Differential expression of mGluR2 in the developing cerebral cortex of the mouse.

Pooja S Venkatadri, Charles C Lee
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引用次数: 8

Abstract

Glutamatergic synaptic transmission is an essential component of neural circuits in the central nervous system. Glutamate exerts its effects by binding to various types of glutamate receptors, which are found distributed on neurons throughout the central nervous system. These receptors are broadly classified into two main groups, ionotropic glutamate receptors (iGluRs) and metabotropic glutamate receptors (mGluRs). Unlike iGluRs, the mGluRs are G-protein coupled receptors that exert their effects on postsynaptic membrane conductance indirectly through the downstream modification of ion channels. A subtype of mGluRs, the Group II mGluRs, are particularly interesting since their activation by glutamate results in a hyperpolarizing response. Thus, glutamate can act potentially as an inhibitory neurotransmitter, by binding to postsynaptic Group II mGluRs. Given the potential importance of these receptors in synaptic processing, the development of the central nervous system, and neurological disorders, we sought to characterize the expression of mGluR2 in the developing neocortex of the mouse. Therefore, we examined the distribution of mGluR2 in the developing cerebral cortex. We found a general caudal to rostral gradient in the expression of these receptors, with ventral cortical regions labeled caudally and dorsal regions labeled rostrally. Limbic regions highly expressed mGluR2 throughout the brain, as did sensory and motor cortical areas. Finally, other non-cortical structures, such as the thalamic reticular nucleus, amygdala, and mammillary bodies were found to have significant expression of the receptor. These results suggest that mGluR2 may play important roles in mediating glutamatergic inhibition in these structures and also could have a role in shaping the development of mature neural networks in the forebrain.

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mGluR2在发育中的小鼠大脑皮层中的差异表达。
谷氨酸能突触传递是中枢神经系统神经回路的重要组成部分。谷氨酸通过结合各种类型的谷氨酸受体发挥作用,这些受体分布在整个中枢神经系统的神经元上。这些受体大致分为两大类,离子型谷氨酸受体(iGluRs)和代谢性谷氨酸受体(mGluRs)。与iGluRs不同,mGluRs是g蛋白偶联受体,通过离子通道的下游修饰间接影响突触后膜的传导。mGluRs的一种亚型,II组mGluRs,特别有趣,因为它们被谷氨酸激活会导致超极化反应。因此,谷氨酸可以作为一种潜在的抑制性神经递质,通过与突触后II组mGluRs结合。考虑到这些受体在突触加工、中枢神经系统发育和神经系统疾病中的潜在重要性,我们试图表征mGluR2在小鼠发育中的新皮层中的表达。因此,我们检测了mGluR2在发育中的大脑皮层中的分布。我们发现这些受体的表达具有一般的尾侧到吻侧梯度,腹侧皮质区域标记为尾侧,背侧区域标记为吻侧。整个大脑的边缘区域高度表达mGluR2,感觉和运动皮质区域也是如此。最后,其他非皮质结构,如丘脑网状核、杏仁核和乳状体被发现有显著的受体表达。这些结果表明,mGluR2可能在这些结构中介导谷氨酸能抑制中发挥重要作用,也可能在塑造前脑成熟神经网络的发育中发挥作用。
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