The ataxia-telangiectasia disease protein ATM controls vesicular protein secretion via CHGA and microtubule dynamics via CRMP5

IF 5.1 2区医学 Q1 NEUROSCIENCES

Neurobiology of Disease Pub Date : 2024-12-01 DOI:10.1016/j.nbd.2024.106756

Marina Reichlmeir , Ruth Pia Duecker , Hanna Röhrich , Jana Key , Ralf Schubert , Kathryn Abell , Anthony P. Possemato , Matthew P. Stokes , Georg Auburger

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引用次数: 0

Abstract

The autosomal recessive disease ataxia-telangiectasia (A-T) presents with cerebellar degeneration, immunodeficiency, radiosensitivity, capillary dilatations, and pulmonary infections. Most symptoms outside the nervous system can be explained by failures of the disease protein ATM as a Ser/Thr-kinase to coordinate DNA damage repair. However, ATM in adult neurons has cytoplasmic localization and vesicle association, where its roles remain unclear. Here, we defined novel ATM protein targets in human neuroblastoma cells, and filtered initial pathogenesis events in ATM-null mouse cerebellum. Profiles of global proteome and phosphoproteomics - both direct ATM/ATR substrates and overall phosphorylation changes - confirmed previous findings for NBN, MRE11, MDC1, CHEK1, EIF4EBP1, AP3B2, PPP2R5C, SYN1 and SLC2A1. Even stronger downregulation of ATM/ATR substrate phosphopeptides after ATM-depletion was documented for CHGA, EXPH5, NBEAL2 and CHMP6 as key factors of protein secretion and endosome dynamics, as well as for CRMP5, DISP2, PHACTR1, PLXNC1, INA and TPX2 as neurite extension factors. Prominent effects on semaphorin-CRMP5-microtubule signals and ATM association with CRMP5 were validated. As a functional consequence, microtubules were stabilized, and neurite retraction ensued. The impact of ATM on secretory granules confirms previous ATM-null cerebellar transcriptome findings. This study provides the first link of A-T neural atrophy to growth cone collapse and aberrant microtubule dynamics.

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共济失调毛细血管扩张病蛋白ATM通过CHGA调控水泡蛋白分泌，通过CRMP5调控微管动力学

常染色体隐性疾病共济失调毛细血管扩张（A-T）表现为小脑变性、免疫缺陷、放射敏感性、毛细血管扩张和肺部感染。神经系统外的大多数症状可以解释为疾病蛋白ATM作为Ser/ thr激酶协调DNA损伤修复的失败。然而，ATM在成年神经元中具有胞质定位和囊泡关联，其作用尚不清楚。在这里，我们在人类神经母细胞瘤细胞中定义了新的ATM蛋白靶点，并过滤了ATM缺失小鼠小脑的初始发病事件。全球蛋白质组学和磷酸化蛋白质组学分析——包括直接的ATM/ATR底物和总体磷酸化变化——证实了NBN、MRE11、MDC1、CHEK1、EIF4EBP1、AP3B2、PPP2R5C、SYN1和SLC2A1的先前发现。在ATM耗尽后，CHGA、EXPH5、NBEAL2和CHMP6作为蛋白质分泌和内体动力学的关键因子，以及CRMP5、DISP2、PHACTR1、PLXNC1、INA和TPX2作为神经突延伸因子，ATM/ATR底物磷酸化肽的下调更为强烈。对信号素-CRMP5微管信号的显著影响以及ATM与CRMP5的关联得到了验证。作为功能结果，微管稳定，神经突随之收缩。ATM对分泌颗粒的影响证实了先前ATM无效的小脑转录组研究结果。本研究提供了A-T神经萎缩与生长锥塌陷和微管动力学异常的第一个联系。

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来源期刊

Neurobiology of Disease 医学-神经科学

CiteScore

11.20

自引率

3.30%

发文量

270

审稿时长

76 days

期刊介绍： Neurobiology of Disease is a major international journal at the interface between basic and clinical neuroscience. The journal provides a forum for the publication of top quality research papers on: molecular and cellular definitions of disease mechanisms, the neural systems and underpinning behavioral disorders, the genetics of inherited neurological and psychiatric diseases, nervous system aging, and findings relevant to the development of new therapies.