Kinetics of leukocyte and myeloid cell traffic in the murine corneal allograft response

BACKGROUND: Little information exists on the trafficking of myeloid and lymphoid cells between the transplanted cornea and the secondary lymphoid tissue. This study reports on changes in the cornea and the draining lymph node (DLN) from the time of graft emplacement. METHODS: Using a mouse corneal graft model (C57BL/10Sn to BALB/c), eyes and submandibular DLN were examined by immunohistochemistry and three-color flow cytometry for evidence of T cell activation and dendritic cell (DC) conditioning (up-regulation of costimulatory molecules) at various times (15 min to 24 days; n=4 for each time). RESULTS: In the DLN, early (2 hr) DC conditioning was sustained throughout allograft rejection whereas a remarkable drop in percentage of activated CD4+ and CD8+ T cells (P <0.001) was followed by a biphasic rise in activated CD4+ and, to a lesser extent, CD8+ T cells (24 hr, P <0.001 and 6 days, P <0.01). CD11b+ and MOMA-2+ macrophages, MHC Class II+ cells, CD86+ DC, and neutrophils were the earliest cells infiltrating the cornea (at 24 hr), whereas T cells appeared after 2 days, with CD4+ T cells being confined largely to the graft recipient border. CONCLUSIONS: Immediate and rapid changes in T cell and DC populations in the DLN correlate with the type of cellular infiltration in the corneal graft. The data are consistent with a model in which CD4+ T cell help for CD8+ cytotoxic T cells could be provided by sequential two-way activation of T cells and DC in the DLN. The majority of cells infiltrating the graft were macrophages and neutrophils, with fewer DC and T cells.