大鼠Gad67基因启动子的特征揭示了基础转录和葡萄糖反应性的重要元素

A. A. Pedersen, N. Videbaek, K. Skak, H. V. Petersen, B. Michelsen
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引用次数: 13

摘要

GAD65和GAD67是谷氨酸脱羧酶的两种异构体,主要在大脑中催化谷氨酸产生GABA。然而,GAD和GABA也普遍存在于朗格汉斯的视网膜、睾丸和胰岛。GABA的主要功能是神经传递,它参与胰岛旁分泌信号传导,但也被认为在突触凋亡中发挥营养因子的作用,并且是通过GABA分流进入三羧酸循环的重要代谢物。两种广泛性焦虑症的同型异构体都受到调节,例如通过突触活动。GAD65在酶活性水平上受其辅因子PLP的结合和解离调节,而GAD67在其mRNA水平上受控制。为了更详细地研究这一过程,我们分离并表征了大鼠GAD67基因的5 ' -侧翼区域。我们报道了胰岛p细胞和C6胶质瘤细胞中重要的转录起始位点和启动子序列,并证明GAD67启动子包含在原代胰岛细胞中对葡萄糖有反应的元件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of the Rat Gad67 Gene Promoter Reveals Elements Important for Basal Transcription and Glucose Responsiveness
GAD65 and GAD67 are two isoforms of the enzyme glutamic acid decarboxylase which catalyze the production of GABA from glutamate, primarily in the brain. However, GAD and GABA also prevail in the retina, testes and islets of Langerhans. The main function of GABA is in neurotransmission, and it is involved in paracrine signalling in islets, but has also been suggested to play a role as a trophic factor in syn-aptogenesis and to be an important metabolite feeding into the tricarboxylic acid cycle via the GABA-shunt. Both GAD isoforms are subject to regulation, e.g. by synaptic activity. GAD65 is regulated at the level of enzyme activity by association and dissociation from its cofactor, PLP, whereas GAD67 is controlled at the level of its mRNA. To study this process in further detail, we have isolated and characterized the 5′-flank-ing region of the rat GAD67 gene. We report the transcriptional initiation sites and promoter sequences important for expression in islet P-cells and C6 glioma cells, and demonstrate that the GAD67 promoter harbors elements that are responsive to glucose in primary islet cells.
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