Systemic administration of human umbilical cord blood (HUCB) mononuclear cells (MNC) following middle cerebral artery occlusion (MCAO) in the rat reduces infarct size and, more importantly, restores motor function. The HUCB cell preparation is composed of immature T-cells, B-cells, monocytes and stem cells. In this study we examined whether the beneficial effects of HUCB injection were attributable to one of these cell types. Male Sprague Dawley rats underwent permanent MCAO followed 48 hours later by intravenous administration of HUCB MNC preparations depleted of either CD14+ monocytes, CD133+ stem cells, CD2+ T-cells or CD19+ B cells. Motor function was measured prior to MCAO and 30 days post-stroke. When CD14+ monocytes were depleted from the HUCB MNC, activity and motor asymmetry were similar to the MCAO only treated animals. Monocyte depletion prevented HUCB cell treatment from reducing infarct size while monocyte enrichment was sufficient to reduce infarct size. Administration of monocyte-depleted HUCB cells did not suppress Iba1 labeling of microglia in the infarcted area relative to treatment with the whole HUCB preparation. These data demonstrate that the HUCB monocytes provide the majority of the efficacy in reducing infarct volume and promoting functional recovery.
The human umbilical cord blood (HUCB) mononuclear cell (MNC) fraction is a mixed population of cells that induces functional repair in rodent models of stroke when injected intravenously (i.v.). The transplanted cells are found in the infarcted hemisphere and the spleen. The goal of this project was to determine the nature of the interaction between the HUCB MNCs cells and splenic immune cells. Male Sprague Dawley rats underwent permanent middle cerebral artery occlusion (MCAO) and received i.v. injection of either vehicle (MCAO only), HUCB MNCs or MNCs depleted of CD14+ monocytes, CD133+ stem cells or CD19+ B cells 48 hours post-stroke. At 72 hours post-MCAO, the animals were euthanized and the spleens and blood MNCs harvested for flow cytometry and mitogen proliferation assays. All HUCB cell preparations decreased the percentage of T cells in the spleen and monocytes in the blood (p < 0.05). MNCs depleted of CD14+ and CD19+ decreased the percentage of macrophage (p < 0.001), while CD133 depleted MNCs increased the percentage of macrophage in spleen (p < 0.001); MNC did not alter the macrophage population from the level observed after MCAO. Only HUCB MNC significantly decreased Concanavalin A (ConA)-induced T cell stimulation (p < 0.05). These results suggest that the effects of HUCB MNC in the spleen are not due to a single HUCB population, but the interaction of all the subpopulations together.
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