Pantothenic acid-mediated inhibition of microglial inflammation via the JAK2/STAT3 pathway enhances motor function recovery after Spinal cord injury DOI Creative Commons

Yuepeng Fang,

Ce Zhang,

Zhijie Yang

et al.

Research Square (Research Square), Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 19, 2024

Abstract This study employed transcriptome sequencing and targeted metabolomics to delve into the molecular alterations in mouse spinal cords following cord injury (SCI). Notably, a significant depletion of pantothenic acid (PA) was observed injured cord, exhibiting an inverse correlation with microglial inflammation activation. To further elucidate this relationship, experimental interventions using PA were conducted SCI models. The results demonstrated that administration effectively inhibited via modulation JAK2/STAT3 signaling pathway. inhibition not only mitigated neuroinflammatory milieu but also fostered environment conducive axonal growth neuronal regeneration. Consequently, mice treated exhibited improved motor function recovery compared untreated controls. Our findings deepen understanding relationship between processes highlight therapeutic potential promoting regeneration functional recovery.

Language: Английский

Pantothenic acid-mediated inhibition of microglial inflammation via the JAK2/STAT3 pathway enhances motor function recovery after Spinal cord injury DOI Creative Commons

Yuepeng Fang,

Ce Zhang,

Zhijie Yang

et al.

Research Square (Research Square), Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 19, 2024

Abstract This study employed transcriptome sequencing and targeted metabolomics to delve into the molecular alterations in mouse spinal cords following cord injury (SCI). Notably, a significant depletion of pantothenic acid (PA) was observed injured cord, exhibiting an inverse correlation with microglial inflammation activation. To further elucidate this relationship, experimental interventions using PA were conducted SCI models. The results demonstrated that administration effectively inhibited via modulation JAK2/STAT3 signaling pathway. inhibition not only mitigated neuroinflammatory milieu but also fostered environment conducive axonal growth neuronal regeneration. Consequently, mice treated exhibited improved motor function recovery compared untreated controls. Our findings deepen understanding relationship between processes highlight therapeutic potential promoting regeneration functional recovery.

Language: Английский

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