Discovery of Quinazoline and Quinoline-Based Small Molecules as Utrophin Upregulators via AhR Antagonism for the Treatment of Duchenne Muscular Dystrophy.
Surojit GhoshMohammad Umar ArshiSatyajit GhoshMoumita JashSamya SenKamel MamchaouiSudipta BhattacharyyaNirmal Kumar RanaSurajit GhoshPublished in: Journal of medicinal chemistry (2024)
Duchenne muscular dystrophy (DMD) is a fatal muscle-wasting disease caused by the absence of a dystrophin protein. Elevating utrophin, a dystrophin paralogue, offers an alternative therapeutic strategy for treating DMD, irrespective of the mutation type. Herein, we report the design and synthesis of novel quinazoline and quinoline-based small molecules as potent utrophin modulators screened via high throughput In-Cell ELISA in C2C12 cells. Remarkably, lead molecule SG-02, identified from a library of 70 molecules, upregulates utrophin 2.7-fold at 800 nM in a dose-dependent manner, marking the highest upregulation within the nanomolar range. SG-02's efficacy was further validated through DMD patient-derived cells, demonstrating a significant 2.3-fold utrophin expression. Mechanistically, SG-02 functions as an AhR antagonist, with excellent binding affinity ( K d = 41.68 nM). SG-02 also enhances myogenesis, as indicated by an increased MyHC expression. ADME evaluation supports SG-02's oral bioavailability. Overall, SG-02 holds promise for addressing the global DMD population.
Keyphrases
- duchenne muscular dystrophy
- poor prognosis
- induced apoptosis
- high throughput
- muscular dystrophy
- molecular docking
- cell cycle arrest
- small molecule
- binding protein
- photodynamic therapy
- endoplasmic reticulum stress
- skeletal muscle
- signaling pathway
- long non coding rna
- cell proliferation
- machine learning
- pi k akt
- artificial intelligence
- dna binding
- smoking cessation