BRAFV600E/AktT308D/S473D小鼠神经节胶质瘤的神经化学特征揭示gaba能系统抑制受损。

IF 2.3 4区 医学 Q2 DEVELOPMENTAL BIOLOGY Developmental Neuroscience Pub Date : 2023-01-01 DOI:10.1159/000528587
Maria Kyriazi, Philipp Müller, Julika Pitsch, Karen M J van Loo, Anne Quatraccioni, Thoralf Opitz, Susanne Schoch, Albert J Becker, Silvia Cases-Cunillera
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引用次数: 0

摘要

神经节神经胶质瘤(GGs)由畸形神经元和肿瘤星形胶质细胞组成,是慢性复发性癫痫发作最常见的肿瘤实体。到目前为止,由于无法明确区分人类GG活检中不同的神经元成分,对畸形肿瘤神经元和肿瘤周围微环境(PTME)神经元神经化学谱潜在差异的系统分析受到了阻碍。在这里,我们应用了一种新的GG小鼠模型,可以清楚地解决GG-intrinsic与PTME神经元的神经化学特征。为此,利用基于piggyback的BRAFV600E质质在脑室内子宫内电穿孔(IUE)诱导小鼠胶质神经元肿瘤,激活Akt (AktT308D/S473D,进一步简称AktDD),并通过免疫细胞化学对特定标记蛋白进行神经化学分析。BRAFV600E/AktDD在小鼠体内的使用导致具有人类gg形态特征的肿瘤。我们的免疫细胞化学分析显示,与PTME相比,肿瘤中GABAARα1的免疫反应性明显降低。相比之下,肿瘤中NMDAR1免疫反应性的程度与PTME相当。有趣的是,肿瘤细胞保持了表达这两种受体的潜力。相应的,突触前泡状神经递质转运体VGLUT1和VGAT的丰度也在肿瘤中降低。此外,小白蛋白和生长抑素非肿瘤中间神经元的比例减少。总之,神经递质信号中关键蛋白水平的变化表明突触的缺失,从而可能导致小鼠GGs中神经元网络的改变。
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Neurochemical Profile of BRAFV600E/AktT308D/S473D Mouse Gangliogliomas Reveals Impaired GABAergic System Inhibition.

Gangliogliomas (GGs), composed of dysmorphic neurons and neoplastic astroglia, represent the most frequent tumor entity associated with chronic recurrent epileptic seizures. So far, a systematic analysis of potential differences in neurochemical profiles of dysmorphic tumoral neurons as well as neurons of the peritumoral microenvironment (PTME) was hampered by the inability to unequivocally differentiate between the distinct neuronal components in human GG biopsies. Here, we have applied a novel GG mouse model that allows to clearly resolve the neurochemical profiles of GG-intrinsic versus PTME neurons. For this purpose, glioneuronal tumors in mice were induced by intraventricular in utero electroporation (IUE) of piggyBac-based plasmids for BRAFV600E and activated Akt (AktT308D/S473D, further referred to as AktDD) and analyzed neurochemically by immunocytochemistry against specific marker proteins. IUE of BRAFV600E/AktDD in mice resulted in tumors with the morphological features of human GGs. Our immunocytochemical analysis revealed a strong reduction of GABAARα1 immunoreactivity in the tumor compared to the PTME. In contrast, the extent of NMDAR1 immunoreactivity in the tumor appeared comparable to the PTME. Interestingly, tumor cells maintained the potential to express both receptors. Fittingly, the abundance of the presynaptic vesicular neurotransmitter transporters VGLUT1 and VGAT was also decreased in the tumor. Additionally, the fraction of parvalbumin and somatostatin nonneoplastic interneurons was reduced. In conclusion, changes in the levels of key proteins in neurotransmitter signaling suggest a loss of synapses and may thereby lead to neuronal network alterations in mouse GGs.

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来源期刊
Developmental Neuroscience
Developmental Neuroscience 医学-发育生物学
CiteScore
4.00
自引率
3.40%
发文量
49
审稿时长
>12 weeks
期刊介绍: ''Developmental Neuroscience'' is a multidisciplinary journal publishing papers covering all stages of invertebrate, vertebrate and human brain development. Emphasis is placed on publishing fundamental as well as translational studies that contribute to our understanding of mechanisms of normal development as well as genetic and environmental causes of abnormal brain development. The journal thus provides valuable information for both physicians and biologists. To meet the rapidly expanding information needs of its readers, the journal combines original papers that report on progress and advances in developmental neuroscience with concise mini-reviews that provide a timely overview of key topics, new insights and ongoing controversies. The editorial standards of ''Developmental Neuroscience'' are high. We are committed to publishing only high quality, complete papers that make significant contributions to the field.
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