CNS/PNS proteoglycans functionalize neuronal and astrocyte niche microenvironments optimizing cellular activity by preserving membrane polarization dynamics, ionic microenvironments, ion fluxes, neuronal activation, and network neurotransductive capacity

IF 2.9 3区 医学 Q2 NEUROSCIENCES
James Melrose
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引用次数: 0

Abstract

Central and peripheral nervous system (CNS/PNS) proteoglycans (PGs) have diverse functional roles, this study examined how these control cellular behavior and tissue function. The CNS/PNS extracellular matrix (ECM) is a dynamic, responsive, highly interactive, space-filling, cell supportive, stabilizing structure maintaining tissue compartments, ionic microenvironments, and microgradients that regulate neuronal activity and maintain the neuron in an optimal ionic microenvironment. The CNS/PNS contains a high glycosaminoglycan content (60% hyaluronan, HA) and a diverse range of stabilizing PGs. Immobilization of HA in brain tissues by HA interactive hyalectan PGs preserves tissue hydration and neuronal activity, a paucity of HA in brain tissues results in a pro-convulsant epileptic phenotype. Diverse CS, KS, and HSPGs stabilize the blood–brain barrier and neurovascular unit, provide smart gel neurotransmitter neuron vesicle storage and delivery, organize the neuromuscular junction basement membrane, and provide motor neuron synaptic plasticity, and photoreceptor and neuron synaptic functions. PG-HA networks maintain ionic fluxes and microgradients and tissue compartments that contribute to membrane polarization dynamics essential to neuronal activation and neurotransduction. Hyalectans form neuroprotective perineuronal nets contributing to synaptic plasticity, memory, and cognitive learning. Sialoglycoprotein associated with cones and rods (SPACRCAN), an HA binding CSPG, stabilizes the inter-photoreceptor ECM. HSPGs pikachurin and eyes shut stabilize the photoreceptor synapse aiding in phototransduction and neurotransduction with retinal bipolar neurons crucial to visual acuity. This is achieved through Laminin G motifs in pikachurin, eyes shut, and neurexins that interact with the dystroglycan–cytoskeleton–ECM-stabilizing synaptic interconnections, neuronal interactive specificity, and co-ordination of regulatory action potentials in neural networks.

Abstract Image

中枢神经系统/中枢神经系统蛋白聚糖通过保持膜极化动力学、离子微环境、离子通量、神经元活化和网络神经传导能力,使神经元和星形胶质细胞龛微环境功能化,从而优化细胞活性。
中枢神经系统和外周神经系统(CNS/PNS)蛋白多糖(PGs)具有多种功能作用,本研究探讨了这些蛋白多糖如何控制细胞行为和组织功能。中枢神经系统/外周神经系统细胞外基质(ECM)是一种动态的、反应灵敏的、高度交互的、填充空间的、支持细胞的稳定结构,它维持着组织间隙、离子微环境和微通道,可调节神经元的活动并将神经元维持在最佳离子微环境中。中枢神经系统/中枢神经系统含有大量糖胺聚糖(60% 的透明质酸,HA)和多种稳定 PG。HA 交互性透明质酸 PGs 可固定脑组织中的 HA,从而保持组织的水合作用和神经元的活性。多种 CS、KS 和 HSPGs 可稳定血脑屏障和神经血管单元,提供智能凝胶神经递质神经元囊泡的储存和递送,组织神经肌肉接头基底膜,提供运动神经元突触可塑性以及感光器和神经元突触功能。PG-HA 网络可维持离子通量、微梯度和组织区室,有助于神经元激活和神经传导所必需的膜极化动态。透明质酸形成神经保护性神经元周围网,有助于突触可塑性、记忆和认知学习。与视锥和视杆相关的硅糖蛋白(SPACRCAN)是一种与 HA 结合的 CSPG,可稳定光感受器间的 ECM。HSPGs pikachurin 和 eyes shut 能稳定感光器突触,帮助视网膜双极神经元的光传导和神经传导,对视觉敏锐度至关重要。这是通过 pikachurin、eyes shut 和 neurexins 中的层粘连蛋白 G 基团实现的,这些基团与稳定突触互连、神经元交互特异性和神经网络中调节性动作电位的肌张力蛋白-骨架-ECM 相互作用。
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来源期刊
Journal of Neuroscience Research
Journal of Neuroscience Research 医学-神经科学
CiteScore
9.50
自引率
2.40%
发文量
145
审稿时长
1 months
期刊介绍: The Journal of Neuroscience Research (JNR) publishes novel research results that will advance our understanding of the development, function and pathophysiology of the nervous system, using molecular, cellular, systems, and translational approaches. JNR covers both basic research and clinical aspects of neurology, neuropathology, psychiatry or psychology. The journal focuses on uncovering the intricacies of brain structure and function. Research published in JNR covers all species from invertebrates to humans, and the reports inform the readers about the function and organization of the nervous system, with emphasis on how disease modifies the function and organization.
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