Effects of matrix metalloproteinase-9 gene knock-out on morphological and motor outcomes after traumatic brain injury

Xiaoying Wang, Jaechang Jung, Minoru Asahi, Wilson Chwang, Laoti Russo, Michael A. Moskowitz, C. Edward Dixon, M. Elizabeth Fini, Eng H. Lo

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339 Scopus citations

Abstract

Matrix metalloproteinases (MMPs) belong to a class of extracellular proteinases responsible for maintaining and remodeling the extracellular matrix. In addition to multiple functions in normal physiology, abnormal MMP expression and activity may also participate in the pathophysiology of cerebral disease. Here, we show that MMP-9 (gelatinase B; EC.3.4.24.35) contributes to the pathophysiology of traumatic brain injury. After controlled cortical impact in mice, MMP-9 was increased in traumatized brain. Total MMP-9 levels at 24 hr were significantly increased as measured by a substrate cleavage assay. Zymograms showed that MMP-9 was elevated as early as 3 hr after traumatic brain injury, reaching a maximum at ~24 hr. Increased MMP-9 levels persisted for up to 1 week. Western blot analysis indicated increased profiles of MMP-9 expression that corresponded with the zymographic data. Knock-out mice deficient in MMP-9 gene expression were compared with wild-type littermates in terms of morphological and motor outcomes after trauma. Motor outcomes were measured at 1, 2, and 7 d after traumatic brain injury by the use of a rotarod device. MMP-9 knock-out mice had less motor deficits than wild-type mice. At 7 d, traumatic brain lesion volumes on Nissl-stained histological sections were significantly smaller in MMP-9 knock-out mice. These data demonstrate that MMP-9 contributes to the pathophysiology of traumatic brain injury and suggest that interruption of the MMP proteolytic cascade may be a possible therapeutic approach for preventing the secondary progression of damage after brain trauma.

Original languageEnglish
Pages (from-to)7037-7042
Number of pages6
JournalJournal of Neuroscience
Volume20
Issue number18
DOIs
StatePublished - 15 Sep 2000

Keywords

  • Brain trauma
  • Controlled cortical impact
  • Extracellular matrix
  • Mouse
  • Neurodegeneration
  • Proteolysis

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