鸡小脑形态发生中的多养蛋白、一氧化氮和谷氨酸AMPA受体。

Vasiliki Kommata, Evaggelia Alexopoulou, Elentina K. Argyrousi, C. Dermon
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引用次数: 0

摘要

鸟类小脑是一种高度保守的层状和叶状结构,为发育研究提供了一个很好的模型。在胚胎中期,颗粒细胞祖细胞的增殖和有丝分裂后颗粒细胞的向内迁移与小脑皮层的细胞结构和叶状结构的形态发生有关。本研究探讨了细胞外基质生长因子多营养因子在胚胎小脑形态发生过程中的时空表达模式,以及嗜离子性AMPA谷氨酸受体和扩散性神经调节剂一氧化氮(NO)在EGL颗粒细胞祖细胞增殖过程中的作用。为此,在胚胎期HH38-41 (E12-E15天),用AMPA受体拮抗剂CNQX或NO合酶抑制剂L-NAME急性治疗后,采用BrdU免疫组织化学和双免疫荧光法测定发育中的胚胎外颗粒层(EGL)增殖细胞密度。重要的是,在早期阶段,多营养因子样免疫反应性在EGL中表现出高表达水平,并逐渐降低,在发育后期持续存在于生长的叶尖中。有趣的是,阻断AMPA受体没有影响;在HH41晚期(E15天),NOS抑制作用导致EGL颗粒祖细胞增殖在早期短暂的年龄特异性和区域特异性增加,但在叶尖有丝分裂后颗粒细胞增殖减少。综上所述,NO在EGL中具有类似于哺乳动物小脑的短暂抗增殖作用,在不同阶段作为EGL功能的调节剂,提示其可能参与指导小脑细胞结构和叶叶形成的复杂过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pleiotrophin, nitric oxide and glutamate AMPA receptors in chick cerebellum morphogenesis.
Avian cerebellum, a highly conserved, laminated and foliated structure, provides an excellent model for developmental studies. During the intermediate embryonic stages, granule cell progenitor proliferation and the inwards migration of post-mitotic granule cells have been implicated in the morphogenesis of cerebellar cortex cytoarchitecture and foliation. The present study questioned the spatio-temporal expression pattern of pleiotrophin, an extracellular matrix growth factor, during the morphogenesis of embryonic cerebellum and the roles of ionotropic AMPA glutamate receptors and the diffusible neuromodulator nitric oxide (NO) in the proliferation pattern of EGL granule cell progenitors. For this, the density of proliferating cells in the developing embryonic external granule layer (EGL) was determined following acute treatment with AMPA receptor antagonist CNQX or NO synthase inhibitor L-NAME, at embryonic stages HH38-41 (E12-E15 days), by means of BrdU immunohistochemistry and double immunofluorescence. Importantly, at earlier stages pleiotrophin-like immunoreactivity showed high expression levels in the EGL that gradually decreased, persisting within the growing folia apices, later in development. Interestingly, blockage of AMPA receptors had no effect; while NOS inhibition resulted in transient age- and region-specific increases of EGL granule progenitor cell proliferation at earlier stages, but decreased the post-mitotic granule cells at folia apices, at a later stage HH41 (E15 day). Taken all together, NO had a transient anti-proliferative effect in EGL similar to mammalian cerebellum, acting as a modulator of the EGL function at different stages, suggesting its possible implication in complex processes guiding cerebellar cytoarchitecture and folia formation.
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