Joseph R. Scalea

T-cell-mediated immunological barriers to xenotransplantation

Scalea J, Hanecamp I, Robson SC, Yamada K. T‐cell‐mediated immunological barriers to xenotransplantation. Xenotransplantation 2012; 19: 23–30.

Simultaneous pancreas and kidney transplantation: current trends and future directions.

Purpose of reviewImportant trends are being observed in pancreas transplantation in the USA. We will describe recent trends in simultaneous pancreas kidney (SPK) transplantation related to immunosuppression, treatment of rejection, and transplantation for patients of advanced age and C-peptide positive diabetes. Recent findingsRates of pancreas transplantation have declined, despite improved pancreatic graft outcomes. Regarding immunosuppression, trends in SPK transplantation include T-cell depletion induction therapy, waning mammalian target of rapamycin inhibitor use and steroid use in greater than 50% of pancreas transplant recipients with few patients undergoing late steroid weaning. Rejection of the pancreas may be discordant with the kidney after SPK and there is a greater appreciation of antibody-mediated rejection of the pancreas allograft. De-novo donor-specific antibody without graft dysfunction remains an active area of study, and the treatment for this condition is unclear. SPKs are being performed with greater frequency in type 2 diabetes mellitus patients and in patients of advanced age, with exemplary results. SummaryThe current state of the art in SPK transplantation is yielding superb and improving results.

The gracilis myocutaneous free flap in swine: An advantageous preclinical model for vascularized composite allograft transplantation research

Vascularized composite allotransplantation (VCA) has become a clinical reality, prompting research aimed at improving the risk‐benefit ratio of such transplants. Here, we report our experience with a gracilis myocutaneous free flap in Massachusetts General Hospital miniature swine as a preclinical VCA model. Fourteen animals underwent free transfer of a gracilis myocutaneous flap comprised of the gracilis muscle and overlying skin, each tissue supplied by independent branches of the femoral vessels. End‐to‐end anastomoses were performed to the common carotid artery and internal jugular vein, or to the femoral vessels of the recipients. Thirteen of fourteen flaps were successful. A single flap was lost due to compromise of venous outflow. This model allows transplantation of a substantial volume of skin, subcutaneous tissue, and muscle. The anatomy is reliable and easily identified and harvest incurs minimal donor morbidity. We find this gracilis myocutaneous flap an excellent pre‐clinical model for the study of vascularized composite allotransplantation.

The Induction of Tolerance of Renal Allografts by Adoptive Transfer in Miniature Swine

Our previous in vitro data have demonstrated that regulatory mechanisms are involved in tolerance of class I‐mismatched renal allografts in miniature swine treated with 12 days of high dose Cyclsporin A. In this study, we attempted to induce tolerance of class I‐mismatched kidneys by adoptive transfer of cells and/or kidneys from long‐term tolerant animals. Fifteen SLAdd miniature swine received 1.5 Gy whole body irradiation and class I‐mismatched (SLAgg) kidneys from naïve pigs with or without cotransplanted kidneys and/or adoptively transferred cells from long‐term tolerant (LTT) SLAdd recipients of SLAgg grafts. In addition, three SLAdd miniature swine received class I mismatched kidney with adoptively transferred cells from LTT SLAdd recipients. Naïve kidneys transplanted without a LTT kidney were rejected within 9 days. All recipients of naive kidneys along with cells and kidney grafts from LTT animals showed markedly prolonged survival of the naive renal grafts (day 28, >150 and >150 days). These studies suggest that (1) tolerated kidneys have potent regulatory effects and (2) cells from LTT animals infused in conjunction with kidney grafts augment these regulatory effects. To our knowledge, these studies represent the first demonstration of successful adoptive transfer of tolerance in large animals.

First experience with the use of a recombinant CD3 immunotoxin as induction therapy in pig-to-primate xenotransplantation: the effect of T-cell depletion on outcome.

