Mathmann Carmen D, Schultz Thomas E, Domínguez Cadena Leslie C, Blumenthal Antje
Frazer Institute, The University of Queensland, Brisbane, QLD, Australia.
Immunol Cell Biol. 2024 Oct;102(9):752-756. doi: 10.1111/imcb.12816. Epub 2024 Aug 19.
Toll-like receptors (TLRs) are innate immune sensors for the presence of pathogens and endogenous danger signals. TLR activation results in conserved intracellular signaling events that orchestrate inflammation and antimicrobial defense. While the identity and interplay of key TLR signaling components are well established, how these largely cytosolic proteins are physically connected is not well understood. For the activation of conserved intracellular signaling events, most TLRs engage the adapter MyD88 (myeloid differentiation primary response 88), which assembles into higher-order protein complexes, myddosomes. In their recent publication, Fisch et al. present evidence that oligomeric myddosomes detach from initiating TLRs and evolve into larger scaffolds that dynamically assemble not only proximal but also distal cytosolic elements required to execute the entire cascade of the TLR-MyD88 signaling pathway. Coinciding with decline in TLR signaling over time, myddosomes progressively recruit autophagy machinery that mediates myddosome clearance. These findings expand the current understanding of TLR signaling by positioning myddosomes as the central structural element that physically assembles the key executors and regulators of TLR-MyD88-dependent intracellular signaling cascades.
Toll样受体(TLRs)是用于检测病原体和内源性危险信号的天然免疫传感器。TLR激活会导致保守的细胞内信号传导事件,从而协调炎症反应和抗菌防御。虽然关键TLR信号成分的身份和相互作用已得到充分确立,但这些主要位于细胞质中的蛋白质如何在物理上相互连接尚不清楚。为了激活保守的细胞内信号传导事件,大多数TLR会与衔接蛋白髓样分化初级反应蛋白88(MyD88)结合,后者组装成高阶蛋白复合物——髓样分化初级反应蛋白88体(myddosomes)。在他们最近发表的文章中,菲施等人提供了证据,表明寡聚髓样分化初级反应蛋白88体从起始TLR上脱离,并演变成更大的支架结构,这些支架不仅动态组装执行TLR-MyD88信号通路整个级联反应所需的近端细胞质元件,还组装远端细胞质元件。随着时间的推移,TLR信号传导下降,与此同时,髓样分化初级反应蛋白88体逐渐募集介导髓样分化初级反应蛋白88体清除的自噬机制。这些发现通过将髓样分化初级反应蛋白88体定位为在物理上组装TLR-MyD88依赖性细胞内信号级联反应的关键执行者和调节者的核心结构元件,扩展了我们目前对TLR信号传导的理解。
