CD154 Deficiency Uncouples Allograft CD8+ T‐Cell Effector Function from Proliferation and Inhibits Murine Airway Obliteration

Obliterative bronchiolitis (OB) limits the long‐term success of lung transplantation, while T‐cell effector mechanisms in this process remain incompletely understood. Using the murine heterotopic tracheal transplant model of obliterative airway disease (OAD) to characterize airway allograft rejection, we previously reported an important role for CD8⁺ T cells in OAD. Herein, we studied the role of CD154/CD40 costimulation in the regulation of allospecific CD8⁺ T cells, as airway rejection has been reported to be CD154‐dependent. Airway allografts from CD154^−/− recipients had significantly lower day 28 OAD scores compared to wild‐type (WT) recipients, and adoptive transfer of CD8⁺ T cells from WT recipients, but not CD154^−/− recipients, were capable of airway rejection in fresh CD154^−/− allograft recipients. Intragraft CD8⁺ T cells from CD154^−/− mice showed similar expression of the surface markers CD69, CD62L^low CD44^high and PD‐1, but markedly impaired IFN‐γ and TNF‐α secretion and granzyme B expression versus WT controls. Unexpectedly, intragraft and systemic CD8⁺ T cells from CD154^−/− recipients demonstrated robust in vivo expansion similar to WT recipients, consistent with an uncoupling of proliferation from effector function. Together, these data suggest that a lack of CD154/CD40 costimulation results in ineffective allospecific priming of CD8⁺ T cells required for murine OAD.     

Transient Lymphopenia Breaks Costimulatory Blockade‐Based Peripheral Tolerance and Initiates Cardiac Allograft Rejection

Lymphopenia is induced by lymphoablative therapies and chronic viral infections. We assessed the impact of lymphopenia on cardiac allograft survival in recipients conditioned with peritransplant costimulatory blockade (CB) to promote long‐term graft acceptance. After vascularized MHC‐mismatched heterotopic heart grafts were stably accepted through CB, lymphopenia was induced on day 60 posttransplant by 6.5 Gy irradiation or by administration of anti‐CD4 plus anti‐CD8 mAb. Long‐term surviving allografts were gradually rejected after lymphodepletion (MST = 74 ± 5 days postirradiation). Histological analyses indicated signs of severe rejection in allografts following lymphodepletion, including mononuclear cell infiltration and obliterative vasculopathy. Lymphodepletion of CB conditioned recipients induced increases in CD44^high effector/memory T cells in lymphatic organs and strong recovery of donor‐reactive T cell responses, indicating lymphopenia‐induced proliferation (LIP) and donor alloimmune responses occurring in the host. T regulatory (CD4⁺ Foxp³⁺) cell and B cell numbers as well as donor‐specific antibody titers also increased during allograft rejection in CB conditioned recipients given lymphodepletion. These observations suggest that allograft rejection following partial lymphocyte depletion is mediated by LIP of donor‐reactive memory T cells. As lymphopenia may cause unexpected rejection of stable allografts, adequate strategies must be developed to control T cell proliferation and differentiation during lymphopenia.     

Endogenous Memory CD8 T Cells Are Activated Within Cardiac Allografts Without Mediating Rejection

Endogenous memory CD8 T cells infiltrate MHC‐mismatched cardiac allografts within 12–24 h posttransplant in mice and are activated to proliferate and produce IFN‐γ. To more accurately assess the graft injury directly imposed by these endogenous memory CD8 T cells, we took advantage of the ability of anti‐LFA‐1 mAb given to allograft recipients on days 3 and 4 posttransplant to inhibit the generation of primary effector T cells. When compared to grafts from IgG‐treated recipients on day 7 posttransplant, allografts from anti‐LFA‐1 mAb‐treated recipients had increased numbers of CD8 T cells but these grafts had marked decreases in expression levels of mRNA encoding effector mediators associated with graft injury and decreases in donor‐reactive CD8 T cells producing IFN‐γ. Despite this decreased activity within the allograft, CD8 T cells in allografts from recipients treated with anti‐LFA‐1 mAb continued to proliferate up to day 7 posttransplant and did not upregulate expression of the exhaustion marker LAG‐3 but did have decreased expression of ICOS. These results indicate that endogenous memory CD8 T cells infiltrate and proliferate in cardiac allografts in mice but do not express sufficient levels of functions to mediate overt graft injury and acute rejection.     

