Current approaches to treatment of antibody-mediated rejection
Stanley C. Jordan,
Ashley A. Vo, Dolly Tyan, Cynthia C. Nast,
Mieko Toyoda,
Stanley C. Jordan
Renal Transplant Program
Transplant Immunology Laboratory
Search for more papers by this authorCynthia C. Nast
Department of Pathology, Cedars-Sinai Medical Center, UCLA School of Medicine, Los Angeles, CA, USA
Search for more papers by this authorStanley C. Jordan,
Ashley A. Vo, Dolly Tyan, Cynthia C. Nast,
Mieko Toyoda,
Stanley C. Jordan
Renal Transplant Program
Transplant Immunology Laboratory
Search for more papers by this authorCynthia C. Nast
Department of Pathology, Cedars-Sinai Medical Center, UCLA School of Medicine, Los Angeles, CA, USA
Search for more papers by this authorStanley C. Jordan, Director, Pediatric Nephrology and Transplant Immunology, Medical Director, Renal Transplant Program, Professor of Pediatrics, UCLA, Cedars-Sinai Medical Center, 8635 W. 3rd St, Suite 590W, Los Angeles, CA 90048, USA
Tel.: 310-423-8282
Fax: 310-423-8208
E-mail: [email protected]
From the Pediatric Symposium at the ATC, Boston, MA – May 15, 2004.
Abstract
Abstract: Antibody-mediated rejection (AMR) has recently been recognized as a significant and unique form of rejection that is not amenable to treatment with standard immunosuppressive medications aimed at modification of T-cell function. Recent interest in AMR and the role of B cells in rejection has been aided by the concomitant discovery that C4d staining of renal biopsy tissue is strongly associated with AMR and a poor prognosis, and the emergence of desensitization protocols for treatment of highly human leukocyte antigen (HLA)-sensitized patients. Treatment options include: (i) the use of high-dose intravenous immunoglobulin (IVIG) which works by blocking anti-HLA antibody activity and through complement inhibition, (ii) the use of Rituxan (anti-CD20 chimeric antibody) to deplete B cells and interfere with antigen-presenting cell (APC) activity of B cells subsequently decreasing T-cell activation, and (iii) the use of plasmapheresis (PE) + anti-cytomegalovirus (CMV) immunoglobulin G (IgG) or IVIG in lower doses. This protocol removes deleterious anti-HLA antibodies and may also allow complexing of anti-HLA with anti-idiotypes in the anti-CMV IgG. Although early, data support the efficacy of all three approaches. Many centers are now designing protocols that utilize a combination of all three agents. In summary, recent advances in the diagnosis and treatment of AMR has allowed for significant improvements in outcomes of a condition usually associated with rapid graft failure. However, much work needs to be done to better understand the immunologic processes leading to AMR and how current therapies can be best used to effectively prevent and treat it.
References
- 1 Patel R, Terasaki PI. Significance of the positive crossmatch test in kidney transplantation. N Engl J Med 1969: 280: 735–739.
- 2 Fredrich R, Toyoda M, Czer LS, et al. The clinical significance of antibodies to human vascular endothelial cells after cardiac transplantation. Transplantation 1999: 67: 385–391.
- 3 Montgomery RA, Hardy MA, Jordan SC, et al. Antibody Working Group on the diagnosis, reporting, and risk assessment for antibody-mediated rejection and desensitization protocols. Consensus opinion from the antibody working group on the diagnosis, reporting, and risk assessment for antibody-mediated rejection and desensitization protocols. Transplantation 2004: 78: 181–185.
- 4 Takemoto SK, Zeevi A, Feng S, et al. National conference to assess antibody-mediated rejection in solid organ transplantation. Am J Transplant 2004: 4: 1033–1041.
- 5 Bohmig GA, Exner M, Habicht A, et al. Capillary C4d deposition in kidney allografts: a specific marker of alloantibody-dependent graft injury. J Am Soc Nephrol 2002: 13: 1091–1099.
- 6 Racusen LC, Colvin RB, Solez K, et al. Antibody-mediated rejection criteria – an addition to the Banff’97 classification of renal allograft rejection. Am J Transplant 2003: 3: 708–714.
- 7 Montgomery RA, Zachary AA, Racusen LC, et al. Plasmapheresis and intravenous immune globulin provides effective rescue therapy for refractory humoral rejection and allows kidneys to be successfully transplanted into cross-match-positive recipients. Transplantation 2000: 70: 887–895.
- 8 Schweitzer EJ, Wilson JS, Fernandez-Vina M, et al. A high panel-reactive antibody rescue protocol for cross-match-positive live donor kidney transplants. Transplantation 2000: 70: 1531–1536.
- 9 Tyan DB, Li VA, Czer L, Trento A, Jordan SC. Intravenous immunoglobulin suppression of HLA alloantibody in highly sensitized transplant candidates and transplantation with a histoincompatible organ. Transplantation 1994: 57: 553–562.
