Department of Biomedical Sciences , University of North Dakota School of Medicine and Health Sciences , Grand Forks , North Dakota 58202 , United States.
ACS Chem Neurosci. 2019 Jun 19;10(6):2707-2717. doi: 10.1021/acschemneuro.8b00558. Epub 2019 Apr 19.
The dopamine transporter (DAT) is a plasma membrane protein that mediates the reuptake of extracellular dopamine (DA) and controls the spatiotemporal dynamics of dopaminergic neurotransmission. The transporter is subject to fine control that tailors clearance of transmitter to physiological demands, and dysregulation of reuptake induced by psychostimulant drugs, transporter polymorphisms, and signaling defects may impact transmitter tone in disease states. We previously demonstrated that DAT undergoes complex regulation by palmitoylation, with acute inhibition of the modification leading to rapid reduction of transport activity and sustained inhibition of the modification leading to transporter degradation and reduced expression. Here, to examine mechanisms and outcomes related to increased modification, we coexpressed DAT with palmitoyl acyltransferases (PATs), also known as DHHC enzymes, which catalyze palmitate addition to proteins. Of 12 PATs tested, DAT palmitoylation was stimulated by DHHC2, DHHC3, DHHC8, DHHC15, and DHHC17, with others having no effect. Increased modification was localized to previously identified palmitoylation site Cys580 and resulted in upregulation of transport kinetics and elevated transporter expression mediated by reduced degradation. These findings confirm palmitoylation as a regulator of multiple DAT properties crucial for appropriate DA homeostasis and identify several potential PAT pathways linked to these effects. Defects in palmitoylation processes thus represent possible mechanisms of transport imbalances in DA disorders.
多巴胺转运体(DAT)是一种质膜蛋白,可介导细胞外多巴胺(DA)的再摄取,并控制多巴胺能神经传递的时空动态。转运体受到精细调节,可根据生理需求调整递质的清除率,而精神兴奋剂药物、转运体多态性和信号缺陷引起的再摄取失调可能会影响疾病状态下递质的张力。我们之前证明,DAT 通过棕榈酰化进行复杂调节,急性抑制修饰会导致转运活性迅速降低,持续抑制修饰会导致转运体降解和表达减少。在这里,为了研究与修饰增加相关的机制和结果,我们将 DAT 与棕榈酰基转移酶(PATs)共表达,也称为 DHHC 酶,这些酶可催化蛋白质的棕榈酸添加。在测试的 12 种 PAT 中,DHHC2、DHHC3、DHHC8、DHHC15 和 DHHC17 可刺激 DAT 的棕榈酰化,而其他 PAT 则没有影响。修饰增加定位于先前确定的棕榈酰化位点 Cys580,并导致转运动力学上调和转运体表达升高,这是通过降低降解介导的。这些发现证实了棕榈酰化是 DAT 多种特性的调节剂,这些特性对适当的 DA 动态平衡至关重要,并确定了几种潜在的与这些作用相关的 PAT 途径。因此,棕榈酰化过程的缺陷可能是 DA 疾病中转运失衡的潜在机制。
