A phase III study of belatacept versus cyclosporine in kidney transplants from extended criteria donors (BENEFIT-EXT study)

Evaluation of the novel protein kinase C inhibitor sotrastaurin as immunosuppressive therapy after renal transplantation

IMPORTANCE OF THE FIELD

The prevalence of acute renal allograft rejection has decreased substantially in past decades due to new and more specific immunosuppressive compounds but improvements in long-term graft function have not been achieved. There is a large need for new immunosuppressive agents that lack toxicity of current agents such as calcineurin inhibitors but show high synergistic efficiency in preventing rejection processes.

AREAS COVERED IN THIS REVIEW

This review summarizes data concerning the pharmacokinetics, pharmacodynamics and clinical efficacy of the new PKC inhibitor sotrastaurin with a focus on renal transplantation. The article contains information that has been presented at international transplant meetings and congresses and that has been published between 2006 and 2010. Additionally, current ongoing trials are described in detail.

WHAT THE READER WILL GAIN

Immunosuppressive regimens after kidney transplantation consist of a combination of several agents in order to minimize drug toxicity. Therefore, the reader is presented with the most up-to-date/current developments in sotrastaurin applications in Phase I and II trials with emphasis on data maintained from studies that combined sotrastaurin with established agents such as mycophenolic acid and tacrolimus.

TAKE HOME MESSAGE

Several trials are ongoing and planned to determine the optimal immunosuppressive regimen to benefit from sotrastaurin's distinct mechanism of action.

Topical inhibition of T cell costimulatory pathways in draining lymph nodes may suppress allograft rejection

Topical immune suppression is an attractive and practical therapeutic option to prolong survival time of allografts, before the appearance of new agent with higher immunosuppressive efficacy and lower undesirable side effects. The initiation of rejection and outcome of allografts is principally mediated by alloantigen reactive T cells. The activation of T cells requires at least two signals, first is T-cell receptor signal and second is costimulatory signal. T cells that encounter antigen without the appropriate costimulatory signal become anergy or tolerance. Migration of alloantigen-bearing dendritic cells into the T-cell zone of secondary lymphoid tissues, which are essential for primary alloimmune responses, effectively induces T-cell activation and expansion with the presence of two signals. Draining lymph nodes are the promising targets for topical immune suppression, as disrupting lymphatic drainage from the transplanted graft to lymph nodes prevented rejection of skin allografts and lymphadenectomy prolong the survival time of skin and corneal allografts in experimental animals. Therefore, we hypothesize that inhibition of T cell costimulatory pathways in draining lymph nodes could impair the alloantigen-specific immune response and reduce systemic immunosuppressive drugs dose for allografts survival. Further investigations are required to identify most efficient way for draining lymph nodes transfer of costimulatory molecule gene or topical drug administration of costimulatory inhibitors to draining lymph nodes.

Profile of belatacept and its potential role in prevention of graft rejection following renal transplantation

The last several decades have witnessed a substantial decrease in the incidence of acute allograft rejection following kidney transplantation, although commensurate improvements in long-term graft function have not been realized. As a result, the primary focus of new immunosuppressive drug development has expanded to include ease of use and improved side effect profile, including reduced nephrotoxicity, in addition to the more traditional goal of improved short-term outcomes. A number of novel drugs are currently under investigation in Phase I, II, or III clinical trials, primarily to replace the nephrotoxic but highly effective calcineurin inhibitors. Belatacept is a humanized antibody that inhibits T cell costimulation and has shown encouraging results in multiple Phase II and III trials. This article reviews the mechanism of action of belatacept, as well as published and preliminary results of the Phase I-III clinical trials involving this novel immunosuppressive agent.

The immunosuppressive pipeline: meeting unmet needs in liver transplantation

Liver transplantation is now recognized as the treatment of choice for end-stage liver failure. Its success can be attributed largely to the generation of selective immunosuppressive agents, which have resulted in a dramatic reduction in the incidence of acute rejection and improvements in the short- and long-term outcomes of patients. However, the unresolved limitation of current immunosuppressive agents is long-term toxicity, which results in increases in the incidence and severity of cardiovascular, neurological, and renal diseases. Our recent understanding of the pathways of cell activation has resulted in the development of a new generation of immunosuppressive agents that may address the challenges facing transplantation today and allow the minimization or substitution of existing agents. Furthermore, advances in our understanding of the mechanisms of tolerance and the identification of biomarker signatures hold the promise that in some patients transplantation may be able to be performed without the need for long-term immunosuppression (tolerance).

