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. 2025 Jul;4(7):938-955.
doi: 10.1038/s44161-025-00665-7. Epub 2025 Jun 13.

The drug-elicitable alternative splicing module for tunable vector expression in the heart

Zhan Chen #  1   2 Luzi Yang #  1   2 Yueyang Zhang  1   2 Jiting Li  1   2 Yuhan Yang  1   2   3 Yue Li  4 Linwei Fan  2   5 Wei Chen  6 Lei Miao  6 Jin Liu  1   2 Gonglie Chen  1   2 Ze Wang  1   2 Yifei Li  7 Fei Gao  8 Jing Zhou  2   5   9   10 Lemin Zheng  1   2   10 Yan Zhang  1   2   9 Dongyu Zhao  2   3 William T Pu  11 Ke Yang  4   12 Erdan Dong  13   14   15   16   17 Yuxuan Guo  18   19   20
Affiliations

The drug-elicitable alternative splicing module for tunable vector expression in the heart

Zhan Chen et al. Nat Cardiovasc Res. 2025 Jul.

Abstract

Adeno-associated viruses (AAVs) are commonly used for gene therapy, but a clinically relevant method to fine-tune AAV expression is lacking, restricting their therapeutic efficacy and safety. Here we develop the drug-elicitable alternative splicing module (DreAM), which is responsive to risdiplam, a Food and Drug Administration-approved alternative splicing modulator. Risdiplam activated DreAM-regulated AAV expression in a dose-dependent manner with a 2,000-fold inducible change, depending on the dose of risdiplam and the organ of interest. With a temporal resolution of 2 days, DreAM could transiently, reversibly and repeatedly activate AAV expression according to the frequency and duration of risdiplam administration. In this proof-of-concept study, we incorporated DreAM into the cardiomyocyte-specific, liver-detargeted AAV9-Tnnt2-miR122TS vector to transiently activate the cardiomyocyte regeneration factor YAP5SA. A dedifferentiation-proliferation-redifferentiation cycle was established in adult cardiomyocytes, improving cardiac regeneration after myocardial infarction while limiting animal death, AAV9-Tnnt2 expression in the liver and hepatic tumorigenesis. Therefore, DreAM may enhance the efficacy, safety and scope of gene therapy.

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Conflict of interest statement

Competing interests: Patents relating to DreAM and its applications were filed by Peking University and Vituner Therapeutics (formerly known as Biotune Medical Technology). The international filing date was 28 September 2023 (international publication number: WO/2025/065630; inventors: Y.G., Z.C., L.Y. and K.Y. Y.G. is a cofounder and scientific advisor for Vituner Therapeutics. All authors were provided with the full paper for comments and critiques before submission. The other authors declare no competing interests.

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