研究性真核生物翻译起始因子2B（eIF2B）激活剂DNL343在TDP-43病理的临床前模型和肌萎缩侧索硬化症（ALS）患者中，通过一项随机临床试验调节整合应激反应。

Investigational eIF2B activator DNL343 modulates the integrated stress response in preclinical models of TDP-43 pathology and individuals with ALS in a randomized clinical trial.

作者信息

Flores Brittany N, Yu Seungyoon B, Cohen Isaac V, Fanok Melania H, Luan Wei, Maciuca Romeo D, Sun Linus D, Tsai Richard M, Vissers Maurits, Smits Lars, Bunte Tommy M, Bakardjiev Anna, Balasundar Srijana, Calvert Meredith E K, Chin Marcus Y, Dobbins Sarah K, Dowdle William E, Fang Meng, Heuberger Jules A A C, Ha Connie L, Huang Fen, Miyamoto Takashi, Osipov Maksim, Madrid San Martin Lidia, Saund Katie, Tatarakis David, Vu Anthony Q, Xiong Chenling, Yeo Gene W, Groeneveld Geert Jan, van den Berg Leonard H, Dhuria Shyeilla, Estrada Anthony A, Jennings Danna, Sandmann Thomas, Ho Carole, Scearce-Levie Kimberly, Yulyaningsih Ernie, Walker Adam K, Di Paolo Gilbert, Kane Lesley A, Troyer Matthew D, Lewcock Joseph W

机构信息

Denali Therapeutics Inc.; 161 Oyster Point Blvd., South San Francisco, CA, 94080, USA.

insitro, South San Francisco, CA, 94080, USA.

出版信息

Nat Commun. 2025 Aug 18;16(1):7690. doi: 10.1038/s41467-025-63031-y.

DOI:10.1038/s41467-025-63031-y

PMID:40825784

Abstract

Neuronal TDP-43 aggregates are a hallmark ALS pathology. The integrated stress response (ISR) occurs downstream of TDP-43 pathology and may promote neurodegeneration. Here we demonstrate that a CNS penetrant small molecule eIF2B activator inhibits the ISR in cellular models of ALS and the brain of an inducible mouse model of TDP-43 pathology, where it transiently slowed progression of locomotor deficits and neurodegeneration. ISR activation was observed in ALS patient spinal cord and CSF. The investigational drug DNL343 was advanced into Phase 1 and Phase 1b randomized, double-blind, placebo-controlled trials in healthy and ALS participants, respectively (NCT04268784/NCT05006352); the primary objective in both studies was to investigate the safety and tolerability DNL343. DNL343 demonstrated a half-life supporting once-daily dosing and showed extensive CSF distribution. DNL343 was generally well tolerated and reduced ISR biomarkers in peripheral blood mononuclear cells and CSF of ALS participants. Therefore, DNL343 is a useful investigational drug to explore the effects of ISR inhibition in ALS models and individuals with neurological diseases.

摘要

神经元TDP - 43聚集体是肌萎缩侧索硬化症（ALS）病理学的一个标志。整合应激反应（ISR）发生在TDP - 43病理学的下游，可能促进神经退行性变。在此，我们证明一种可穿透中枢神经系统的小分子eIF2B激活剂在ALS细胞模型和TDP - 43病理学诱导小鼠模型的大脑中抑制ISR，在该模型中它可暂时减缓运动功能缺陷和神经退行性变的进展。在ALS患者的脊髓和脑脊液中观察到ISR激活。研究药物DNL343分别在健康参与者和ALS参与者中推进到1期和1b期随机、双盲、安慰剂对照试验（NCT04268784/NCT05006352）；两项研究的主要目的都是调查DNL343的安全性和耐受性。DNL343的半衰期支持每日一次给药，并显示出广泛的脑脊液分布。DNL343总体耐受性良好，并降低了ALS参与者外周血单核细胞和脑脊液中的ISR生物标志物。因此，DNL343是一种有用的研究药物，可用于探索ISR抑制在ALS模型和神经系统疾病个体中的作用。

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研究性真核生物翻译起始因子2B（eIF2B）激活剂DNL343在TDP-43病理的临床前模型和肌萎缩侧索硬化症（ALS）患者中，通过一项随机临床试验调节整合应激反应。

Investigational eIF2B activator DNL343 modulates the integrated stress response in preclinical models of TDP-43 pathology and individuals with ALS in a randomized clinical trial.

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