Role of the thymus in transplantation tolerance in miniature Swine: IV. The thymus is required during the induction phase, but not the maintenance phase, of renal allograft tolerance.

BACKGROUND: The authors' laboratory previously demonstrated that long-term tolerance to class I-disparate renal allografts in miniature swine can be induced by a short course of cyclosporine A (CsA), and that this stable tolerance is dependent on the presence of an intact thymus. In the present study, the authors have examined the requirement for a thymus during the pretransplant, induction, and maintenance phases of tolerance. METHODS: Twenty-two miniature swine underwent class I major histocompatibility complex-mismatched renal transplantation, with a 12-day course of CsA. Thymectomies were performed on days -21, 0, +8, +21, and greater than or equal to +42, in relation to the day of transplantation. Historical controls consisted of euthymic and sham-thymectomized recipients. RESULTS: Euthymic, sham-thymectomized, and day-greater than or equal to +42 thymectomized recipients demonstrated stable renal function and minimal anti-donor cytotoxic T-lymphocyte (CTL) responses. In contrast, day -21 and day 0 thymectomized recipients demonstrated allograft dysfunction, marked cellular infiltrates, with severe vasculitis and glomerular changes, and strong anti-donor CTL responses. Animals thymectomized on days +8 and +21 did not undergo severe rejection, but likewise did not demonstrate a stable clinical course. CONCLUSIONS: These data indicate that the requirement for thymic function in the induction of rapid and stable tolerance is greatest during the first 8 days and then diminishes over the next 2 weeks posttransplant. Failure of thymectomy to affect the course of tolerance after day +21 suggests that thymic function is not required for the maintenance of tolerance. Understanding the role of the thymus in establishing tolerance may permit the development of tolerance induction strategies, especially for pediatric transplant recipients

Local expression of IDO, either alone or in combination with CD40Ig, IL10 or CTLA4Ig,inhibits indirect xenorejection responses

Background: To overcome cell-mediated xenorejection by transgenic expression of immunomodulatory molecules by a graft, it is likely that expression of multiple molecules will be required. Previous studies support the use of the immunomodulatory agents indoleamine 2,3-dioxygenase (IDO), CD40Ig, interleukin 10 (IL10), and CTLA4Ig for suppression of rejection responses. We examined the effects of local expression of these molecules by a porcine cell line (PIEC) on indirect murine xenorejection responses in vitro and in vivo. Methods: The PIEC stable lines expressing IDO, CD40Ig, and IL10 as single molecules were generated. In addition, PIEC lines expressing IDO with either CD40Ig, IL10 or CTLA4Ig were generated to produce cell lines expressing two molecules. BALB/c mice were primed with wild type PIEC, followed by harvesting splenocytes used as responder cells and PIEC expressing immunomodulatory molecules as stimulators, in proliferation and cytokine assays. In vivo effects of modified PIEC were examined by transplantation of PIEC lines expressing the immunomodulatory molecules under the renal capsule of naïve mice. PIEC grafts were harvested for histological evaluation at days 7 and 14. Results: Proliferation of primed BALB/c splenocytes was inhibited most significantly by IDO compared with control cells (49%, P = 0.02). In addition both Th1 (interferon-gamma) and Th2 (IL4 and IL10) cytokines were markedly inhibited in vitro by IDO expression. IL10 expressing cells did not inhibit proliferation as potently (37%, P = 0.03) whilst CD40Ig lead to an increase in proliferative responses (59%, P = 0.02). Co-expression of CD40Ig, IL10, and CTLA4Ig with IDO resulted in further modest reductions in proliferation compared with IDO expression alone. When transplanted under the renal capsule of BALB/c mice, those grafts expressing IDO demonstrated significantly lower levels of lymphocyte infiltration at days 7 and 14 than control grafts and those expressing CD40Ig, CTLA4Ig or IL10 alone. Grafts co-expressing IDO and a second molecule were no better protected than those expressing IDO alone. Graft cell viability (PIECs) was reduced in some IDO expressing grafts suggesting high levels of IDO expression may inhibit PIEC viability, however, grafts co-expressing IDO-CTLA4Ig and IDO-IL10 were not affected in this way. Conclusion: Indoleamine 2,3-dioxygenase appears to be a potent molecule for protecting xenografts from cell-mediated rejection responses activated via the indirect pathway. Co-expression of IDO with both CTLA4Ig and IL10 warrants further investigation. Overall these findings support pursuing further studies, in larger animal models, to determine whether increased IDO activity within the graft itself can attenuate xenorejection responses

B-type Natriuretic Peptides Strongly Predict Mortality in Patients Who Are Treated with Long-Term Dialysis

Background and objectives: Left ventricular abnormalities contribute to cardiovascular disease in patients with chronic kidney disease and may be detected by measurement of B-type natriuretic peptide in serum