Cloning of the Epstein-Barr virus-related rhesus lymphocryptovirus as a bacterial artificial chromosome: a loss-of-function mutation of the rhBARF1 immune evasion gene

Rhesus macaques are naturally infected with a gammaherpesvirus which is in the same lymphocryptovirus (LCV) genus as and closely related to Epstein-Barr virus (EBV). The rhesus macaque LCV (rhLCV) contains a repertoire of genes identical to that of EBV, and experimental rhLCV infection of naive rhesus macaques accurately models acute and persistent EBV infection of humans. We cloned the LCL8664 rhLCV strain as a bacterial artificial chromosome to create recombinant rhLCV for investigation in this animal model system. A recombinant rhLCV (clone 16 rhLCV) carrying a mutation in the putative immune evasion gene rhBARF1 was created along with a rescued wild-type (rWT) rhLCV in which the rhBARF1 open reading frame (ORF) was repaired. The rWT rhLCV molecular clone demonstrated viral replication and B-cell immortalization properties comparable to those of the naturally derived LCL8664 rhLCV. Qualitatively, clone 16 rhLCV carrying a mutated rhBARF1 was competent for viral replication and B-cell immortalization, but quantitative assays showed that clone 16 rhLCV immortalized B cells less efficiently than LCL8664 and rWT rhLCV. Functional studies showed that rhBARF1 could block CSF-1 cytokine signaling as well as EBV BARF1, whereas the truncated rhBARF1 from clone 16 rhLCV was a loss-of-function mutant. These recombinant rhLCV can be used in the rhesus macaque animal model system to better understand how a putative viral immune evasion gene contributes to the pathogenesis of acute and persistent EBV infection. The development of a genetic system for making recombinant rhLCV constitutes a major advance in the study of EBV pathogenesis in the rhesus macaque animal model.

Overcoming the memory barrier in tolerance induction: molecular mimicry and functional heterogeneity among pathogen-specific T-cell populations

PURPOSE OF REVIEW

This review highlights recent advances in our understanding of the frequency and nature of alloreactivity among memory T-cell populations, and discusses recent successes in experimentally targeting these populations in order to prolong graft survival.

RECENT FINDINGS

Recent studies suggest that not only is alloreactivity present within peripheral T-cell compartments of normal healthy individuals, but cross-reactivity between viral-specific T cells and allotropes may in fact be a very common occurrence. Furthermore, this cross-reactivity functions at the level of molecular mimicry of T-cell receptor recognition. Therapeutics that specifically target cell surface molecules or effector pathways used by memory T cells to mediate graft rejection will likely be required in order to attenuate the donor-reactive memory T-cell response during transplantation.

SUMMARY

A major challenge facing the field over the next decade is to define the heterogeneity that exists within memory T-cell populations that impacts graft survival. Understanding the functional and phenotypic differences that modify the memory T-cell barrier to tolerance induction might allow a strategy in which strength of immunosuppression could be tailored to fit the immunological history of a given transplant recipient in order to minimize nonimmune toxicities, maximize protective immunity, and prolong graft survival.

Co-signals in organ transplantation

PURPOSE OF REVIEW

The nonimmune effects of currently used immunosuppressive drugs result in a high incidence of late graft loss due to nephrotoxicity and death. As an immune-specific alternative to conventional immunosuppressants, new biotechnology tools can be used to block the costimulation signal of T-cell activation.

RECENT FINDINGS

Many experimental studies, particularly preclinical studies in nonhuman primates, have focused on blocking 'classical' B7/CD28 and CD40/CD40L pathways, which are critical in primary T-cell activation, but also on new B7/CD28 and TNF/TNF-R pathways families of costimulatory molecules that can deliver positive or negative costimulation signals to regulate the alloimmune response.

