Role of NG2+ glial cells in recovery from spinal cord injury
Johns Hopkins University, Baltimore MD
Investigators
Linked publications & trials
Abstract
? DESCRIPTION (provided by applicant): Approximately 5,596,000 people in the United States live with some form of paralysis; among these, 1,275,000 are paralyzed as the result of a spinal cord injury (SCI). The lack of treatment results in a constantly growing population. Each year, SCI cost to the health care system is roughly 40.5 billion. SCI triggers profound changes in the behavior of glial cells, which limit secondary injury and influence regeneration. However, the distinct roles of different glial cell types in the recovery from SCI are not well understood. NG2+ glial cells, a class of glial progenitors that generate oligodendrocytes in the developing and adul CNS, are rapidly mobilized following SCI; they increase their proliferation and migrate to the site of injury. The consequences of this recruitment of NG2+ cells are unknown. Although the behavior of these cells has been viewed primarily in the context of oligodendrocyte regeneration, recent studies suggest that they may play additional roles in the pathophysiology of SCI. In this exploratory research grant (R21) we propose to examine the fate of these highly dynamic cells and evaluate their contribution to functional recovery using in vivo genetic lineage tracing, in vivo two photon imaging, and in vivo selective cell ablation in a clinically relevant model of contusion-induced SCI. The knowledge gained from these studies may reveal new therapeutic strategies based on manipulation of this endogenous pool of progenitors as well as targeted manipulation of NG2+ cells (also termed oligodendrocyte precursor cells (OPCs) engineered for transplantation therapy.
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