The kinetics of tolerance induction by nondepleting anti-CD4 monoclonal antibody (RIB 5/2) plus intravenous donor alloantigen administration

BACKGROUND: CD4+ T cells play an essential role in allograft rejection. The monoclonal anti-rat CD4 antibody, RIB 5/2, has been shown to modulate the CD4 glycoprotein without eliminating the recipient T cells. We have successfully induced tolerance to rat heart allografts by recipient pretreatment with a single dose of RIB 5/2 plus intravenous administration of donor splenocytes. In this study, we explored whether this potent regimen could induce tolerance to the more resistant kidney and skin allografts. Furthermore, we examined the kinetics and requirements for tolerance to be met by a single dose of RIB 5/2 plus i.v. alloantigen. METHODS: The efficacy of a single i.p. dose of 20 mg/kg RIB 5/2 plus i.v. donor antigen (25x10(6) splenocyte) pretreatment 0, 21, or 40 days before receipt of an MHC-mismatched Lewis (RT1l) to Buffalo (RT1b) rat cardiac, renal, or skin allograft was studied. Another group of Buffalo recipients treated with RIB 5/2 plus an i.v. alloantigen +/-thymectomy received kidney transplants after 40 days. Attempts to prevent tolerance used interleukin-2 or prior sensitization. Mixed lymphocyte cultures, cytotoxic assays, and precursor frequencies of helper and cytotoxic cells, by limiting dilution analysis, serially measured in vitro cell-mediated immunity. RESULTS: RIB 5/2 administration combined with i.v. alloantigen 21 days before induced tolerance to heart and kidney allografts but did not prolong skin graft survival. In contrast, kidney allografts delayed for 40 days after pretreatment were acutely rejected and survival was not affected by the thymectomy. MLC, CTL, and pTH, and pCTL precursor frequencies from recipients of long-term grafts were specifically suppressed to donor, but not third party, alloantigen. CONCLUSION: A single dose of the nondepleting anti-CD4 monoclonal antibody, RIB 5/2, plus i.v. alloantigen is a potent inducer of tolerance to heart and kidney, but not skin, allografts. The RIB 5/2-induced donor unresponsiveness to a delayed kidney or cardiac allograft is time dependent but can be prolonged if specific alloantigen is present. Suppression of cell-mediated allo-immune responsiveness correlates with allograft acceptance.     

Organ transplant specificity of tolerance to skin grafts with heart or kidney grafts plus nondepleting anti-CD4 monoclonal antibody (RIB 5/2) and intravenous donor alloantigen administration

BACKGROUND: CD4+ T cells play an essential role in allograft rejection. Monoclonal anti-rat CD4 antibody, RIB 5/2, has been shown to modulate the CD4 glycoprotein without eliminating recipient T cells. A single dose of monoclonal anti-rat CD4 antibody RIB 5/2 plus donor splenocytes results in donor-specific unresponsiveness to heart and kidney allografts, but not skin allografts. This study examined whether tolerance to the more resistant skin graft could also be achieved with RIB 5/2. METHODS: Buffalo (RT1(b)) recipients were given a single dose (20 mg/kg) of monoclonal antibody RIB 5/2 IP plus IV Lewis (RT1(l)) splenocytes (25 x 10(6)) 21 days before Lewis heart, kidney, or skin grafts. In addition, Lewis skin was grafted either simultaneously with or after long- term Lewis heart or kidney allograft acceptance (>50 days). RESULTS: While IV alloantigen plus RIB 5/2 results in long-term acceptance of both heart and kidney, skin allografts are rejected when transplanted alone. Simultaneous transplantation with a Lewis kidney, but not with a Lewis heart, resulted in long-term Lewis skin graft acceptance. However, recipients tolerant to Lewis kidney or heart alone will not accept subsequent Lewis skin grafts, while recipients of simultaneous Lewis skin and kidney grafts subsequently accept a second Lewis, but not third-party Brown Norway (RT1(n)), skin graft. CONCLUSION: RIB 5/2 plus Lewis donor splenocytes tolerize for donor-specific heart and kidney but not skin grafts. However, Lewis skin grafted simultaneously with a Lewis kidney, but not Lewis heart, is accepted and protects a subsequent donor-specific Lewis skin graft.     

Induction of transplantation tolerance in adults using donor antigen and anti-CD4 monoclonal antibody.

