Bone marrow contains a population of stem-like cells that can differentiate into neurons or glia. Stromal cells from green fluorescent protein (GFP)-expressing mice were isolated by initial separation on a density gradient and then cultured as adherent cells on plastic that proliferated in culture to confluency with a typical flattened elongative morphology. The large majority of the isolated stromal cells were GFP expressing and immunopositive for collagen type I, fibronectin, and CD44. Transplantation of these cells by direct microinjection into the demyelinated spinal cord of the immunosuppressed rat resulted in remyelination. The remyelinated axons showed characteristics of both central and peripheral myelination as observed by electron microscopy; conduction velocity of the axons was improved. GFP-positive cells and myelin profiles were observed in the remyelinated spinal cord region, indicating that the donor-isolated stromal cells were responsible for the formation of the new myelin. The GFP-positive cells were colocalized with myelin basic protein-positive and P0-positive cellular elements. These findings indicate that cells contained within the stromal cell fraction of the mononuclear cell layer of bone marrow can form functional myelin during transplantation into demyelinated spinal cord.
Bone marrow contains a population of pluripotent cells that can differentiate into a variety of cell lineages, including neural cells. When injected directly into the demyelinated spinal cord they can elicit remyelination. Recent work has shown that following systemic delivery of bone marrow cells functional improvement occurs in contusive spinal cord injury and stroke models in rat. We report here that secondary to intravenous introduction of an acutely isolated bone marrow cell fraction (mononuclear fraction) from adult rat femoral bones separated on a density gradient, ultrastructurally defined remyelination occurs throughout a focal demyelinated spinal cord lesion. The anatomical pattern of remyelination was characteristic of both oligodendrocyte and Schwann cell myelination; conduction velocity improved in the remyelinated axons. When the injected bone marrow cells were transfected to express LacZ, β-galactosidase reaction product was observed in some myelin-forming cells in the spinal cord. Intravenous injection of other myelin-forming cells (Schwann cells and olfactory ensheathing cells) or the residual cell fraction of the gradient did not result in remyelination, suggesting that remyelination was specific to the delivery of the mononuclear fraction. While the precise mechanism of the repair, myelination by the bone marrow cells or facilitation of an endogenous repair process, cannot be fully determined, the results demonstrate an unprecedented level of myelin repair by systemic delivery of the mononuclear cells.
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