The flexible stalk domain of sTREM2 modulates its interactions with phospholipids in the brain

David Saeb, Emma E Lietzke, Daisy I Fuchs, Emma C Aldrich, Kimberley D Bruce, Kayla G Sprenger
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Abstract

The microglial surface protein Triggering Receptor Expressed on Myeloid Cells 2 (TREM2) plays a critical role in mediating brain homeostasis and inflammatory responses in Alzheimer's disease (AD). The soluble form of TREM2 (sTREM2) exhibits neuroprotective effects in AD, though the underlying mechanisms remain elusive. Moreover, differences in ligand binding between TREM2 and sTREM2, which have major implications for their roles in AD pathology, remain unexplained. To address these knowledge gaps, we conducted the most computationally intensive molecular dynamics simulations to date of (s)TREM2, exploring their interactions with key damage- and lipoprotein-associated phospholipids and the impact of the AD-risk mutation R47H. Our results demonstrate that the flexible stalk domain of sTREM2 serves as the molecular basis for differential ligand binding between sTREM2 and TREM2, facilitated by its role in stabilizing the Ig-like domain and altering the accessibility of canonical ligand binding sites. We identified a novel ligand binding site on sTREM2, termed the 'Expanded Surface 2', which emerges due to competitive binding of the stalk with the Ig-like domain. Additionally, we observed that the stalk domain itself functions as a site for ligand binding, with increased binding in the presence of R47H. This suggests that sTREM2's neuroprotective role in AD may, at least in part, arise from the stalk domain's ability to rescue dysfunctional ligand binding caused by AD-risk mutations. Lastly, our findings indicate that R47H-induced dysfunction in membrane-bound TREM2 may result from both diminished ligand binding due to restricted complementarity-determining region 2 loop motions and an impaired ability to differentiate between ligands, proposing a novel mechanism for loss-of-function. In summary, these results provide valuable insights into the role of sTREM2 in AD pathology, laying the groundwork for the design of new therapeutic approaches targeting (s)TREM2 in AD.
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sTREM2 的柔性柄结构域调节其与大脑磷脂的相互作用
小胶质细胞表面蛋白髓系细胞上表达的触发受体 2(TREM2)在阿尔茨海默病(AD)中介导大脑稳态和炎症反应方面起着关键作用。TREM2 的可溶性形式(sTREM2)在阿尔茨海默病中具有神经保护作用,但其潜在机制仍难以捉摸。此外,TREM2 和 sTREM2 之间配体结合的差异对它们在 AD 病理学中的作用具有重要影响,但这些差异仍未得到解释。为了填补这些知识空白,我们对(s)TREM2 进行了迄今为止计算强度最高的分子动力学模拟,探索了它们与关键损伤和脂蛋白相关磷脂的相互作用以及 AD 风险突变 R47H 的影响。我们的研究结果表明,sTREM2 的柔性柄结构域是 sTREM2 和 TREM2 之间不同配体结合的分子基础,它在稳定 Ig 样结构域和改变经典配体结合位点的可及性方面起着促进作用。我们在 sTREM2 上发现了一个新的配体结合位点,称为 "扩展表面 2",它的出现是由于柄与 Ig 样结构域的竞争性结合。此外,我们还观察到,柄结构域本身也是一个配体结合位点,在 R47H 存在的情况下,其结合率会增加。这表明,sTREM2在AD中的神经保护作用可能至少部分源于柄结构域挽救由AD风险突变引起的配体结合功能障碍的能力。最后,我们的研究结果表明,R47H诱导的膜结合TREM2功能障碍可能是由于互补决定区2环运动受限导致配体结合减弱,以及配体之间的分辨能力受损,从而提出了一种新的功能缺失机制。总之,这些结果为了解 sTREM2 在 AD 病理学中的作用提供了宝贵的见解,为设计针对 (s)TREM2 的 AD 新疗法奠定了基础。
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