What question did this study set out to answer?

The study aims to explore the role of DRP1 in regulating neuroinflammation and its potential as a therapeutic target.

March 18, 2026Open Access

DRP1 induces neuroinflammation via transcriptional regulation of NF-ĸB.

Puntos clave

The study aims to explore the role of DRP1 in regulating neuroinflammation and its potential as a therapeutic target.
Used inflammatory models to study the effect of DRP1 on neuroinflammation.
Stimulated cells with lipopolysaccharides (LPS) to induce inflammation.
Analyzed DRP1 translocation from cytosol to nucleus and its binding to the Rela promoter.
DRP1 translocates to the nucleus upon LPS stimulation.
DRP1 activation leads to increased expression of NF-κB and inflammatory cytokines.
Lipocalin-2 is identified as a significant player in the brain's inflammatory response.

Resumen

Abstract Neuroinflammation is a major pathogenic mechanism underlying neurodegenerative diseases. Understanding how neuroinflammation is regulated is critical to therapeutic development. Here, we report that dynaminrelated protein 1 (DRP1), well-recognized for its role in mitochondrial fission, also functions as a transcription factor that regulates neuroinflammation. Using multiple inflammatory models, we demonstrate that upon stimulation with pro-inflammatory lipopolysaccharides (LPS), DRP1 translocates from the cytosol to the nucleus, where it binds to the promoter region of Rela (encoding NF-κB p65) to activate its gene products and other downstream inflammatory cytokines. Our data further reveal a significant role of the proinflammatory lipocalin-2 in the brain. In combination, this study identifies a previously unrecognized function of DRP1 in mediating neuroinflammation via the NF-κB-lipocalin-2 axis and highlights DRP1-mediated pathways as potential therapeutic targets for neurodegenerative and other inflammation-related diseases.

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