血清素和多巴胺转运体的异构调节:来自计算和实验的新见解

IF 2.1 Q3 PHYSIOLOGY Current research in physiology Pub Date : 2024-01-01 DOI:10.1016/j.crphys.2024.100125
Hoang Nguyen , Mary Hongying Cheng , Ji Young Lee , Shaili Aggarwal , Ole Valente Mortensen , Ivet Bahar
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引用次数: 0

摘要

人类单胺转运体(MATs)通过将其底物从突触间隙转运回突触前神经元,对调节单胺能神经递质至关重要。因此,它们的主要底物结合位点 S1 已成为各种化合物治疗神经精神疾病和神经退行性疾病(包括抑郁症、多动症、神经性疼痛和焦虑症)的靶点。我们在此对两种 MAT--多巴胺转运体(DAT)和血清素转运体(SERT)--的结构动力学和配体结合特性进行了比较研究,重点研究了药物或底物对其转运功能的异生调节作用,这些药物或底物始终与一个次级位点 S2 结合,而 S2 被认为是一个异生位点。我们对存在一种或多种配体/药物的情况下,DAT 和 SERT 的 50 个结构数据集的构象空间和动力学进行了系统分析,揭示了在协调与 S2 内的 S2-I 和 S2-II 子位点结合的小分子方面起着一致作用的特定残基,如 dDAT 中的 R476 和 Y481 以及 hSERT 中的 E494、P561 和 F556。进一步的分析揭示了 DAT 和 SERT 结构变化的两种主要模式(PC1 和 PC2)的不同之处。值得注意的是,PC1 是转运体外向和内向状态过渡及其门控的基础;而 PC2 则支持 S2 位点附近 TM 螺旋的重排。最后,对 S1 和 S2 位点结构元素之间交叉相关性的研究表明,TM6a 和 TM10 之间的耦合运动起着至关重要的作用。我们特别注意到 hSERT 残基 F335 和 G338 以及属于这两个螺旋的 E493-E494-T497 参与建立了 S1 和 S2 之间的异位沟通。这些结果有助于了解与 DAT 或 SERT 的 S2 位点结合的药物作用的分子基础。它们还为设计异构调节剂提供了基础,这种调节剂可以更好地控制特定的相互作用和细胞通路,而不是不加区别地通过靶向其正交位点来抑制转运体。
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Allosteric modulation of serotonin and dopamine transporters: New insights from computations and experiments

Human monoamine transporters (MATs) are critical to regulating monoaminergic neurotransmission by translocating their substrates from the synaptic space back into the presynaptic neurons. As such, their primary substrate binding site S1 has been targeted by a wide range of compounds for treating neuropsychiatric and neurodegenerative disorders including depression, ADHD, neuropathic pain, and anxiety disorders. We present here a comparative study of the structural dynamics and ligand-binding properties of two MATs, dopamine transporter (DAT) and serotonin transporter (SERT), with focus on the allosteric modulation of their transport function by drugs or substrates that consistently bind a secondary site S2, proposed to serve as an allosteric site. Our systematic analysis of the conformational space and dynamics of a dataset of 50 structures resolved for DAT and SERT in the presence of one or more ligands/drugs reveals the specific residues playing a consistent role in coordinating the small molecules bound to subsites S2–I and S2-II within S2, such as R476 and Y481 in dDAT and E494, P561, and F556 in hSERT. Further analysis reveals how DAT and SERT differ in their two principal modes of structural changes, PC1 and PC2. Notably, PC1 underlies the transition between outward- and inward-facing states of the transporters as well as their gating; whereas PC2 supports the rearrangements of TM helices near the S2 site. Finally, the examination of cross-correlations between structural elements lining the respective sites S1 and S2 point to the crucial role of coupled motions between TM6a and TM10. In particular, we note the involvement of hSERT residues F335 and G338, and E493-E494-T497 belonging to these two respective helices, in establishing the allosteric communication between S1 and S2. These results help understand the molecular basis of the action of drugs that bind to the S2 site of DAT or SERT. They also provide a basis for designing allosteric modulators that may provide better control of specific interactions and cellular pathways, rather than indiscriminately inhibiting the transporter by targeting its orthosteric site.

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