The T-cell-mediated immune response usually results in the rapid destruction of organ allografts transplanted between murine strains incompatible for major and minor histocompatibility antigens. This response may be modified by pretreatment with either donor-specific antigen or anti-CD4 monoclonal antibody. Previous work by others has shown that combined treatment of mice with soluble protein antigens and anti-CD4 monoclonal antibody can produce antigen-specific B cell unresponsiveness that continues long after the nonspecific immunosuppressive effect of the mAb treatment has resolved. Following this principle we have shown that adult C3H/He mice can be made specifically unresponsive to vascularized C57BL/10 cardiac allografts by pretreating the recipient with donor alloantigen under the cover of a brief course of mAb against CD4. A full-dose response analysis shows that the dose of mAb is critically important for the successful induction of tolerance. Tolerance induction using this protocol is dependent on treatment with donor major histocompatibility complex antigens and occurs in the presence of marked depletion but not complete elimination of the CD4+ T cell subset. The unresponsiveness to alloantigen is antigen specific, as determined by the ineffectiveness of third-party (C57BL/10) alloantigen when combined with anti-CD4 mAb to induce long-term survival of BALB/c allografts in C3H/He recipients. The tolerant state is specific and effective in the long-term as indicated by the specific acceptance of C57BL/10 skin grafts in recipients with surviving C57BL/10 cardiac allografts. This study provides a simple method for the successful induction of specific transplantation tolerance in the adult across a full H-2 major and minor antigen mismatch strain combination. The results illustrate the important role of the CD4 molecule in the T cell response to alloantigen in vivo and suggest possibilities for the therapeutic manipulation of complex immune reactions.     

Induction of operational tolerance and generation of regulatory cells after intratracheal delivery of alloantigen combined with nondepleting anti-CD4 monoclonal antibody

BACKGROUND: We previously showed that intratracheal delivery of alloantigen induced prolonged survival of fully allogeneic cardiac grafts in mice. Here, this treatment protocol was combined with nondepleting anti-CD4 monoclonal antibody (mAb) to induce operational tolerance. METHODS: CBA (H-2k) mice were pretreated with intratracheal delivery of whole splenocytes from C57BL/10 (H-2b) mice or a 15-mer Kb peptide, with or without intraperitoneal administration of nondepleting anti-CD4 mAb (YTS177). Seven days later, C57BL/10 hearts were transplanted into the pretreated CBA mice. In addition, some naive CBA mice underwent adoptive transfer of splenocytes from pretreated CBA mice and transplantation of a C57BL/10 heart on the same day. RESULTS: Untreated CBA mice rejected C57BL/10 cardiac grafts acutely (median survival time, 12 days). Mice given intratracheal delivery of whole splenocytes or Kb peptide demonstrated prolonged graft survival (median survival time, 84 and 76 days, respectively). Concurrent administration of YTS177 and intratracheal delivery of splenocytes or Kb peptide resulted in indefinite graft survival. Mice with long-surviving C57BL/10 cardiac grafts showed acceptance of skin grafts from C57BL/10 mice but not BALB/c mice, demonstrating that operational tolerance had been induced. Adoptive transfer of splenocytes from mice pretreated with intratracheal delivery of splenocytes or Kb peptide plus YTS177 induced indefinite survival of cardiac grafts in secondary recipients, indicating that regulatory cells had been generated. CONCLUSION: In a murine model, intratracheal delivery of donor splenocytes or Kb peptide combined with YTS177 induced operational tolerance and generated regulatory cells.     

Use of anti-CD40 ligand monoclonal antibody as antirejection therapy in a murine peripheral nerve allograft model

Monoclonal antibody directed against CD40 ligand prevents acute allograft rejection in several models of solid-organ transplantation. This study describes the use of CD40 ligand as antirejection therapy in a mouse peripheral nerve allograft model. C3H mice received 8-mm nerve isografts (n = 2) or nerve allografts from C57BL donors. Treated animals (n = 11) received anti-CD40 ligand antibody applied to the graft and by intraperitoneal injections postoperatively. At 3 weeks, nerve histology from treated animals was comparable to isografts, whereas untreated allografts demonstrated virtually no signs of regeneration. Walking-track analysis demonstrated a trend toward improved functional recovery in treated animals. In conclusion, blockade of the CD40 pathway suppresses nerve allograft rejection in mice, and facilitates regeneration comparable to isografts.     

