Meriau Pauline, Kuruvilla Rejji, Cavalli Valeria
Department of Neuroscience, Washington University School of Medicine, St Louis, MO 63110, USA.
Department of Biology, Johns Hopkins University, Baltimore, MD 21218, USA.
Neuron. 2025 Jun 27. doi: 10.1016/j.neuron.2025.05.031.
Satellite glial cells (SGCs) are peripheral nervous system glial cells enveloping sensory and sympathetic ganglion neuronal soma. Traditionally viewed as mere supportive cells, recent studies reveal SGCs' dynamic role in regulating sensory and autonomic processing, positioning them to shape peripheral neural signaling. This role has the potential to impact the healthy function of numerous biological processes and contribute to disease progression. Studies now implicate peripheral sensory and autonomic deficits in the etiology of many disorders, including cognitive decline in aging, neurodevelopmental disorders, or congestive heart failure. These insights highlight SGCs' potential to influence disease processes by modulating peripheral input to the brain. This review synthesizes recent findings on SGCs, emphasizing their functions beyond metabolic support. We discuss the molecular mechanisms underlying SGCs' modulation of neuronal functions, their molecular profiles, and how these change with injury and disease. We propose that SGCs contribute to shaping peripheral input in the brain-body axis.
卫星神经胶质细胞(SGCs)是包裹感觉和交感神经节神经元胞体的外周神经系统胶质细胞。传统上被视为单纯的支持细胞,但最近的研究揭示了SGCs在调节感觉和自主神经处理中的动态作用,使其能够塑造外周神经信号。这一作用有可能影响众多生物过程的健康功能,并促进疾病进展。现在的研究表明,外周感觉和自主神经功能缺陷与许多疾病的病因有关,包括衰老过程中的认知衰退、神经发育障碍或充血性心力衰竭。这些见解凸显了SGCs通过调节外周向大脑的输入来影响疾病进程的潜力。本综述综合了关于SGCs的最新研究结果,强调了它们在代谢支持之外的功能。我们讨论了SGCs调节神经元功能的分子机制、它们的分子特征,以及这些在损伤和疾病状态下如何变化。我们提出,SGCs有助于塑造脑-体轴中的外周输入。