Allan D. Kirk scite author profile

Establishing long-term allograft acceptance without the requirement for continuous immunosuppression, a condition known as allograft tolerance, is a highly desirable therapeutic goal in solid organ transplantation. Determining which recipients would benefit from withdrawal or minimization of immunosuppression would be greatly facilitated by biomarkers predictive of tolerance. In this study, we identified the largest reported cohort to our knowledge of tolerant renal transplant recipients, as defined by stable graft function and receiving no immunosuppression for more than 1 year, and compared their gene expression profiles and peripheral blood lymphocyte subsets with those of subjects with stable graft function who are receiving immunosuppressive drugs as well as healthy controls. In addition to being associated with clinical and phenotypic parameters, renal allograft tolerance was strongly associated with a B cell signature using several assays. Tolerant subjects showed increased expression of multiple B cell differentiation genes, and a set of just 3 of these genes distinguished tolerant from nontolerant recipients in a unique test set of samples. This B cell signature was associated with upregulation of CD20 mRNA in urine sediment cells and elevated numbers of peripheral blood naive and transitional B cells in tolerant participants compared with those receiving immunosuppression. These results point to a critical role for B cells in regulating alloimmunity and provide a candidate set of genes for wider-scale screening of renal transplant recipients.

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CTLA4-Ig and anti-CD40 ligand prevent renal allograft rejection in primates

Kirk

Harlan²,

Armstrong³

et al. 1997

Proc. Natl. Acad. Sci. U.S.A.

886

529

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Selective inhibition of T cell costimulation using the B7-specific fusion protein CTLA4-Ig has been shown to induce long-term allograft survival in rodents. Antibodies preventing the interaction between CD40 and its T cell-based ligand CD154 (CD40L) have been shown in rodents to act synergistically with CTLA4-Ig. It has thus been hypothesized that these agents might be capable of inducing long-term acceptance of allografted tissues in primates. To test this hypothesis in a relevant preclinical model, CTLA4-Ig and the CD40L-specific monoclonal antibody 5C8 were tested in rhesus monkeys. Both agents effectively inhibited rhesus mixed lymphocyte reactions, but the combination was 100 times more effective than either drug alone. Renal allografts were transplanted into nephectomized rhesus monkeys shown to be disparate at major histocompatibility complex class I and class II loci. Control animals rejected in 5-8 days. Brief induction doses of CTLA4-Ig or 5C8 alone significantly prolonged rejection-free survival (20-98 days). Two of four animals treated with both agents experienced extended (>150 days) rejection-free allograft survival. Two animals treated with 5C8 alone and one animal treated with both 5C8 and CTLA4-Ig experienced late, biopsy-proven rejection, but a repeat course of their induction regimen successfully restored normal graft function. Neither drug affected peripheral T cell or B cell counts. There were no clinically evident side effects or rejections during treatment. We conclude that CTLA4-Ig and 5C8 can both prevent and reverse acute allograft rejection, significantly prolonging the survival of major histocompatibility complex-mismatched renal allografts in primates without the need for chronic immunosuppression.Unmodified organ transplantation between genetically nonidentical individuals invariably results in immunological rejection of the organ through T cell-dependent mechanisms. Successful transplantation of allogeneic organs has therefore required the administration of drugs directed at suppressing recipient T cell function. Both calcineurin phosphatase inhibitors and glucocorticosteroids are used clinically, and both prevent the T cell-mediated release of activating cytokines, particularly IL-2. Therapy with these agents is imperfect, however. Both act by impairing T cell antigen receptor (TCR) signal transduction, the sole mediator of T cell antigen recognition, thus minimizing the potential for specific immune interaction between the recipient and donor. They also act on all T cells indiscriminately. In addition, the effect of these drugs is not lasting, such that cessation of immunosuppression has generally resulted in graft loss even after prolonged rejection-free survival. Thus, transplant patients are required to suffer the consequences of nonspecific immunosuppression to avoid rejection. These consequences include an increased risk to the patient of infection and malignancy as well as significant drug related expense and toxicity.Data establishing that T cell activation require...

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Treatment with humanized monoclonal antibody against CD154 prevents acute renal allograft rejection in nonhuman primates

Kirk

Burkly

Batty

et al. 1999

Nat Med

774

500

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CD154 is the ligand for the receptor CD40. This ligand-receptor pair mediates endothelial and antigen-presenting cell activation, and facilitates the interaction of these cells with T cells and platelets. We demonstrate here that administration of a CD154-specific monoclonal antibody (hu5C8) allows for renal allotransplantation in outbred, MHC-mismatched rhesus monkeys without acute rejection. The effect persisted for more than 10 months after therapy termination, and no additional drug was required to achieve extended graft survival. Indeed, the use of tacrolimus or chronic steroids seemed to antagonize the anti-rejection effect. Monkeys treated with antibody against CD154 remained healthy during and after therapy. The mechanism of action does not require global depletion of T or B cells. Long-term survivors lost their mixed lymphocyte reactivity in a donor-specific manner, but still formed donor-specific antibody and generated T cells that infiltrated the grafted organ without any obvious effect on graft function. Thus, therapy with antibody against CD154 is a promising agent for clinical use in human allotransplantation.

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Allan D. Kirk

Identification of a B cell signature associated with renal transplant tolerance in humans

CTLA4-Ig and anti-CD40 ligand prevent renal allograft rejection in primates

Treatment with humanized monoclonal antibody against CD154 prevents acute renal allograft rejection in nonhuman primates

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