Centre for Molecular Medicine and Therapeutics, University of British Columbia, Vancouver, British Columbia, Canada.
Neurobiol Dis. 2010 Oct;40(1):207-15. doi: 10.1016/j.nbd.2010.05.027. Epub 2010 Jun 2.
Excitotoxicity plays a key role in the selective vulnerability of striatal neurons in Huntington disease (HD). Decreased glutamate uptake by glial cells could account for the excess glutamate at the synapse in patients as well as animal models of HD. The major molecule responsible for clearing glutamate at the synapses is glial glutamate transporter GLT-1. In this study, we show that GLT-1 is palmitoylated at cysteine38 (C38) and further, that this palmitoylation is drastically reduced in HD models both in vitro and in vivo. Palmitoylation is required for normal GLT-1 function. Blocking palmitoylation either with the general palmitoylation inhibitor, 2-bromopalmitate, or with a GLT-1 C38S mutation, severely impairs glutamate uptake activity. In addition, GLT-1-mediated glutamate uptake is indeed impaired in the YAC128 HD mouse brain, with the defect in the striatum evident as early as 3 months prior to obvious neuropathological findings, and in both striatum and cortex at 12 months. These phenotypes are not a result of changes in GLT1 protein expression, suggesting a crucial role of palmitoylation in GLT-1 function. Thus, it appears that impaired GLT-1 palmitoylation is present early in the pathogenesis of HD, and may influence decreased glutamate uptake, excitotoxicity, and ultimately, neuronal cell death in HD.
兴奋性毒性在亨廷顿病(HD)中纹状体神经元的选择性易损性中起关键作用。神经胶质细胞对谷氨酸的摄取减少可能导致患者和 HD 动物模型突触中谷氨酸过量。负责清除突触中谷氨酸的主要分子是神经胶质谷氨酸转运体 GLT-1。在这项研究中,我们表明 GLT-1 在半胱氨酸 38 位(C38)被棕榈酰化,此外,这种棕榈酰化在体外和体内的 HD 模型中都明显减少。棕榈酰化是 GLT-1 正常功能所必需的。用一般的棕榈酰化抑制剂 2-溴棕榈酸或 GLT-1 C38S 突变阻断棕榈酰化,严重损害谷氨酸摄取活性。此外,YAC128 HD 小鼠大脑中的 GLT-1 介导的谷氨酸摄取确实受损,早在明显神经病理学发现前 3 个月,纹状体就出现缺陷,在 12 个月时,纹状体和皮质都出现缺陷。这些表型不是 GLT1 蛋白表达变化的结果,这表明棕榈酰化在 GLT-1 功能中起着至关重要的作用。因此,GLT-1 棕榈酰化的受损似乎在 HD 的发病早期就存在,并且可能影响谷氨酸摄取的减少、兴奋性毒性,最终影响 HD 中的神经元细胞死亡。
