神经血管束
神经科学
医学
交感神经系统
自主神经系统
解剖
中枢神经系统
神经元
生物
交感神经支配
神经系统
显微神经学
内科学
作者
Zhu Zhu,Wanling Lin,肖良,Zhihao Qian,Ting He,Wentao Wang,Yuanjiao Wang,Xi Zhang,Bingrui Zhao,Huiqi Xie,Xinghua Quan,Yanxiao Zhang,Min Jiang,Xuzhao Li,Lili Zhou,Dongdong Zhang,Hualin Yu,Ziyu Liu,Lingyun Bao,Jie‐Min Jia
出处
期刊:Neuron
[Cell Press]
日期:2026-05-01
标识
DOI:10.1016/j.neuron.2026.04.004
摘要
Adult neuronal survival underlies lifelong brain function, yet its sustaining mechanisms remain unclear. We identify a neurovascular survival axis at intracranial arteries in mice, where superior cervical ganglion (SCG) sympathetic terminals form synapse-like neurosmooth muscular junctions (NsMJs) with arterial smooth muscle cells (aSMCs) that secrete netrin-4 (Ntn4). Adult aSMC-restricted Ntn4 deletion selectively reduces rostral, intracranial-projecting (cerebrospinal fluid-traced) SCG neurons; the denervation of the intracranial arterial plexus follows soma loss. Local recombinant Ntn4 delivery to the SCG rescues these phenotypes. Ntn4 withdrawal engages a receptor-interacting serine/threonine kinase 1 (RIPK1)/mixed lineage kinase domain-like pseudokinase (MLKL)-linked, caspase-independent, non-inflammatory death program via deleted in colorectal cancer (DCC): unliganded DCC triggers neuronal loss, whereas Dcc knockout preserves vulnerable neurons. Arterial Ntn4 declines from young adulthood and precedes selective neuronal attrition before midlife; aSMC-targeted Ntn4 overexpression prevents this loss. Together, intracranial arteries provide a local, non-cell-autonomous trophic niche that maintains this adult sympathetic subset and becomes compromised as vascular Ntn4 output wanes with age.
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