- 10 Jordan SC, Cunningham-Rundles C, McEwan R. Utility of IVIG in kidney transplantation. Am J Transplant 2003: 3: 653–664.
- 11 Becker YT, Becker BN, Pirsch JD, Sollinger HW. Rituximab as treatment for refractory kidney transplant rejection. Am J Transplant 2004: 4: 996–1001.
- 12 Montgomery R, Simpkins C, Zachary A, et al. Anti-CD20 rescue therapy for kidneys undergoing antibody-mediated rejection (abstract). Am J Transplant 2004: 4: 258.
- 13 Kazatchkine MD, Kaveri SV. Immunomodulation of autoimmune and inflammatory diseases with intravenous immune globulin. N Engl J Med 2001: 345: 747–755.
- 14 Jordan SC, Tyan DB. Intravenous gamma globulin (IVIG) inhibits lymphocytotoxic antibody in vitro. J Am Soc Nephrol 1991: 2: 803.
- 15 Yadin O, Sekiya N, Ettenger R. Intravenous immunoglobulin (IVIg) reduces antibody responses in highly sensitized dialysis patients. J Am Soc Nephrol 1992: 3: 887.
- 16 Glotz D, Haymann JP, Niaudet P, Lang P, Druet P, Bariety J. Successful kidney transplantation of immunized patients after desensitization with normal human polyclonal immunoglobulins. Transplant Proc 1995: 27: 1038–1039.
- 17 Glotz D, Antoine C, Julia P, et al. Intravenous immunoglobulins and transplantation for patients with anti-HLA antibodies. Transpl Int 2003 [December 19, Epub ahead of print].
- 18 McIntyre JA, Higgins N, Britton R, et al. Utilization of intravenous immunoglobulin to ameliorate alloantibodies in a highly sensitized patient with a cardiac assist device awaiting heart transplantation. Fluorescence-activated cell sorter analysis. Transplantation 1996: 62: 691–693.
- 19 De Marco T, Damon LE, Colombe B, Keith F, Chatterjee K, Garovoy MR. Successful immunomodulation with intravenous gamma globulin and cyclophosphamide in an alloimmunized heart transplant recipient. J Heart Lung Transplant 1997: 16: 360–365.
- 20 Jordan SC, Quartel AW, Czer LS, et al. Post-transplant therapy using high-dose human immunoglobulin (intravenous gamma-globulin) to control acute humoral rejection in renal and cardiac allograft recipients and potential mechanism of action. Transplantation 1998: 66: 800–805.
- 21 Casadei DH, del C Rial M, Opelz G, et al. A randomized and prospective study comparing treatment with high-dose intravenous immunoglobulin with monoclonal antibodies for rescue of kidney grafts with steroid-resistant rejection. Transplantation 2001: 71: 53–58.
- 22 Luke PP, Scantlebury VP, Jordan ML, et al. Reversal of steroid- and anti-lymphocyte antibody-resistant rejection using intravenous immunoglobulin (IVIG) in renal transplant recipients. Transplantation 2001: 72: 419–422.
- 23 Jordan SC, Tyan D, Stablein D, et al. Evaluation of IVIG as an agent to lower allosensitization and improve transplantation in highly-sensitized adult patients: report of the NIH IG02 trial. J Am Soc Nephrol 2004: 15: 3256–3262.
- 24 Jordan SC, Vo A, Nast C, et al. A four year follow up of rejection patterns, treatment and outcomes in highly-HLA sensitized crossmatch positive patients transplanted with IVIG desensitization (abstract). Am J Transplant 2004: 4: 256.
- 25 Lennertz A, Fertmann J, Thomae R, et al. Plasmapheresis in C4d-positive acute humoral rejection following kidney transplantation: a review of 4 cases. Ther Apher Dial 2003: 7: 529–535.
- 26 Gloor J, DeGoey S, Pineda A, et al. Overcoming a positive crossmatch in living-donor kidney transplantation. Am J Transplant 2003: 3: 1017–1023.
- 27 Rocha PN, Butterly DW, Greenberg A, et al. Beneficial effect of plasmapheresis and intravenous immunoglobulin on renal allograft survival of patients with acute humoral rejection. Transplantation 2003: 75: 1490–1495.
- 28 Shah A, Nadasdy T, Arend L, et al. Treatment of C4d-positive acute humoral rejection with plasmapheresis and rabbit polyclonal antithymocyte globulin. Transplantation 2004: 77: 1399–1405.
- 29 Toyoda M, Petrosyan A, Pao A, Radha R, Jordan SC. A hyperimmune anti-cytomegalovirus immunoglobulin (Cytogam®) induces apoptosis in B-cells, inhibits the MLR and immunoglobulin production in vitro to a degree similar to or greater than pooled polyclonal gamma globulin (IVIG). (Abstract) Am J Transplant 2005: 5: in press.
- 30 Reff M, Carner K, Chambers KS, et al. Depletion of B cells in vivo by a chimeric mouse human monoclonal antibody to CD20. Blood 1994: 83: 435–445.
