TrkB和TrkC受体信号传导的药理学共激活改善亨廷顿舞蹈症小鼠模型的纹状体神经病理和运动缺陷。

IF 2.1 Q3 NEUROSCIENCES Journal of Huntington's disease Pub Date : 2023-01-01 DOI:10.3233/JHD-230589
Danielle A Simmons, Nadia P Belichenko, Frank M Longo
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引用次数: 0

摘要

背景:纹状体神经营养支持的丧失,特别是脑源性神经营养因子(BDNF)水平的降低,是亨廷顿舞蹈症(HD)发病机制的重要原因。另一种神经营养因子(NT),NT-3,在HD患者的皮层中减少;然而,它在HD中的作用尚不清楚。BDNF和NT-3分别以高亲和力与原肌球蛋白受体激酶(Trk)B和TrkC结合。靶向TrkB/TrkC可能是一种有效的HD治疗策略,因为它们的信号通路和HD退行性机制之间存在多种联系。我们开发了一种小分子配体LM22B-10,它可以激活TrkB和TrkC以促进细胞存活。目的:本研究旨在确定LM22B-10上调TrkB/TrkC信号传导是否会减轻R6/2和Q140小鼠的HD表型。方法:LM22B-10通过同时的鼻内腹膜内途径递送给R6/2和Q140小鼠,然后评估运动性能和纹状体病理。结果:R6/2纹状体中NT-3水平、TrkB/TrkC磷酸化和AKT信号传导降低;LM22B-10抵消了这些赤字。LM22B-10还减少了R6/2和/或Q140纹状体中分子量为32kDa的多巴胺和环AMP调节的磷蛋白(DARPP-32)以及含有细小白蛋白的神经元的核内亨廷顿蛋白聚集体、树突棘丢失、小胶质细胞活化和变性。此外,LM22B-10治疗后,两种HD小鼠模型的运动性能都有所改善。结论:这些结果揭示了R6/2小鼠纹状体中NT-3/TrkC信号传导缺陷,支持靶向TrkB/TrkC减轻HD相关神经退行性变和运动功能障碍的观点,并提出了一种新的、改变疾病的、多靶点的HD治疗策略。
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Pharmacological Co-Activation of TrkB and TrkC Receptor Signaling Ameliorates Striatal Neuropathology and Motor Deficits in Mouse Models of Huntington's Disease.

Background: Loss of neurotrophic support in the striatum, particularly reduced brain-derived neurotrophic factor (BDNF) levels, contributes importantly to Huntington's disease (HD) pathogenesis. Another neurotrophin (NT), NT-3, is reduced in the cortex of HD patients; however, its role in HD is unknown. BDNF and NT-3 bind with high affinity to the tropomyosin receptor-kinases (Trk) B and TrkC, respectively. Targeting TrkB/TrkC may be an effective HD therapeutic strategy, as multiple links exist between their signaling pathways and HD degenerative mechanisms. We developed a small molecule ligand, LM22B-10, that activates TrkB and TrkC to promote cell survival.

Objective: This study aimed to determine if upregulating TrkB/TrkC signaling with LM22B-10 would alleviate the HD phenotype in R6/2 and Q140 mice.

Methods: LM22B-10 was delivered by concomitant intranasal-intraperitoneal routes to R6/2 and Q140 mice and then motor performance and striatal pathology were evaluated.

Results: NT-3 levels, TrkB/TrkC phosphorylation, and AKT signaling were reduced in the R6/2 striatum; LM22B-10 counteracted these deficits. LM22B-10 also reduced intranuclear huntingtin aggregates, dendritic spine loss, microglial activation, and degeneration of dopamine- and cyclic AMP-regulated phosphoprotein with a molecular weight of 32 kDa (DARPP-32) and parvalbumin-containing neurons in the R6/2 and/or Q140 striatum. Moreover, both HD mouse models showed improved motor performance after LM22B-10 treatment.

Conclusions: These results reveal an NT-3/TrkC signaling deficiency in the striatum of R6/2 mice, support the idea that targeting TrkB/TrkC alleviates HD-related neurodegeneration and motor dysfunction, and suggest a novel, disease-modifying, multi-target strategy for treating HD.

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来源期刊
CiteScore
4.80
自引率
9.70%
发文量
60
期刊最新文献
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