来自Hdh140Q/140Q基因敲入小鼠的纹状体突触体具有改变的蛋白质水平、新的甲硫氨酸氧化位点,并且在刺激后谷氨酸释放过量。
Striatal synaptosomes from Hdh140Q/140Q knock-in mice have altered protein levels, novel sites of methionine oxidation, and excess glutamate release after stimulation.
作者信息
Valencia Antonio, Sapp Ellen, Kimm Jeffrey S, McClory Hollis, Ansong Kwadwo A, Yohrling George, Kwak Seung, Kegel Kimberly B, Green Karin M, Shaffer Scott A, Aronin Neil, DiFiglia Marian
出版信息
J Huntingtons Dis. 2013;2(4):459-75. doi: 10.3233/JHD-130080.
BACKGROUND
Synaptic connections are disrupted in patients with Huntington's disease (HD). Synaptosomes from postmortem brain are ideal for synaptic function studies because they are enriched in pre- and post-synaptic proteins important in vesicle fusion, vesicle release, and neurotransmitter receptor activation.
OBJECTIVE
To examine striatal synaptosomes from 3, 6 and 12 month old WT and Hdh140Q/140Q knock-in mice for levels of synaptic proteins, methionine oxidation, and glutamate release.
METHODS
We used Western blot analysis, glutamate release assays, and liquid chromatography tandem mass spectrometry (LC-MS/MS).
RESULTS
Striatal synaptosomes of 6 month old Hdh140Q/140Q mice had less DARPP32, syntaxin 1 and calmodulin compared to WT. Striatal synaptosomes of 12 month old Hdh140Q/140Q mice had lower levels of DARPP32, alpha actinin, HAP40, Na+/K+-ATPase, PSD95, SNAP-25, TrkA and VAMP1, VGlut1 and VGlut2, increased levels of VAMP2, and modifications in actin and calmodulin compared to WT. More glutamate released from vesicles of depolarized striatal synaptosomes of 6 month old Hdh140Q/140Q than from age matched WT mice but there was no difference in glutamate release in synaptosomes of 3 and 12 month old WT and Hdh140Q/140Q mice. LC-MS/MS of 6 month old Hdh140Q/140Q mice striatal synaptosomes revealed that about 4% of total proteins detected (>600 detected) had novel sites of methionine oxidation including proteins involved with vesicle fusion, trafficking, and neurotransmitter function (synaptophysin, synapsin 2, syntaxin 1, calmodulin, cytoplasmic actin 2, neurofilament, and tubulin). Altered protein levels and novel methionine oxidations were also seen in cortical synaptosomes of 12 month old Hdh140Q/140Q mice.
CONCLUSIONS
Findings provide support for early synaptic dysfunction in Hdh140Q/140Q knock-in mice arising from altered protein levels, oxidative damage, and impaired glutamate neurotransmission and suggest that study of synaptosomes could be of value for evaluating HD therapies.
背景
亨廷顿舞蹈病(HD)患者的突触连接遭到破坏。来自尸检大脑的突触体是突触功能研究的理想材料,因为它们富含在囊泡融合、囊泡释放和神经递质受体激活中起重要作用的突触前和突触后蛋白。
目的
检测3、6和12月龄野生型(WT)及Hdh140Q/140Q基因敲入小鼠纹状体突触体中突触蛋白水平、蛋氨酸氧化水平及谷氨酸释放情况。
方法
我们采用了蛋白质免疫印迹分析、谷氨酸释放检测及液相色谱串联质谱(LC-MS/MS)技术。
结果
与野生型相比,6月龄Hdh140Q/140Q小鼠的纹状体突触体中DARPP32、 syntaxin 1和钙调蛋白含量较少。与野生型相比,12月龄Hdh140Q/140Q小鼠的纹状体突触体中DARPP32、α辅肌动蛋白、HAP40、Na+/K+-ATP酶、PSD95、SNAP-25、TrkA和VAMP1、VGlut1和VGlut2水平较低,VAMP2水平升高,肌动蛋白和钙调蛋白发生修饰。6月龄Hdh140Q/140Q小鼠去极化纹状体突触体囊泡释放的谷氨酸比年龄匹配野生型小鼠的多,但3月龄和12月龄野生型及Hdh140Q/140Q小鼠突触体中的谷氨酸释放没有差异。对6月龄Hdh140Q/140Q小鼠纹状体突触体进行LC-MS/MS分析发现,检测到的总蛋白(>600种)中约4%有新的蛋氨酸氧化位点,包括与囊泡融合、运输及神经递质功能相关的蛋白(突触素、突触结合蛋白2、syntaxin 1、钙调蛋白、细胞质肌动蛋白2、神经丝和微管蛋白)。在12月龄Hdh140Q/140Q小鼠的皮质突触体中也观察到蛋白水平改变和新的蛋氨酸氧化。
结论
研究结果支持Hdh140Q/140Q基因敲入小鼠因蛋白水平改变、氧化损伤及谷氨酸神经传递受损而出现早期突触功能障碍,并表明突触体研究可能对评估HD治疗方法具有价值。
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