IL-11信号复合体的结构使人们能够深入了解与颅骨发育不良有关的受体变异。

Darlene D Sentosa, Riley D Metcalfe, Natalie A Sims, Tracy L Putoczki, Michael D W Griffin
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引用次数: 0

摘要

白细胞介素 11(IL-11)是 IL-6 细胞因子家族的成员,在造血、炎症、骨代谢和颅面发育中发挥作用。IL-11 在慢性炎症性疾病、纤维化和癌症中也有病理作用。在这一结构快照中,我们探讨了最近发表的人类 IL-11 信号复合物的低温电子显微镜结构,以了解复合物形成和疾病相关突变的分子机制。IL-11通过与其细胞表面受体--IL-11受体α亚基(IL-11Rα)和糖蛋白130(gp130)--结合形成六聚体信号复合物而发出信号。我们研究了与颅骨发育不良和颅骨发育不良样表型相关的受体序列变异在复合物中的位置,并推测了导致信号功能缺陷的潜在分子机制。虽然 IL-11Rα 中的这些致病氨基酸序列变异通常位于复合物各组分界面的远端,但重要的结构残基却具有很高的代表性,包括脯氨酸残基、参与二硫键的半胱氨酸残基以及色氨酸-精氨酸阶梯内或阶梯周围的残基。我们还注意到与颅骨发育不良有关的 gp130 细胞外结构域中氨基酸取代的位置和潜在影响。随着人们对 IL-11 生理和病理功能的关注与日俱增,IL-11 信号的高分辨率结构知识对于理解疾病相关突变和为治疗策略提供信息的重要性也将与日俱增。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The structure of the IL-11 signalling complex provides insight into receptor variants associated with craniosynostosis.

Interleukin 11 (IL-11), a member of the IL-6 family of cytokines, has roles in haematopoiesis, inflammation, bone metabolism, and craniofacial development. IL-11 also has pathological roles in chronic inflammatory diseases, fibrosis, and cancer. In this structural snapshot, we explore our recently published cryo-EM structure of the human IL-11 signalling complex to understand the molecular mechanisms of complex formation and disease-associated mutations. IL-11 signals by binding to its cell surface receptors, the IL-11 receptor α subunit (IL-11Rα) and glycoprotein 130 (gp130), to form a hexameric signalling complex. We examine the locations within the complex of receptor sequence variants that are associated with craniosynostosis and craniosynostosis-like phenotypes and speculate on potential molecular mechanisms leading to defects in signalling function. While these causative amino acid sequence changes in IL-11Rα are generally distal to interfaces between components of the complex, important structural residues are highly represented, including proline residues, cysteine residues involved in disulfide bonds, and residues within or surrounding the tryptophan-arginine ladder. We also note the locations and potential effects of amino acid substitutions within the extracellular domains of gp130 that are associated with craniosynostosis. As focus on the physiological and pathological functions of IL-11 grows, the importance of high-resolution structural knowledge of IL-11 signalling to understand disease-associated mutations and to inform therapeutic strategies will only increase.

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