Cardiac allograft tolerance can be achieved in nonhuman primates by donor bone marrow and kidney cotransplantation.

Long-term, immunosuppression-free allograft survival has been induced in human and nonhuman primate (NHP) kidney recipients after nonmyeloablative conditioning and donor bone marrow transplantation (DBMT), resulting in transient mixed hematopoietic chimerism. However, the same strategy has consistently failed in NHP heart transplant recipients. Here, we investigated whether long-term heart allograft survival could be achieved by cotransplanting kidneys from the same donor.

Where Are All the Clinical Trials for Chronic Rejection?

Chronic rejection is arguably the main obstacle to long-term graft survival. Yet, clinical trials focusing on this condition are disappointingly scarce. Significant advances in treating chronic rejection cannot happen if there is no conduit for testing novel therapies.

Complement and T cell activation in transplantation.

The complement system plays a critical role in modulating adaptive T cell responses. Coordination of the proinflammatory signaling cascade and complement regulators permits efficient T cell priming and survival, while minimizing off-target damage to healthy host cells. In the context of transplantation, anti-donor T cell immunity remains a barrier to long term graft health and complement-targeted therapies have shown the potential to significantly improve patient outcomes.

Kidney function after liver transplantation: the contrasting roles of inflammation and tubular repair.

Kidney injury is a significant complication in end-stage liver disease (ESLD), leading to increased morbidity and mortality. While liver transplant alone (LTA) can promote kidney recovery (KR), non-recovery associates with adverse outcomes, but the underlying pathophysiology is still unclear. We studied 10 LTA recipients with or without kidney failure (KF) and measured serum levels of OPN and TIMP-1 (previously identified predictors of KR), 92 proinflammatory proteins (Olink), and urinary cell populations.

Glycolysis Changes in Alloreactive Memory B Cells in Highly Sensitized Kidney Transplant Recipients Undergoing Desensitization Therapy.

Despite the growing use of desensitization strategies, hyperimmune patients remain at high risk of antibody-mediated rejection suggesting that, even when donor-specific antibodies (DSA) are effectively depleted, anti-donor specific B cells persist. We included 10 highly sensitized recipients that underwent desensitization with plasmapheresis and B cell depletion prior to kidney transplantation. We quantified changes in DSA (luminex), total B-cell subsets (flow cytometry), anti-donor HLA B cells (fluorospot), and single-cell metabolism in serially collected samples before desensitization, at the time of transplant, and at 6 and 12 months thereafter.

From stem cells to regulatory T cells: A tale of plasticity.

In this issue, Yano et al. present a method to obtain suppressive regulatory T (Treg) cells from human induced pluripotent stem cells (hiPSCs). This approach has the potential to address the low Treg cell yields of current ex vivo Treg cell expansion and induction protocols, an unmet challenge for autologous Treg cell treatments.

Recurrent complement-mediated Hemolytic uremic syndrome after kidney transplantation.

Hereditary forms of hemolytic uremic syndrome (HUS), formerly known as atypical HUS, typically involve mutations in genes encoding for components of the alternative pathway of complement, therefore they are often referred to as complement-mediated HUS (cHUS). This condition has a high risk of recurrence in the transplanted kidney, leading to accelerated graft loss. The availability of anti-complement component C5 antibody eculizumab has enabled successful transplantation with a notably reduced recurrence rate and improved prognosis.