Novel therapies to modulate the inflammatory alloresponse in renal grafts (CTOT-21)

Project: Research project

Project Details


An important cause of late graft loss is the development of subclinical alloresponses that ultimately injure the graft irreversibly. Inflammation is commonly seen in protocol biopsies of stably functioning grafts and is associated with progressive renal dysfunction. Therapeutic targeting of inflammation in stable grafts with novel agents/approaches has several advantages: (1) reverse the gradual deterioration of renal function and prevent graft loss; (2) provide a practical, safe and more precise model to test the efficacy of new therapies. The concept underlying our proposal is the control the inflammatory alloresponses in the graft through harnessing the regulatory mechanisms of the immune system. We propose to increase the number and/or activity of regulatory T cells (Tregs) by either the infusion of ex vivo expanded Tregs or by inhibiting the IL6 pathway to expand the Treg network. The trials will be performed in transplant recipients who undergo protocol biopsies at 6 months. We propose two studies: a trial of infusions of ex vivo expanded Tregs (TASK) and a trial with tocilizumab, a humanized anti-IL6 receptor antibody (TRAIL). The aim of the TASK trial is to test the safety and potential efficacy of infused ex vivo expanded polyclonal (poly) or donor (antigen) specific (dar) Tregs vs. controls (no additional therapy) in grafts with cellular inflammation. Deuterium-labeled Tregs allow detection of the infused Tregs in both the circulation and the renal allograft. Additional mechanistic studie including gene expression profiling of blood and kidney as well as analysis of urine cytokines may provide robust efficacy signals. This trial will allow us to make 3 important observations: (1) determine the safety of the infusion of Tregs in kidney transplant recipients; (2) determine if infused Treg (poly or dar) reduce cellular inflammation in the graft and (3) determine if darTregs are superior to polyTregs (clinically or mechanistically). The second s
Effective start/end date11/1/186/30/21


  • University of California, San Francisco (11156sc // U01AI113362)
  • National Institute of Allergy and Infectious Diseases (11156sc // U01AI113362)


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