- 31 Piro LD, White CA, Grillo-Lopez AJ, et al. Extended rituximab (anti-CD20 monoclonal antibody) therapy for relapsed or refractory low-grade or follicular non-Hodgkin's lymphoma. Ann Oncol 1999: 10: 655–661.
- 32 Maloney DG, Grillo-Lopez AJ, Bodkin DJ, et al. IDEC-C2B8: results of a phase I multiple dose trial in patients with relapsed non-Hodgkin's lymphoma. J Clin Oncol 1997: 15: 3266–3274.
- 33 McLaughlin P, Grillo-Lopez AJ, Link BK, et al. Rituximab chimeric anti-CD20 monoclonal antibody therapy for relapsed indolent lymphoma: half of patients respond to a four-dose treatment program. J Clin Oncol 1998: 16: 2825–2833.
- 34 Edwards JC, Szczepanski L, Szechinski J, et al. Efficacy of B-cell-targeted therapy with rituximab in patients with rheumatoid arthritis. N Engl J Med 2004: 350: 2572–2581.
- 35 Looney RJ, Anolik JH, Campbell D, Felgar RE, Young F, Arend LJ, Sloand JA, Rosenblatt J, Sanz I. B cell depletion as a novel treatment for systematic lupus erythematosus: a phase I/II dose-escalation trial of rituximab. Arthritis Rheum 2004: 50: 2580–2589.
- 36 Anolik J, Campbell D, Felgar R, et al. The relationship of FcγRIIIa genotype to degree of B cell depletion by Rituximab in the treatment of systemic lupus erythematosus. Arthritis Rheum 2003: 48: 455–459.
- 37 Leandro MJ, Edwards JCW, Cambridge G. Clinical outcome in 22 patients with rheumatoid arthritis treated with B lymphocyte depletion. Ann Rheum Dis 2002: 61: 883–888.
- 38 Feuerstein M, Leonard JP, Cooper N, Bussel JB. The use of Rituximab in 28 adults with chronic immune thrombocytopenic purpura (ITP). Proc Am Soc Clin Oncol 2003: 22: 187.
- 39 Gupta N, Kavuru S, Patel D, et al. Rituximab-based chemotherapy for steroid-refractory autoimmune hemolytic anemia of chronic lymphocytic leukemia. Leukemia 2002: 16: 2092–2095.
- 40 Jordan SC, Vo A, Bunnapradist S, et al. Intravenous gammaglobulin treatment inhibits crossmatch positivity and allows for successful transplantation of incompatible organs in living-donor and cadaver recipients. Transplantation 2003: 76: 631–636.
- 41 Garrett HE Jr, Groshart K, Duvall-Seaman D, Combs D, Suggs R. Treatment of humoral rejection with rituximab. Ann Thorac Surg 2002: 74: 1240–1242.
- 42 Toyoda M, Zhang X, Petrosian A, Galera OA, Wang SJ, Jordan SC. Modulation of immunoglobulin production and cytokine mRNA expression in peripheral blood mononuclear cells by intravenous immunoglobulin. J Clin Immunol 1994: 14: 178–189.
- 43 Marchalonis JJ, Kaymaz H, Dedeoglu F, Schluter SF, Yocum DE, Edmundson AB. Human autoantibodies reactive with synthetic autoantigens from T-cell receptor beta chain. Proc Natl Acad Sci U S A 1992: 89: 3325–3329.
- 44 Samuelsson A, Towers TL, Ravetch JV. Anti-inflammatory activity of IVIG mediated through the inhibitory Fc receptor. Science 2001: 291: 484–486.
- 45 Hurez V, Kaveri SV, Mouhoub A, et al. Anti-CD4 activity of normal human immunoglobulin G for therapeutic use (intravenous immunoglobulin, IVIg). Ther Immunol 1994: 1: 269–277.
- 46 Magee JC, Collins BH, Harland RC, et al. Immunoglobulin prevents complement-mediated hyperacute rejection in swine-to-primate xenotransplantation. J Clin Invest 1995: 96: 2404–2412.
- 47 Lutz HU, Stammler P, Bianchi V, et al. Intravenously applied IgG stimulates complement attenuation in a complement-dependent autoimmune disease at the amplifying C3 convertase level. Blood 2004: 103: 465–472.
- 48 Wada J, Shintani N, Kikutani K, Nakae T, Yamauchi T, Takechi K. Intravenous immunoglobulin prevents experimental autoimmune myositis in SJL mice by reducing anti-myosin antibody and by blocking complement deposition. Clin Exp Immunol 2001: 124: 282–289.
- 49 Blasczyk R, Westhoff U, Grosse-Wilde H. Soluble CD4, CD8, and HLA molecules in commercial immunoglobulin preparations. Lancet 1993: 341: 789–790.
- 50 Toyoda M, Pao A, Petrosian A, Jordan SC. Pooled human immune globulin (IVIG) modulates surface molecule expression and induces apoptosis in human B-cells. Am J Transplant 2003: 3: 156–166.
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