Frontiers in Physiology (Nov 2024)

Lipin1 as a therapeutic target for respiratory insufficiency of duchenne muscular dystrophy

  • Alexandra Brown,
  • Brooklyn Morris,
  • John Karanja Kamau,
  • Ryan J. Rakoczy,
  • Brian N. Finck,
  • Christopher N. Wyatt,
  • Hongmei Ren

DOI
https://doi.org/10.3389/fphys.2024.1477976
Journal volume & issue
Vol. 15

Abstract

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In Duchenne muscular dystrophy (DMD), diaphragm muscle dysfunction results in respiratory insufficiency which is a leading cause of death in patients. Mutations to the dystrophin gene result in myocyte membrane instability, contributing to the structural deterioration of the diaphragm muscle tissues. With previous works suggesting the importance of lipin1 for maintaining skeletal muscle membrane integrity, we explored the roles of lipin1 in the dystrophic diaphragm. We found that the protein expression levels of lipin1 were reduced by 60% in the dystrophic diaphragm. While further knockdown of lipin1 in the dystrophic diaphragm leads to increased necroptosis, restoration of lipin1 in the dystrophic diaphragm results in reduced inflammation and fibrosis, decreased myofiber death, and improved respiratory function. Our results demonstrated that lipin1 restoration improved respiratory function by enhancing membrane integrity and suggested that lipin1 could be a potential therapeutic target for preventing respiratory insufficiency and respiratory failure in DMD. Continued investigation is required to better understand the mechanisms behind these findings, and to determine the role of lipin1 in maintaining muscle membrane stability.

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