Theranostics

Key gene FOXP1 slows blood vessel cell aging by activating SESN3 through phase separation

Updated

Abstract

FOXP1 is identified as a core transcription factor that delays endothelial cell senescence and inhibits atherosclerosis.

  • Endothelial cell senescence is linked to endothelial dysfunction and the progression of atherosclerosis.
  • Super-enhancers are important regulatory elements that influence transcription in human diseases.
  • Phase separation properties of FOXP1 are essential for its role in delaying endothelial cell senescence.
  • FOXP1 activates the SESN3 gene and inhibits the mTORC1 signaling pathway, which is associated with delayed endothelial cell senescence.
  • Clinical evidence suggests that FOXP1 and SESN3 may serve as protective factors against atherosclerosis.

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