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引用次数: 0
摘要
单胺转运体(MAT)家族的转运体可调节多巴胺、血清素和去甲肾上腺素等重要神经递质的吸收。单胺转运体家族利用离子在膜上的电化学梯度发挥作用,包括三种转运体:多巴胺转运体(DAT)、5-羟色胺转运体(SERT)和去甲肾上腺素转运体(NET)。据观察,MAT 转运体从单体状态到高阶寡聚状态均有存在。结构特征、异位调节和脂质环境调控着 MAT 转运体的寡聚化。NET 和 SERT 的低聚作用受膜中 PIP2 水平的调节。MAT 家族 TM12 中的扭结对于二聚体界面的形成至关重要。二聚体界面的异构调节阻碍了二聚体的形成。寡聚化也会影响转运体的功能、贩运和调节。本章将重点介绍有关单胺转运体的最新研究,并讨论影响它们寡聚化的因素及其对功能的影响。
Transporters of the monoamine transporter (MAT) family regulate the uptake of important neurotransmitters like dopamine, serotonin, and norepinephrine. The MAT family functions using the electrochemical gradient of ions across the membrane and comprises three transporters, dopamine transporter (DAT), serotonin transporter (SERT), and norepinephrine transporter (NET). MAT transporters have been observed to exist in monomeric states to higher-order oligomeric states. Structural features, allosteric modulation, and lipid environment regulate the oligomerization of MAT transporters. NET and SERT oligomerization are regulated by levels of PIP2 present in the membrane. The kink present in TM12 in the MAT family is crucial for dimer interface formation. Allosteric modulation in the dimer interface hinders dimer formation. Oligomerization also influences the transporters' function, trafficking, and regulation. This chapter will focus on recent studies on monoamine transporters and discuss the factors affecting their oligomerization and its impact on their function.
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