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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

Author

Listed:
  • Brittany N. Flores

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    insitro)

  • Seungyoon B. Yu

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Isaac V. Cohen

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Melania H. Fanok

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Wei Luan

    (The University of Queensland)

  • Romeo D. Maciuca

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Linus D. Sun

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Regeneron Pharmaceuticals Inc.)

  • Richard M. Tsai

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Maurits Vissers

    (Centre for Human Drug Research; Zernikedreef 8)

  • Lars Smits

    (Centre for Human Drug Research; Zernikedreef 8
    Leiden University Medical Center; Albinusdreef 2)

  • Tommy M. Bunte

    (The University Medical Center Utrecht; Heidelberglaan 100)

  • Anna Bakardjiev

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Gilead Sciences Inc.)

  • Srijana Balasundar

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Meredith E. K. Calvert

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Marcus Y. Chin

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Sarah K. Dobbins

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • William E. Dowdle

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Altos Labs)

  • Meng Fang

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Jules A. A. C. Heuberger

    (Centre for Human Drug Research; Zernikedreef 8)

  • Connie L. Ha

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Fen Huang

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Inc.)

  • Takashi Miyamoto

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Maksim Osipov

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Septerna)

  • Lidia Madrid San Martin

    (The University of Queensland)

  • Katie Saund

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • David Tatarakis

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Anthony Q. Vu

    (University of California; San Diego)

  • Chenling Xiong

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Gilead Sciences Inc.)

  • Gene W. Yeo

    (University of California; San Diego
    UC San Diego
    UC San Diego
    Sanford Laboratories for Innovative Medicines)

  • Geert Jan Groeneveld

    (Centre for Human Drug Research; Zernikedreef 8
    Leiden University Medical Center; Albinusdreef 2)

  • Leonard H. Berg

    (The University Medical Center Utrecht; Heidelberglaan 100)

  • Shyeilla Dhuria

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Anthony A. Estrada

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Tenvie Therapeutics Inc.)

  • Danna Jennings

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Thomas Sandmann

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Carole Ho

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Kimberly Scearce-Levie

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Inc.)

  • Ernie Yulyaningsih

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.
    Tenvie Therapeutics Inc.)

  • Adam K. Walker

    (The University of Queensland
    The University of Sydney)

  • Gilbert Paolo

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Lesley A. Kane

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Matthew D. Troyer

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

  • Joseph W. Lewcock

    (Denali Therapeutics Inc.; 161 Oyster Point Blvd.)

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.

Suggested Citation

  • Brittany N. Flores & Seungyoon B. Yu & Isaac V. Cohen & Melania H. Fanok & Wei Luan & Romeo D. Maciuca & Linus D. Sun & Richard M. Tsai & Maurits Vissers & Lars Smits & Tommy M. Bunte & Anna Bakardjie, 2025. "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," Nature Communications, Nature, vol. 16(1), pages 1-23, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63031-y
    DOI: 10.1038/s41467-025-63031-y
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