Chronic allograft rejection remains a major obstacle to long-term allograft survival. The immunologic role of tertiary lymphoid organs (TLO) in allograft rejection is unclear. Here, we employed a chronic renal allograft rejection model in mice and intravital 2-photon microscopy to investigate the function of TLO in transplant rejection. CB6F1 (F1) RIP-LTα (preformed TLO) or F1 (no TLO) kidney grafts were transplanted to WT B6 recipients and survival monitored. To investigate immunologic function of TLO, we adoptively transferred B6-RIPLTα CD11c-YFP mice with 10m naïve dsRed OT-I T cells or 10m CTR-labeled NP-specific B cells + 10m CFP+ OT-II cells and immunized with NP-OVA + alum. Intravital 2P imaging of renal TLO was performed at time points 0, 3, 6, 24 or 72 hours after immunization. 4D image analysis was performed and mean speed, displacement, arrest coefficient (AC) and contact times (CT) with DC were calculated for OT-I, OT-II and NP-B cells. F1 RIP-LTα grafts rejected significantly faster (MST= 54) than F1 grafts (MST= 225), demonstrating that TLO contribute to allograft rejection. F1 RIP-LTα grafts contained similar numbers of, but larger TLO than F1 grafts as demonstrated by histology. Mean speed and displacement of OT-I and OT-II cells significantly decreased over time after immunization while AC and mean CT significantly increased. B cell mean speed, displacement and AC increased after immunization. These data are consistent with B cell activation and productive T cell-DC interactions and mirror previously reported data in secondary lymphoid organs. We provide first evidence that TLO provide a local structure for T and B cell activation that propagates anti-graft immune responses in the setting of chronic rejection.
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