Cell Reports (May 2024)

Astrocyte-derived CHI3L1 signaling impairs neurogenesis and cognition in the demyelinated hippocampus

  • Yanna Song,
  • Wei Jiang,
  • Shabbir Khan Afridi,
  • Tongtong Wang,
  • Fan Zhu,
  • Huiming Xu,
  • Faisal Hayat Nazir,
  • Chunxin Liu,
  • Yuge Wang,
  • Youming Long,
  • Yu-Wen Alvin Huang,
  • Wei Qiu,
  • Changyong Tang

Journal volume & issue
Vol. 43, no. 5
p. 114226

Abstract

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Summary: Cognitive dysfunction is a feature in multiple sclerosis (MS), a chronic inflammatory demyelinating disorder. A notable aspect of MS brains is hippocampal demyelination, which is closely associated with cognitive decline. However, the mechanisms underlying this phenomenon remain unclear. Chitinase-3-like (CHI3L1), secreted by activated astrocytes, has been identified as a biomarker for MS progression. Our study investigates CHI3L1’s function within the demyelinating hippocampus and demonstrates a correlation between CHI3L1 expression and cognitive impairment in patients with MS. Activated astrocytes release CHI3L1 in reaction to induced demyelination, which adversely affects the proliferation and differentiation of neural stem cells and impairs dendritic growth, complexity, and spine formation in neurons. Our findings indicate that the astrocytic deletion of CHI3L1 can mitigate neurogenic deficits and cognitive dysfunction. We showed that CHI3L1 interacts with CRTH2/receptor for advanced glycation end (RAGE) by attenuating β-catenin signaling. The reactivation of β-catenin signaling can revitalize neurogenesis, which holds promise for therapy of inflammatory demyelination.

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