Injection of donor-derived splenic dendritic cells plus a nondepleting anti-CD4 monoclonal antibody to prolong primary skin graft survival indefinitely and abrogate the production of donor-specific antibodies in the Fischer-to-Lewis rat combination

We have previously shown that injection of donor-derived Fischer rat OX62+ dendritic cells plus an anti-CD4 monoclonal antibody generates donor-specific CD4+CD25+FoxP3+ regulatory T cells in Lewis rats spleens. The regulatory T cells indefinitely prolonged the survival of skin graft from Fischer rat and abrogated the antidonor antibody response. We have now shown that an injection of 2 × 10(6) donor-derived OX62+ dendritic cells plus 2 mg nondepleting anti-CD4 monoclonal antibody (W3/25) at 28 days before grafting induced indefinite skin graft survival in this combination; whereas an injection on day -1 prolonged it only to 50 days. This effect is donor specific. In both cases, we suppressed the antidonor antibody response. It is likely that the efficacy of this protocol is, at least in part, dependent on induction of donor-specific regulatory T cells, as suggested by previous data. The 28 days necessary to obtain tolerance of allogenic skin grafts may be due to the time required for the host to induce proliferation of donor-specific regulatory T cells.     

Long-term survival of hamster islet xenografts in mice under short-course treatment with nondepleting versus depleting anti-CD4 monoclonal antibodies

ABSTRACT: Xenogeneic grafts provide a potential alternative to the current shortage of human organs for transplantation. However, the prevention of rejection and tolerance induction of xenografts still remain to be further explored. Islet xenografts appear more promising than vascularized whole organ xenografts and additionally also more resistant to the recurrence of autoimmune disease than allografts. Recently, the nondepleting monoclonal antibody (mAb), which blocks the CD4 molecule on lymphocytes, was reported to be able to induce tolerance in allotransplantation and CD4 positive cells were further confirmed to be a major factor responsible for cellular xenograft rejection. Therefore, we hypothesize that anti-CD4 nondepleting mAb could also be effective in protecting cellular xenografts and inducing unresponsiveness of recipients. We studied the effect of the nondepleting anti-CD4 mAb YTS177.9 on islet xenograft survival by using the hamster-to-mouse islet transplantation model. Results were compared with that of the depleting anti-CD4 mAb GK1.5 that was shown to have similar binding sites on the CD4 molecule to mAb YTS 177.9. Our data show that mAb YTS 177.9 did effectively prolong the survival of islet xenografts and, in addition, also successfully did induce long-term acceptance of 40% grafts after only three penoperative injections of 0.5 mg mAb per mouse. The average survival of the graft was markedly prolonged to >66.8±37.1 days compared with controls (8.3±1.4 days) or with the depleting anti-CD4 mAb GK1.5 (25.7±5.5 days). However, the latter displayed a more profound inhibition in in vitro and ex vivo mixed lymphocyte xenoreaction than mAb YTS 177.9. Moreover, the activity of this nondepleting mAb was found to be dose-dependent and 80% of grafts survived permanently when the dose was increased to six injections of 0.5 mg mAb. Like mAb GK1.5, mAb YTS 177.9 also prevented rejection when given after a delay of two days posttransplant. In addition, we found that neither depleting nor nondepleting anti-CD8 mAb was effective in this model. Our results strongly suggest that an anti-CD4 nondepleting or blocking mAb alone is able to induce long-term acceptance of islet xenografts and that blocking the CD4 molecule is significantly superior to depleting CD4 positive cells for the protection of islet xenografts. This may indicate that CD4 cells play a major role in xenograft tolerance induction.     

抗CD25单克隆抗体对肾移植受者末梢血淋巴细胞的影响

目的　探讨抗CD2 5单克隆抗体 (舒莱 )对肾移植受者末梢血活化T细胞的抑制作用。　方法　 4 6例肾移植受者随机分为舒莱治疗组 ( 2 3例 )和对照组 ( 2 3例 )。免疫抑制剂方案为新山地明胶囊 (Neoral)、硫唑嘌呤 (Aza)和泼尼松 (Pred) ,舒莱治疗组术前 2h和术后 4d各静脉滴注舒莱 2 0mg。应用流式细胞仪对 4 6例受者手术前后末梢血中不同表型淋巴细胞进行连续动态观察。 　结果　与对照组比较 ,舒莱组活化T细胞 (CD 2 5)在用药后 2 4h明显下降 ,从用药前的 ( 17.0 0± 3.70 ) %降至 ( 3.30± 2 .4 3) % ,1周后降至 ( 2 .5 2± 1.0 9) % ,并在整个观察过程中呈低水平表达 (P <0 .0 1) ;淋巴细胞总数和T细胞 (CD 3 CD-19)总数无明显变化 ;B淋巴细胞 (CD-3 CD 19)、NK细胞 (CD-3 CD 16CD 56)和非HLA限制性细胞毒性T细胞 (CD 3 CD 16CD 56)未见明显升高。　结论　舒莱对活化T细胞有明显抑制作用 ,其机理为克隆封闭而非杀伤或清除作用