SUMMARY

Belatacept is a new fusion protein derived from CTLA4-Ig that can be used to prevent acute rejection in renal transplantation instead of calcineurin inhibitors. Belatacept can also prevent acute rejection efficiently in humans and, more interestingly, can improve renal function and cardiovascular risk factors in this population.

Emerging viruses in transplantation

PURPOSE OF REVIEW

Several viruses have recently gained importance for the transplant recipient. The purpose of this review is to give an update on emerging viruses in transplantation.

RECENT FINDINGS

BK virus-associated nephropathy (BKVAN) causes graft loss after kidney transplantation. Immunosuppression lowering strategies have now been shown to have benefit in decreasing the incidence of BKVAN. Guidelines for screening, prevention, and therapy have also been developed. Another polyomavirus, JC virus, is a cause of progressive multifocal leukoencephalopathy and has also gained prominence due to the increasing use of monoclonal antibodies in transplant recipients. The significance of human herpesvirus-6 and -7 continues to be debated in the literature, and new data is available on their association with clinical disease. Finally, newly discovered respiratory viruses, such as human metapneumovirus, bocavirus, KI and WU viruses, have also been described in transplant recipients. Human metapneumovirus appears to cause significant respiratory disease whereas the significance of bocavirus, KI and WU viruses in transplant recipients remains uncertain.

SUMMARY

Viral infections, such as polyomaviruses, human herpesvirus-6 and -7 and respiratory viruses, are emerging as causes of significant disease in transplantation. Antiviral options for these viruses are limited, and decreasing immunosuppression is the cornerstone of therapy.

Five-year safety and efficacy of belatacept in renal transplantation

Belatacept is a first-in-class co-stimulation blocker in development for primary maintenance immunosuppression. A Phase II study comparing belatacept with cyclosporine (CsA) for prevention of acute rejection and protection of renal function in kidney transplant recipients demonstrated similar efficacy and significantly higher measured GFR at 1 year for belatacept, but the incidence of posttransplantation lymphoproliferative disorder was higher. Here, we present the results for the extension of this trial, which aimed to assess long-term safety and efficacy of belatacept. Seventy-eight of 102 patients who were receiving belatacept and the 16 of 26 who were receiving CsA completed the long-term extension period. GFR remained stable in patients who were receiving belatacept for 5 years, and the incidences of death/graft loss or acute rejection were low. The frequencies of serious infections were 16% for belatacept and 27% for CsA, and neoplasms occurred in 12% of each group. No patients who were treated with belatacept and one patient who was treated with CsA developed posttransplantation lymphoproliferative disorder during the follow-up period. Serious gastrointestinal disorders occurred more frequently with belatacept (12% belatacept versus 8% CsA), and serious cardiac disorders occurred more frequently with CsA (2% belatacept versus 12% CsA). Pharmacokinetic analyses showed consistent exposure to belatacept over time. CD86 receptor saturation was higher in patients who were receiving belatacept every 4 weeks (74%) compared with every 8 weeks (56%). In conclusion, this study demonstrated high patient persistence with intravenous belatacept, stable renal function, predictable pharmacokinetics, and good safety with belatacept over 5 years.

Alternatives to calcineurin inhibition in renal transplantation: belatacept, the first co-stimulation blocker

In the early 1990s, Linsley and colleagues produced a soluble fusion protein, comprising of the extracellular domain of cytotoxic T lymphocyte antigen (CTLA)4 and the human IgG1 Fc domain. Since then, several hundreds of scientific publications have demonstrated that CTLA4–Ig blocks CD28-mediated co-stimulation and suppresses unwanted T cell-mediated responses in animal models of transplantation, autoimmunity and inflammation. In the past two decades, Bristol-Myers Squibb Co. has developed abatacept, a CTLA4–Ig molecule for treating psoriasis and rheumatoid arthritis, and belatacept, a second-generation, higher affinity CTLA4–Ig molecule for use in kidney transplantation. Belatacept represents a new class of transplantation immunosuppressants and potentially offers clinicians a breakthrough therapy to preserve kidney function in the long term and reduce the side effects of current immunosuppressive therapies.

Belatacept: the promises and challenges of belatacept and costimulatory blockade

The publication of the belatacept phase III studies offers a challenge in balancing benefits such as reduced burden of toxicity against risks such as EBV complications and more T cell mediated rejection.