A Putative Role for the BCL2 Family of Proteins in the Pathophysiology of ALS.

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CNS & neurological disorders drug targets Pub Date : 2025-09-23 DOI:10.2174/0118715273426855250910082512

Gerard J Nuovo, Candice Crilly, Anne Lietzke, Dwitiya Sawant

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Abstract

Introduction: Although motor neuron inclusions that contain hyperphosphorylated TDP- 43 protein (p-TDP-43) are considered an important clue in the pathophysiology of ALS, the main determinants of the neuronal dysfunction remain unknown.

Method: The spinal cords and motor cortex of 17 people (n=60 tissues) who died of ALS, with 10 controls were tested for p-TDP-43/neurofibrillary tangles (NFTs), biomarkers of neuroinflammation (GFAP, TMEM 119, miR-155, IL6, TNFα, IL1β, NF-κβ), neurodegeneration (NeuN, myelin basic protein) and BCL2 family proteins (BCL2, BCLW, BCLXL, and MCL1 each pro-survival as well as BIM, PUMA, NOXA, BAK, BAX each anti-survival) using in situ based methods including immunohistochemistry.

Results: p-TDP-43 detection was strongly correlated with neuroinflammation and neurodegeneration in both humans and in a mouse model of ALS with the mutant human TDP-43 gene (B6.Cg- Tg(Prnp-TARDBP*A315T)95Balo/J). The expression of each BCL2 family protein was significantly increased compared to the controls and co-localized with p-TDP-43 in both human and mouse models.

Discussion: To test whether altering BCL2 activity affects ALS pathophysiology, the FDAapproved drug venetoclax, which blocks BCL2, was started at age 3 mo IP in these mice and prevented clinical motor neuron dysfunction (n=5), whereas the untreated littermates (n=4) each died of end-stage paralysis at 5-7 mo. Blocking Bcl2 in the ALS mice reduced neurodegeneration 5-fold and neuroinflammation by 81%.

Conclusion: It is concluded that: 1) dysregulation of BCL2 family proteins is implicated in ALS, and 2) blocking Bcl2 alone in the mouse ALS model can markedly reduce the neurodegeneration.

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BCL2蛋白家族在ALS病理生理中的推测作用。

虽然运动神经元包涵体中含有高磷酸化的TDP-43蛋白（p-TDP-43）被认为是ALS病理生理的重要线索，但神经元功能障碍的主要决定因素尚不清楚。方法：采用原位免疫组化等方法，对17例死于ALS患者（n=60个组织）的脊髓和运动皮质进行p-TDP-43/神经原纤维结（nft）、神经炎症生物标志物（GFAP、TMEM 119、miR-155、IL6、TNFα、il -1 β、NF-κβ）、神经退行性变（NeuN、髓鞘碱性蛋白）和BCL2家族蛋白（BCL2、BCLW、BCLXL、MCL1各促生存，BIM、PUMA、NOXA、BAK、BAX各抗生存）检测。结果：p-TDP-43检测与人类和携带突变人类TDP-43基因（B6）的ALS小鼠模型的神经炎症和神经退行性变密切相关。Cg - Tg (Prnp-TARDBP * A315T) 95 balo / J)。在人和小鼠模型中，与对照组相比，BCL2家族蛋白的表达均显著增加，并与p-TDP-43共定位。讨论：为了测试改变BCL2活性是否影响ALS病理生理，fda批准的药物venetoclax阻断BCL2，在这些小鼠3月龄时开始使用，并预防临床运动神经元功能障碍（n=5），而未经治疗的幼崽（n=4）在5-7月龄时死于终末期瘫痪。阻断BCL2在ALS小鼠中减少了5倍的神经变性和81%的神经炎症。结论：1)BCL2家族蛋白失调与ALS有关，2)单独阻断BCL2在小鼠ALS模型中可显著减轻神经退行性变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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CNS & neurological disorders drug targets

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