The Janus face of glial-derived S100B: Beneficial and detrimental functions in the brain

Linda J. Van Eldik, Mark S. Wainwright

Research output: Contribution to journalArticlepeer-review

350 Scopus citations

Abstract

Glia play active and vital roles in the CNS, including regulation of brain development, maintenance of cellular homeostasis and reparative responses to acute and chronic neurologic insults. However, in pathological conditions, glial function may be dysregulated resulting in enhanced neuroinflammation and further neurologic injury. The fundamental concept that aberrant regulation of a normally beneficial process may instead result in pathology is exemplified by the properties of the glial-derived protein, S100B. In the developing brain and following acute glial activation in response to injury, S100B acts as a neurotrophic factor and neuronal survival protein. In contrast, overproduction of S100B by activated glia can lead to exacerbation of neuroinflammation and neuronal dysfunction. This duality of S100B actions, both reparative and degenerative, is consistent with the compelling clinical evidence of the association between increases in S100B levels and outcome following brain injury. S100B levels generally correlate with the severity of damage and may have predictive value for adverse neurological outcomes. The cumulative data support the potential of S100B as a biomarker for brain damage, implicate glial activation as a possible treatment target in acute and chronic CNS disorders, and highlight the dual role of glia in the reparative and pathologic responses to neurologic injury.

Original languageEnglish
Pages (from-to)97-108
Number of pages12
JournalRestorative Neurology and Neuroscience
Volume21
Issue number3-4
StatePublished - 2003

Funding

FundersFunder number
National Institute on AgingR01AG020243

    Keywords

    • Astrocyte
    • Brain damage
    • Calcium binding protein
    • Glial activation
    • Neuroinflammation
    • Neuronal death
    • Neurotrophic
    • S100

    ASJC Scopus subject areas

    • Neurology
    • Developmental Neuroscience
    • Clinical Neurology

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