缺失黑色素瘤 2(AIM2)吡喃结构域的结构为 AIM2 自身抑制和炎性体组装机制提供了新的认识。
Structure of the absent in melanoma 2 (AIM2) pyrin domain provides insights into the mechanisms of AIM2 autoinhibition and inflammasome assembly.
机构信息
Structural Immunobiology Unit, Laboratory of Immunology, NIAID, National Institutes of Health, Bethesda, MD 20892-0430, USA.
出版信息
J Biol Chem. 2013 May 10;288(19):13225-35. doi: 10.1074/jbc.M113.468033. Epub 2013 Mar 25.
BACKGROUND
AIM2 binds dsDNA and associates with ASC through their PYDs to form an inflammasome.
RESULTS
The AIM2 PYD structure illustrates distinct charge distribution and a unique hydrophobic patch.
CONCLUSION
The AIM2 PYD may bind the ASC PYD and the AIM2 HIN domain through overlapping surface.
SIGNIFICANCE
These findings provide insights into the mechanisms of AIM2 autoinhibition and inflammasome assembly. Absent in melanoma 2 (AIM2) is a cytosolic double-stranded (dsDNA) sensor essential for innate immune responses against DNA viruses and bacteria such as Francisella and Listeria. Upon dsDNA engagement, the AIM2 amino-terminal pyrin domain (PYD) is responsible for downstream signaling to the adapter protein apoptosis-associated speck-like protein containing a caspase recruitment domain (ASC) through homotypic PYD-PYD interactions and the assembly of an inflammasome. Toward a better understanding of the AIM2 signaling mechanism, we determined the crystal structure of the human AIM2 PYD. The structure reveals a death domain fold with a short α3 helix that is buttressed by a highly conserved lysine residue at the α2 helix, which may stabilize the α3 helix for potential interaction with partner domains. The surface of the AIM2 PYD exhibits distinct charge distribution with highly acidic α1-α2 helices and highly basic α5-α6 helices. A prominent solvent-exposed hydrophobic patch formed by residues Phe-27 and Phe-28 at the α2 helix resembles a similar surface involved in the death effector domain homotypic interactions. Docking studies suggest that the AIM2 PYD may bind the AIM2 hematopoietic interferon-inducible nuclear (HIN) domain or ASC PYD using overlapping surface near the α2 helix. This may ensure that AIM2 interacts with the downstream adapter ASC only upon release of the autoinhibition by the dsDNA ligand. Our work thus unveils novel structural features of the AIM2 PYD and provides insights into the potential mechanisms of the PYD-HIN and PYD-PYD interactions important for AIM2 autoinhibition and inflammasome assembly.
背景
AIM2 通过其 PYDs 与 ASC 结合,以形成炎性小体,结合 dsDNA。
结果
AIM2 PYDs 的结构说明了独特的电荷分布和独特的疏水性斑块。
结论
AIM2 PYDs 可能通过重叠的表面与 ASC PYDs 和 AIM2 HIN 结构域结合。
意义
这些发现为 AIM2 自动抑制和炎性小体组装的机制提供了新的见解。黑色素瘤 2(AIM2)不存在于细胞质中,是一种针对 DNA 病毒和细菌(如弗朗西斯菌和李斯特菌)的固有免疫反应所必需的双链(dsDNA)传感器。在与 dsDNA 结合后,AIM2 氨基末端的吡喃结构域(PYD)负责通过同型 PYD-PYD 相互作用和炎性小体的组装,将下游信号传递给衔接蛋白凋亡相关斑点样蛋白含有半胱氨酸蛋白酶募集结构域(ASC)。为了更好地了解 AIM2 信号机制,我们测定了人 AIM2 PYD 的晶体结构。该结构揭示了一个死亡结构域折叠,其中包含一个短的 α3 螺旋,由α2 螺旋上高度保守的赖氨酸残基支撑,这可能稳定 α3 螺旋,以利于与伙伴结构域的相互作用。AIM2 PYD 的表面显示出独特的电荷分布,具有高度酸性的α1-α2 螺旋和高度碱性的α5-α6 螺旋。α2 螺旋上残基 Phe-27 和 Phe-28 形成的突出溶剂暴露的疏水性斑块类似于参与死亡效应结构域同型相互作用的类似表面。对接研究表明,AIM2 PYD 可能使用靠近α2 螺旋的重叠表面与 AIM2 造血干扰素诱导核(HIN)结构域或 ASC PYD 结合。这可以确保只有在 dsDNA 配体释放自动抑制后,AIM2 才与下游衔接子 ASC 相互作用。我们的工作因此揭示了 AIM2 PYD 的新结构特征,并提供了对 PYD-HIN 和 PYD-PYD 相互作用的潜在机制的见解,这些相互作用对于 AIM2 自动抑制和炎性小体组装很重要。
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