共济失调性Canavan病小鼠病理性Bergmann胶质细胞改变和钙动力学紊乱。

IF 5.4 2区 医学 Q1 NEUROSCIENCES
Glia Pub Date : 2023-08-23 DOI:10.1002/glia.24454
Vanessa L. Hull, Yan Wang, Travis Burns, Sarah Sternbach, Shuaishuai Gong, Jennifer McDonough, Fuzheng Guo, Laura N. Borodinsky, David Pleasure
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引用次数: 0

摘要

Canavan病(CD)是一种隐性遗传的儿童脑白质营养不良,由少突胶质细胞天冬氨酰酶(ASPA)失活突变引起。ASPA负责水解氨基酸衍生物N-乙酰基-L-天冬氨酸(NAA),如果没有它,大脑NAA浓度会增加50%或更多。患有CD的婴儿和儿童表现为进行性认知和运动迟缓、细胞毒性水肿、星形胶质细胞空泡化和明显的海绵状脑变性。ASPA缺陷的CD小鼠(Aspnur7/nur7)同样表现出NAA升高、广泛的星形胶质细胞功能障碍、共济失调和浦肯野细胞(PC)树突萎缩。Bergmann神经胶质细胞(BG)是小脑发育所必需的放射状星形胶质细胞,与PC密切相关,在PC中它们调节突触的稳定性、功能性和可塑性。BG损伤在许多神经退行性疾病中很常见,经常与PC功能障碍和共济失调有关。在此,我们报道,在CD小鼠中,BG表现出显著的形态学改变,与PC的结构关联减少,突触支持蛋白的丧失,以及钙动力学的改变。我们还发现,在CD小鼠中,BG功能障碍早于小脑空泡化和PC损伤。此前,我们开发了一种针对Nat8l(N-乙酰基转移酶-8样,“Nat8l ASO”)的反义寡核苷酸(ASO)疗法,该疗法可抑制NAA的产生,并逆转CD小鼠的共济失调和PC萎缩。在这里,我们发现在成年CD小鼠中给予Nat8l ASO也导致BG修复。此外,在暴露于升高的NAA的星形胶质细胞-神经元共培养物中,阻断星形胶质细胞对NAA的摄取具有神经保护作用。我们的研究结果表明,BG结构和功能完整性的恢复可能是PC再生和改善运动功能的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Pathological Bergmann glia alterations and disrupted calcium dynamics in ataxic Canavan disease mice

Pathological Bergmann glia alterations and disrupted calcium dynamics in ataxic Canavan disease mice

Canavan disease (CD) is a recessively inherited pediatric leukodystrophy resulting from inactivating mutations to the oligodendroglial enzyme aspartoacylase (ASPA). ASPA is responsible for hydrolyzing the amino acid derivative N-acetyl-L-aspartate (NAA), and without it, brain NAA concentrations increase by 50% or more. Infants and children with CD present with progressive cognitive and motor delays, cytotoxic edema, astroglial vacuolation, and prominent spongiform brain degeneration. ASPA-deficient CD mice (Aspanur7/nur7) present similarly with elevated NAA, widespread astroglial dysfunction, ataxia, and Purkinje cell (PC) dendritic atrophy. Bergmann glia (BG), radial astrocytes essential for cerebellar development, are intimately intertwined with PCs, where they regulate synapse stability, functionality, and plasticity. BG damage is common to many neurodegenerative conditions and frequently associated with PC dysfunction and ataxia. Here, we report that, in CD mice, BG exhibit significant morphological alterations, decreased structural associations with PCs, loss of synaptic support proteins, and altered calcium dynamics. We also find that BG dysfunction predates cerebellar vacuolation and PC damage in CD mice. Previously, we developed an antisense oligonucleotide (ASO) therapy targeting Nat8l (N-acetyltransferase-8-like, “Nat8l ASO”) that inhibits the production of NAA and reverses ataxia and PC atrophy in CD mice. Here, we show that Nat8l ASO administration in adult CD mice also leads to BG repair. Furthermore, blocking astroglial uptake of NAA is neuroprotective in astroglia-neuron cocultures exposed to elevated NAA. Our findings suggest that restoration of BG structural and functional integrity could be a mechanism for PC regeneration and improved motor function.

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来源期刊
Glia
Glia 医学-神经科学
CiteScore
13.10
自引率
4.80%
发文量
162
审稿时长
3-8 weeks
期刊介绍: GLIA is a peer-reviewed journal, which publishes articles dealing with all aspects of glial structure and function. This includes all aspects of glial cell biology in health and disease.
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