Glial Scar Borders Are Formed by Newly Proliferated, Elongated Astrocytes That Interact to Corral Inflammatory and Fibrotic Cells via STAT3-Dependent Mechanisms after Spinal Cord Injury

Wanner, I.; Anderson, Mark A.; Song, Bao‐Liang; Levine, Joel M.; Fernández, Ana Patricia; Thompson, Zachary; Ao, Y.; Sofroniew, Michael V.

doi:10.1523/jneurosci.2121-13.2013

articleJournal of NeuroscienceJul 31, 2013BRONZE OA

Glial Scar Borders Are Formed by Newly Proliferated, Elongated Astrocytes That Interact to Corral Inflammatory and Fibrotic Cells via STAT3-Dependent Mechanisms after Spinal Cord Injury

IWI. Wanner MAMark A. Anderson BSBao‐Liang Song JMJoel M. Levine APAna Patricia Fernández

University of California, Los Angeles

PubMed

Indexed incrossrefpubmed

Abstract

Astroglial scars surround damaged tissue after trauma, stroke, infection, or autoimmune inflammation in the CNS. They are essential for wound repair, but also interfere with axonal regrowth. A better understanding of the cellular mechanisms, regulation, and functions of astroglial scar formation is fundamental to developing safe interventions for many CNS disorders. We used wild-type and transgenic mice to quantify and dissect these parameters. Adjacent to crush spinal cord injury (SCI), reactive astrocytes exhibited heterogeneous phenotypes as regards proliferation, morphology, and chemistry, which all varied with distance from lesions. Mature scar borders at 14 d after SCI consisted primarily of newly…

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Topics & keywords

Topics

Keywords

Scars
Glial scar
Inflammation
Cell biology
Biology
Phenotype
Spinal cord injury
Microglia

UN Sustainable Development Goals

Good health and well-being

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