Disruption of the Clock Component BMAL1 in HDM-induced Asthma Causes GC Resistance in Airway Epithelial Cells by Regulating GR Phosphorylation through the DUSP4-p38MAPK Pathway

Nov 10, 2025International journal of biological sciences

Disrupting the Body Clock Protein BMAL1 in Allergy-Induced Asthma May Cause Steroid Resistance in Airway Cells by Changing GR Phosphorylation via the DUSP4-p38MAPK Pathway

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Abstract

Disruption of the brain and muscle ARNT-like 1 (BMAL1) exacerbates allergic inflammation and induces glucocorticoid resistance.

The absence of BMAL1 intensified airway inflammation through activation of the NF-κB and AP-1 pathways.
Loss of BMAL1 was associated with reduced phosphorylation of the glucocorticoid receptor, which affects its efficacy.
BMAL1 negatively regulates the enzyme DUSP4, which is involved in the phosphorylation process of the glucocorticoid receptor.
Inhibition of DUSP4 restored glucocorticoid receptor activation and improved responsiveness to glucocorticoids.
Circadian rhythm disruption may lead to increased glucocorticoid resistance in asthma patients.

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Circadian rhythm disruption has been increasingly implicated in asthma and glucocorticoid (GC) resistance. In this study, we discovered that disruption of the brain and muscle ARNT-like 1 (BMAL1), a significant activator of the circadian clock transcription, not only exacerbated allergic inflammation but also induced GC resistance. The absence of BMAL1 intensified airway inflammation by activating the NF-κB and AP-1 pathways and also impaired the anti-inflammatory effect of GC. Our findings indicated that the deletion ofreduced the phosphorylation level of the GC receptor (GR-Ser211), which has a direct effect on the efficacy of GC and serves as a key indicator of GR activation. Additionally, BMAL1 has a negative regulatory effect on the phosphatase dual specificity protein phosphatase 4 (DUSP4) of p38 mitogen-activated protein kinase (p38MAPK), which plays a crucial role in the phosphorylation of GR. Consequently, our findings suggest that the absence of BMAL1 results in the resistance of airway epithelial cells to GC due to the inhibition of GR phosphorylation via the DUSP4-p38MAPK axis in HDM-induced asthma. We demonstrated that the inhibition of DUSP4 restored GR activation and improved GC responsiveness, highlighting a potential therapeutic strategy for GC resistance driven by circadian disruption. Regulating the sleep disorder and circadian rhythm of patients with asthma could become a potential treatment to increase GC sensitivity. BMAL1

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Disruption of the Clock Component BMAL1 in HDM-induced Asthma Causes GC Resistance in Airway Epithelial Cells by Regulating GR Phosphorylation through the DUSP4-p38MAPK Pathway

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