Background. We have previously reported life-supporting kidney xenograft-survival greater than 80 days using a steroid-free antithymocyte globulin (ATG)-based induction regimen (ATG regimen) in a GalT-KO pig-to-baboon thymokidney (TK) model. We evaluated two induction regimens, a newly developed anti-monkey CD3 recombinant immunotoxin (anti-CD3 rIT) and an anti-human CD2 antibody (LoCD2), by assessing T-cell depletion (TCD) and graft survival. Methods. Four baboons received anti-CD3 rIT; the time course of TCD was studied in two animals and the other two received GalT-KO TK transplants. Two additional baboons underwent GalT-KO TK transplantation after treatment with LoCD2. All other treatments were identical to previous TCD studies with ATG. TCD was assessed by flow-cytometry; renal function was evaluated by serum creatinine and histology. Results. Baboons that received the anti-CD3 rIT died from pneumonia or cardiac failure on days 15 and 23. Both animals in the rIT group died with functioning grafts. Thymokidney grafts from baboons treated with the LoCD2 regimen were rejected by day 14. TCD levels in baboons receiving the anti-CD3 rIT regimen were 150 to 250 cells/&mgr;L for at least 14 days, whereas baboons receiving the LoCD2 recovered to more than 300 cells/&mgr;L by day 7. Conclusions. The newly developed anti-CD3 rIT could be a useful TCD agent in baboons. However, optimal dosage, treatment duration, and bioactivity must be studied to avoid side effects. A LoCD2-based regimen was not effective for preventing xenogeneic rejection. Optimal TCD levels less than 250/&mgr;L during the induction period seem to be important for success of xeno-thymokidney transplantation.

Beneficial effects of perioperative low-dose inhaled carbon monoxide on pulmonary allograft survival in MHC-inbred CLAWN miniature swine.

Background. We have recently reported that perioperative low-dose carbon monoxide (CO) inhalation decreases lung ischemia-reperfusion injury in miniature swine. The aims of this study were to establish a large animal model of pulmonary allograft rejection using polymerase chain reaction-typed major histocompatibility complex (MHC)-inbred CLAWN miniature swine and to examine the effects of CO on allograft survival. Methods. Eleven CLAWN miniature swines received fully MHC-mismatched lungs followed by 12 days of tacrolimus (days 0–11; blood level 35–45 ng/mL). Six recipients received tacrolimus alone (control group). Five recipients were additionally treated with inhaled CO (180 min for donors until graft harvest; 390 min for recipients until 2 hr after reperfusion). Results. All recipients treated with tacrolimus alone uniformly rejected their grafts by postoperative day 63 with development of cytotoxic antidonor antibodies. CO treatment was effective in prolonging allograft survival from a mean of 47±7 to 82±13 days (P=0.017), with one CO-treated animal maintaining function until postoperative day 120. Development of antidonor antibodies and donor-specific responsiveness by cell-mediated lympholysis and mixed lymphocyte reaction assays was delayed in animals that received CO therapy. Furthermore, serum concentrations of proinflammatory cytokines (interleukin-1&bgr; and -6) 1 day after transplant were significantly decreased in the CO-treated group. Conclusions. Fully MHC-mismatched lungs in CLAWN miniature swine were consistently rejected within 63 days, suggesting that this is a robust large animal model ideal for investigating mechanisms and treatment of lung rejection. Perioperative low-dose CO inhalation prolonged graft survival and inhibited antidonor antibody production and was associated with decreased proinflammatory mediators in this model.

Abrogation of Renal Allograft Tolerance in MGH Miniature Swine: The Role of Intra-Graft and Peripheral Factors in Long-Term Tolerance

We have previously demonstrated that long‐term tolerance (LTT) of an MHC class‐I mismatched renal allograft can be achieved with a short course of cyclosporine. In order to examine regulatory mechanisms underlying tolerance in this model, we assessed the contributions of factors within the graft and in the peripheral blood for their relative roles in the maintenance of stable tolerance. Twelve LTT recipients of MHC class‐I mismatched primary kidneys were subjected to a treatment consisting of donor‐specific transfusion followed by leukapheresis, in order to remove peripheral leukocytes, including putative regulatory T cells (Tregs). Following treatment, 2 controls were followed clinically and 10 animals had the primary graft removed and received a second, donor‐MHC‐matched kidney. Neither control animal showed evidence of rejection, while 8 of 10 retransplanted animals developed either rejection crisis or full rejection of the second transplant. In vitro assays confirmed that the removed leukocytes were suppressive and that CD4+Foxp3+ Treg reconstitution in blood and kidney grafts correlated with return to normal renal function in animals experiencing transient rejection crises. These data indicate that components of accepted kidney grafts as well as peripheral regulatory components both contribute to the tolerogenic environment required for tolerance of MHC class‐I mismatched allotransplants.

Hepatocyte growth factor sustains T regulatory cells and prolongs the survival of kidney allografts in major histocompatibility complex-inbred CLAWN-miniature swine.

