P19.07.A EXPRESSION STUDY OF SYNAPTIC PROTEINS BASSOON, DLG4, DLG1, MAGI2, SHANK1, AND HOMER1 IN GLIOMA

突触后密度 突触后电位 生物 胶质瘤 神经递质受体 细胞生物学 兴奋性突触后电位 神经科学 癌症研究 受体 遗传学 抑制性突触后电位
作者
Marco Timmer,Nadine Lauer,Saskia Kuhl,Roland Goldbrunner
出处
期刊:Neuro-oncology [Oxford University Press]
卷期号:25 (Supplement_2): ii126-ii126
标识
DOI:10.1093/neuonc/noad137.425
摘要

Abstract BACKGROUND To thrive, glioma cells exploit pathways that are active in normal CNS cells, as well as in normal neurotransmitter signaling. In healthy excitatory synapses the postsynaptic submembrane space consists of multiprotein complexes called the postsynaptic density (PSD). The PSD is responsible for the structural organization, the functioning, and the regulation of neuronal signaling. The five MAGUK Proteins DLG4, DLG1, Magi2, Shank1, and Homer1 are part of the healthy PSD complex and play a crucial role not only in NMDA and AMPA receptor signaling. Investigating the role of these MAGUK proteins in glioma biology could bring further insight into which principal neurobiological features, including organization in communicating networks, are recapitulated by tumor cells of different stages in gliomas. MATERIAL AND Methods qPCR was used to determine expression levels of DLG4, DLG1, Magi2, Shank1, and Homer1 in 7 different glioma groups (GII, GIII, primary GBM before and after chemotherapy, secondary glioblastoma recurrence with and without chemotherapy). Western Blot was done for DLG4, DLG1, and Homer1. Immunohistochemical staining of frozen sections, paraffin sections and in vitro cells was performed. Results The expression levels of DLG4, DLG1, Magi2, Shank1, and Homer1 were reduced especially in high grade glioma compared to control tissue. A tendency of decreasing protein levels with increasing malignancy is visible for the majority of proteins. In cell culture all proteins were also present. siRNA experiments are ongoing. Conclusion The presence of these synaptic proteins in glioma tissue and moreover also primary cell culture could indicate a role in tumor biology and the connection of glioma cells with neuronal tissue.

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