Use of bortezomib to treat anti-HLA antibodies in renal transplant patients: a single-center experience

Desensitization With Proteasome Inhibition and Costimulation Blockade Modulates the Xenoreactive Humoral Response in Nonhuman Primate Xenotransplantation

INTRODUCTION

"Delayed" antibody-mediated xenograft rejection is one of the most important obstacles to clinical application of pig organ xenografts. The aim of this study was to assess the impact of a structured desensitization regimen including proteasome inhibition and next-generation costimulation blockade on xenoreactive antibodies.

METHODS

Rhesus macaques with moderate-high pre-treatment xenoreactive antibody titers (N = 2) were selected. Recipients received twice-weekly carfilzomib (20 mg/m2), anti-CD154 (20 mg/kg) every other week, and CD4 and CD20 lymphocyte cell depletion. Bone marrow was acquired to assess plasma cell depletion in response to proteasome inhibition. A flow cytometry-based xenoreactive crossmatch assay was performed to assess levels of circulating xenoreactive antibodies.

RESULTS

The desensitization regimen resulted in a >50% depletion of CD38+CD27+ bone marrow plasma cells; these changes were progressive over the duration of the desensitization treatment period. The desensitization strategy and plasma cell depletion resulted in a progressive reduction in anti-pig IgG antibodies. Following xenotransplantation, both desensitized recipients demonstrated superior graft survival to a highly xenoreactive recipient (MST 30 days vs. 6 days), but neither desensitized recipient experienced prolonged graft survival.

CONCLUSIONS

A structured desensitization regimen including proteasome inhibition and costimulation blockade results in plasma cell depletion and resultant reduction in circulating xenoreactive anti-pig IgG antibodies, with a modest improvement in xenograft survival. This desensitization regimen has promise for pig-to-NHP xenotransplant models.

Elevated number of IL-21+ TFH and CD86+CD38+ B cells in blood of renal transplant recipients with AMR under conventional immuno-suppression

The objective of this study is to detect the number of different subsets of TFH and B cells in renal transplant recipients (RTR) with antibody-mediated acute rejection (AMR), acute rejection (AR), chronic rejection (CR), or transplant stable (TS). The present study was a prospective study. The numbers of ICOS +, PD-1+ and IL-21+ TFH, CD86+, CD38+, CD27+, and IgD- B cells in 21 patients with end-stage renal disease (ESRD) and post-transplant times were measured by flow cytometry. The level of serum IL-21 was detected by ELISA. The numbers of circulating CD4+CXCR5+, CD4+CXCR5+ICOS+, CD4+CXCR5+PD-1+, CD4+CXCR5+IL-21+ TFH, CD19+CD86+, and CD19 +CD86+CD38+ B cells as well as the level of serum IL-21 in the AMR, AR, and CR groups at post-transplantation were significantly higher than those at pre-transplantation. In contrast, the number of circulating CD19+CD27+IgD B cells was significantly increased in the TS groups in respect to the other groups. Moreover, the numbers of circulating CD4+CXCR5+IL-21+ TFH cells, CD19+CD86+CD38+ B cells as well as the level of serum IL-21 were positive related to the level of serum Cr while showing negative correlated with the values of eGFR in the AMR groups at post-transplantation for 4 and 12 weeks. Circulating TFH cells may be a biomarker in RTR with AMR, which can promote the differentiation of B cells into plasma cells by activating B cells, thereby promoting disease progression.

Novel surgical techniques, regenerative medicine, tissue engineering and innovative immunosuppression in kidney transplantation

On the 60th anniversary of the first successfully performed renal transplantation, we summarize the historical, current and potential future status of kidney transplantation. We discuss three different aspects with a potential significant influence on kidney transplantation progress: the development of surgical techniques, the influence of regenerative medicine and tissue engineering, and changes in immunosuppression. We evaluate the standard open surgical procedures with modern techniques and compare them to less invasive videoscopic as well as robotic techniques. The role of tissue engineering and regenerative medicine as a potential method for future kidney regeneration or replacement and the interesting search for novel solutions in the field of immunosuppression will be discussed. After 60 years since the first successfully performed kidney transplantation, we can conclude that the greatest achievements are associated with the development of surgical techniques and with planned systemic immunosuppression.

The lack of Lazarus effect with proteasome inhibition

There have been marked improvements in the short- and long-term outcomes for children after renal transplantation over the past two decades with superior quality and quantity of life. It is encouraging to see increased patient and renal allograft survival rates with initially lower acute renal allograft rejection rates due to improved matching and immunosuppressive regimens. Unfortunately, longer-term renal allograft survival remains unchanged with chronic allograft injury from both immune and non-immune causes, resulting in chronic allograft dysfunction, morbidity from chronic kidney disease, and eventual renal allograft loss. Acute and chronic antibody-mediated rejection remains a clinical dilemma with a growing evidence base of its treatment, including proteasome inhibition using intravenous bortezomib. The future goal is to reduce chronic allograft dysfunction and make renal transplants last longer for pediatric renal transplant recipients who may require retransplantation during their childhood and adult lives, which can become successively more difficult due to sensitization.

Bortezomib in kidney transplantation

PURPOSE OF REVIEW

The purpose of this review is to evaluate the effectiveness of bortezomib in the recent literature for the prevention and treatment of kidney transplant rejection.

RECENT FINDINGS

Several studies have analyzed bortezomib alone and in comparison to more traditional immunosuppressive agents during the last 2 years. If administered prior to transplant or soon thereafter, bortezomib appears to lower donor-specific antibody levels and improves graft survival. Its role as a treatment option for antibody-mediated rejection after transplant remains unclear, with limited evidence supporting its long-term success.

SUMMARY

Bortezomib appears to be a promising early desensitizing agent in the world of kidney transplantation and high short-term success rates have been observed. However, additional randomized trials would be useful to more conclusively demonstrate its effectiveness and optimal administration time in relation to transplant surgery.

Biologics in renal transplantation

The biologics used in transplantation clinical practice include several monoclonal and polyclonal antibodies aimed at specific cellular receptors. The effect of their mechanisms of action includes depleting or blocking specific cell subpopulations, complement system, or removing circulating preformed antibodies and blocking their production. They are used in induction, desensitization ABO-incompatible renal transplantation, rescue therapy of steroid-resistant acute rejection, treatment of posttransplant recurrence of primary disease such as nephrotic syndrome or atypical hemolytic-uremic syndrome, and in late humoral rejection. There are various indications for the use of biologic agents before and early or late after renal transplantation in both high- and low-risk recipients. In the latter situation, the biologics-based induction is used to further minimize immunosuppression maintenance. The targets of several biologic agents are present across a variety of cells, and manipulation of the immune system with biologics may be associated with significant risk of acute and late-onset adverse events; therefore, clinical risk-versus-benefit ratio must be carefully balanced in every case. Several trials on novel biologics are reported in adults but not in the pediatric population.