Abstract
Introduction: The pivotal role of costimulatory pathways in regulating T-cell activation versus tolerance has stimulated tremendous interest in their manipulation for therapeutic purposes. Of these, the CD28–B7 pathway is arguably the most important and best studied. Therapeutic targets of CD28 are currently used in the treatment of melanoma, autoimmune diseases and in transplantation.
Areas covered: In this review, we summarize our current knowledge of CD28 and cytotoxic T-lymphocyte antigen-4 (CTLA-4) signaling, and review the current state and challenges of harnessing them to promote transplant tolerance.
Expert opinion: Despite the success of belatacept, a first-in-class CTLA-4 fusion protein now clinically used in transplantation, it is apparent that we have only scratched the surface in understanding the complexities of how costimulatory pathways modulate the immune system. Our initial assumption that positive costimulators activate effector T cells and prevent tolerance, while negative costimulators inhibit effector T cells and promote tolerance, is clearly an oversimplified view. Indeed, belatacept is not only capable of blocking deleterious CD28–B7 interactions that promote effector T-cell responses but can also have undesired effects on tolerogenic regulatory T-cell populations.
Declaration of interest
This research was supported by the following grants: National Kidney Foundation and American Heart Association to Melissa Yeung; Bristol-Meyers Squibb and NIH R56 AI101150-0141 to N Najafian. The authors have also received support from NIH, the American Society of Transplantation and the American Society of Nephrology.
Notes
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