Background. Although 12 days of high dose of FK506 permits the induction of tolerance of fully major histocompatibility complex (MHC)-mismatched allogeneic kidneys in MGH-miniature swine, we found that the same dose of FK506 is insufficient to induce such tolerance CLAWN-miniature swine. The CLAWN swine model was therefore chosen to study the potential immunoregulatory effects of human-recombinant hepatocyte growth factor (HGF). Methods. Ten CLAWN miniature swine received fully MHC-mismatched kidneys with 12 days (days 0–11) of FK506. Among these 10 recipients, 4 received 7 or 14 days of human-recombinant HGF starting at day 11. Graft function was assessed by daily serum creatinine and biopsies. Immunologic assays, including CD4/CD25 DP and FoxP3+ cells and development of antidonor antibodies, were performed. Results. Without HGF, all six CLAWN recipients developed severe acute rejection (Cre >9 mg/dL) within 3 weeks of transplantation. In contrast, in the four animals that received HGF for 7 to 14 days, stable renal function was observed for more than 50 days, although all grafts were ultimately rejected by postoperative day 80. Percent FoxP3+ cells in the CD4+CD25+ double positive population (T regulatory cells) in peripheral blood monocyte cells decreased in recipients with FK506 induction monotherapy while no reduction was observed in recipients treated with FK506 and HGF. Conclusion. This study demonstrates that in CLAWN swine treated with a dose of FK506 insufficient to induce tolerance across a fully MHC mismatched barrier, a short course of HGF may inhibit acute rejection while maintaining T regulatory cells. To our knowledge, this study provides the first evidence in a large animal transplantation model of HGFs immunoprotective effects.

Current progress in xenogeneic tolerance.

Purpose of reviewThe present review updates the current status of research regarding the immunologic responses of the recipient following xenotransplantation. Additionally, we present the recent progress with attempts to induce xenogeneic tolerance induction. Recent findingsThere continues to be great interest in xenotransplantation. Recently, descriptions of the mechanisms responsible for attempted T-cell xenogeneic tolerance in both large and small animal models have improved xenogeneic graft survivals. Additionally, the cellular signaling mechanisms, such as those involving CD39, CD44, and CD47, are proving to be highly important. Using the mixed chimerism approach to tolerance in xenogeneic model may be encouraging, especially given the recent clarification of the role for macrophage-induced phagocytosis of xenogeneic donor cells. SummaryInduction of tolerance to xenogeneic antigens has been accomplished only in small animals; however, graft survivals in large animal models continue to improve. Further clarification of both the adaptive and innate immune responses to xenogeneic antigens is required for success to continue.

VASCULARIZED COMPOSITE ALLOGRAFT TRANSPLANT SURVIVAL IN MINIATURE SWINE: IS MHC TOLERANCE SUFFICIENT FOR ACCEPTANCE OF EPIDERMIS?

Background We have previously reported that Massachusetts General Hospital miniature swine, which had accepted class I–mismatched kidneys long-term after 12 days of high-dose cyclosporine A, uniformly accepted donor-major histocompatibility complex (MHC)–matched kidneys without immunosuppression but rejected donor MHC-matched split-thickness skin grafts by day 25, without changes in renal graft function or antidonor in vitro responses. We have now tested whether this “split tolerance” would also be observed for the primarily vascularized skin of vascularized composite allografts (VCAs). Methods Group 1 animals (n=3) received donor MHC-matched VCAs less than 70 days after primary kidney transplant (KTx). Group 2 animals (n=3) received a second donor-matched kidney transplant followed by a donor-matched VCA more than 200 days after primary KTx. Results Animals in Group 1 lost the epidermis on days 28, 30, and 40, with all other components of the VCAs remaining viable. Histology showed cellular infiltration localized to dermal-epidermal junction. One of three recipients of VCAs in Group 2, accepted all components of the VCA, including epidermis (>200 days). The other two recipients lost only the epidermis on days 45 and 85, with survival of the remainder of the VCA long-term. Conclusions All tissues of a VCA are accepted long-term on animals tolerant of class I–mismatched kidneys, with the exception of epidermis, the survival of which is markedly prolonged compared with split-thickness skin grafts but not indefinite. Exposure of tolerant animals to second donor-matched kidneys before VCA increases the longevity of the VCA epidermis, suggesting an increase in the immunomodulatory mechanisms associated with tolerance of the kidney.