS sensing and the responsible pattern recognition receptor are unknown. Here we show that human monocytes, epithelial cells and keratinocytes undergo necrosis upon cytoplasmic delivery of LPS. LPS-induced cytotoxicity was mediated by human caspase-4 that could functionally complement murine caspase-11. Human caspase-4 and the mouse homologue caspase-11 (hereafter referred to as caspase-4/11) and also human caspase-5, directly bound to LPS and lipid A with high specificity and affinity. LPS associated with endogenous caspase-11 in pyroptotic cells. Insect-cell purified caspase-4/11 underwent oligomerization upon LPS binding, resulting in activation of the caspases. Underacylated lipid IVa and lipopolysaccharide from Rhodobacter sphaeroides (LPS-RS) could bind to caspase-4/11 but failed to induce their oligomerization and activation. LPS binding was mediated by the CARD domain of the caspase. Binding-deficient CARD-domain point mutants did not respond to LPS with oligomerization or activation and failed to induce pyroptosis upon LPS electroporation or bacterial infections. The function of caspase-4/5/11 represents a new mode of pattern recognition in immunity and also an unprecedented means of caspase activation.

摘要

鼠源半胱天冬酶-11 非经典炎性小体对多种细菌感染有反应。半胱天冬酶-11 激活诱导的细胞焦亡，对细胞质内脂多糖（LPS）的反应，对小鼠内毒素休克至关重要。细胞质内 LPS 感知的机制和负责的模式识别受体尚不清楚。在这里，我们发现人单核细胞、上皮细胞和角质形成细胞在细胞质内递送 LPS 后会发生坏死。LPS 诱导的细胞毒性由人源半胱天冬酶-4 介导，它可以功能性地补充鼠源半胱天冬酶-11。人源半胱天冬酶-4 和鼠同源半胱天冬酶-11（以下简称半胱天冬酶-4/11）以及人源半胱天冬酶-5 可以直接与 LPS 和脂质 A 以高特异性和亲和力结合。LPS 与细胞焦亡细胞中的内源性半胱天冬酶-11 相关联。昆虫细胞纯化的半胱天冬酶-4/11 在 LPS 结合后发生寡聚化，导致半胱天冬酶的激活。酰化不足的脂质 IVa 和来自红球菌属（LPS-RS）的脂多糖可以与半胱天冬酶-4/11 结合，但不能诱导其寡聚化和激活。LPS 结合由半胱天冬酶的 CARD 结构域介导。结合缺陷的 CARD 结构域点突变体不能对 LPS 进行寡聚化或激活反应，也不能在 LPS 电穿孔或细菌感染时诱导细胞焦亡。半胱天冬酶-4/5/11 的功能代表了免疫中一种新的模式识别模式，也是一种前所未有的半胱天冬酶激活方式。

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炎症小体是细胞内 LPS 的先天免疫受体。

Inflammatory caspases are innate immune receptors for intracellular LPS.

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