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A novel β-TrCP1/NRF2 interaction inhibitor for effective anti-inflammatory therapy

KEAP1型 生物信息学 转录因子 化学 脂多糖 炎症 蛋白质-蛋白质相互作用 泛素 药理学 细胞生物学 生物化学 生物 基因 免疫学
作者
Ángel J. García‐Yagüe,Lucía Cañizares-Moscato,José A. Encinar,Eduardo Cazalla,Raquel Fernández-Ginés,Maribel Escoll,Ana I. Rojo,Antonio Cuadrado
出处
期刊:Journal of Biomedical Science [BioMed Central]
卷期号:32 (1): 65-65
标识
DOI:10.1186/s12929-025-01157-3
摘要

Abstract Background Non-communicable chronic diseases are characterized by low-grade inflammation and oxidative stress. Extensive research has identified the transcription factor NRF2 as a potential therapeutic target. Current NRF2 activators, designed to inhibit its repressor KEAP1, often exhibit undesirable side effects. As an alternative approach, we previously developed PHAR, a protein–protein interaction inhibitor of β-TrCP1/NRF2, which promotes NRF2 activation. Using the same in silico screening platform, we have now identified a novel compound, P10. This small molecule selectively interferes with the β-TrCP1/NRF2 interaction, leading to NRF2 stabilization and transcriptional activation of its target genes in a β-TrCP1-dependent manner, demonstrating promising effects in a liver model of acute inflammation. Methods After an in silico screening of ∼1 million compounds, including molecular docking analysis, ADMET evaluation, and molecular dynamics simulations, we identified and characterized a novel small molecule, P10, which inhibits β-TrCP1/NRF2 interaction. The compound was validated using luciferase reporter assays, co-immunoprecipitation, and ubiquitination experiments. The specificity of P10 was assessed by comparing NRF2 signatures in wild-type and Nrf2 -null cells. The impact of NRF2 activation induced by P10 was investigated by evaluating its antioxidant and anti-inflammatory responses against tert-butyl hydroperoxide and lipopolysaccharide, respectively. Finally, wild-type and Nrf2 -null mice were administered P10 intraperitoneally at a dose of 20 mg/kg daily for five consecutive days. Four hours before sacrifice, all animals received a lipopolysaccharide (LPS) injection at 10 mg/kg. Results P10 selectively disrupts the interaction between β-TrCP1 and NRF2, thereby inhibiting β-TrCP1-mediated ubiquitination of NRF2 and leading to the upregulation of NRF2 target genes. Additionally, P10 mitigates oxidative stress induced by tert-butyl hydroperoxide and reduces pro-inflammatory markers in an NRF2-dependent manner in macrophages treated with lipopolysaccharide. In a preclinical model of liver inflammation, P10 specifically targets the liver, significantly attenuating lipopolysaccharide-induced inflammation through the activation of NRF2. This is demonstrated by decreased expression of inflammatory cytokine genes and a reduction in F4/80-stained liver macrophages. Notably, this anti-inflammatory effect is absent in Nrf2 -knockout mice, confirming its NRF2-dependent mechanism of action. Conclusions P10 emerges as a promising NRF2 activator by selectively disrupting the β-TrCP1/NRF2 interaction, highlighting its potential as a therapeutic agent for diseases presenting acute liver inflammation. Graphical Abstract
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