Peritransplant VLA‐4 blockade inhibits endogenous memory CD8 T cell infiltration into high‐risk cardiac allografts and CTLA‐4Ig resistant rejection

Recipient endogenous memory CD8 T cells expressing reactivity to donor class I MHC infiltrate MHC‐mismatched cardiac allografts within 24 hours after reperfusion and express effector functions mediating graft injury. The current study tested the efficacy of Very Late Antigen‐4 (VLA‐4) blockade to inhibit endogenous memory CD8 T cell infiltration into cardiac allografts and attenuate early posttransplant inflammation. Peritransplant anti‐VLA‐4 mAb given to C57BL6 (H‐2^b) recipients of AJ (H‐2^a) heart allografts completely inhibited endogenous memory CD4 and CD8 T cell infiltration with significant decrease in macrophage, but not neutrophil, infiltration into allografts subjected to either minimal or prolonged cold ischemic storage (CIS) prior to transplant, reduced intra‐allograft IFN‐γ‐induced gene expression and prolonged survival of allografts subjected to prolonged CIS in CTLA‐4Ig treated recipients. Anti‐VLA‐4 mAb also inhibited priming of donor‐specific T cells producing IFN‐γ until at least day 7 posttransplant. Peritransplant anti‐VLA plus anti‐CD154 mAb treatment similarly prolonged survival of allografts subjected to minimal or increased CIS prior to transplant. Overall, these data indicate that peritransplant anti‐VLA‐4 mAb inhibits early infiltration memory CD8 T cell infiltration into allografts with a marked reduction in early graft inflammation suggesting an effective strategy to attenuate negative effects of heterologous alloimmunity in recipients of higher risk grafts.     

Allergic Conjunctivitis Renders CD4+ T Cells Resistant to T Regulatory Cells and Exacerbates Corneal Allograft Rejection

Allergic diseases rob corneal allografts of immune privilege and increase immune rejection. Corneal allograft rejection in BALB/c allergic hosts was analyzed using a short ragweed (SWR) pollen model of allergic conjunctivitis. Allergic conjunctivitis did not induce exaggerated T‐cell responses to donor C57BL/6 (B6) alloantigens or stimulate cytotoxic T lymphocyte (CTL) responses. Allergic conjunctivitis did affect T regulatory cells (Tregs) that support graft survival. Exogenous IL‐4, but not IL‐5 or IL‐13, prevented Treg suppression of CD4⁺ effector T cells isolated from naïve mice. However, mice with allergic conjunctivitis developed Tregs that suppressed CD4⁺ effector T‐cell proliferation. In addition, IL‐4 did not inhibit Treg suppression of IL‐4Rα^?/? CD4⁺ T‐cell responses, suggesting that IL‐4 rendered effector T cells resistant to Tregs. SRW‐sensitized IL‐4Rα^?/? mice displayed the same 50% graft survival as nonallergic WT mice, that was significantly less than the 100% rejection that occurred in allergic WT hosts, supporting the role of IL‐4 in the abrogation of immune privilege. Moreover, exacerbation of corneal allograft rejection in allergic mice was reversed by administering anti‐IL‐4 antibody. Thus, allergy‐induced exacerbation of corneal graft rejection is due to the production of IL‐4, which renders effector T cells resistant to Treg suppression of alloimmune responses.     

CD8+ T‐Cell Depletion and Rapamycin Synergize with Combined Coreceptor/Stimulation Blockade to Induce Robust Limb Allograft Tolerance in Mice

The growing development of composite tissue allografts (CTA) highlights the need for tolerance induction protocols. Herein, we developed a mouse model of heterotopic limb allograft in a stringent strain combination in which potentially tolerogenic strategies were tested taking advantage of donor stem cells in the grafted limb. BALB/c allografts were transplanted into C57BL/6 mice treated with anti‐CD154 mAb, nondepleting anti‐CD4 combined to either depleting or nondepleting anti‐CD8 mAbs. Some groups received additional rapamycin. Both depleting and nondepleting mAb combinations without rapamycin only delayed limb allograft rejection, whereas the addition of rapamycin induced long‐term allograft survival in both combinations. Nevertheless, robust donor‐specific tolerance, defined by the acceptance of a fresh donor‐type skin allograft and simultaneous rejection of third‐party grafts, required initial CD8⁺ T‐cell depletion. Mixed donor‐recipient chimerism was observed in lymphoid organs and recipient bone marrow of tolerant but not rejecting animals. Tolerance specificity was confirmed by the inability to produce IL‐2, IFN‐γ and TNF‐α in MLC with donor antigen while significant alloreactivity persisted against third‐ party alloantigens. Collectively, these results show that robust CTA tolerance and mixed donor‐recipient chimerism can be achieved in response to the synergizing combination of rapamycin, transient CD8⁺ T‐cell depletion and costimulation/coreceptor blockade.     

CD11b is a novel alternate receptor for CD154 during alloimmunity

Antagonism of the CD154/CD40 pathway is a highly effective means of inducing long‐term graft survival in preclinical models. Using a fully allogeneic murine transplant model, we found that CD154 blockade was more effective in prolonging graft survival than was CD40 blockade, raising the possibility that CD154 binds a second receptor. To test this, we queried the impact of CD154 antagonism in the absence of CD40. Data indicated that anti‐CD154 functioned to reduce graft‐infiltrating CD8⁺ T cells in both WT and CD40^?/? hosts. Because it has recently been reported that CD154 can ligate CD11b, we addressed the impact of blocking CD154‐CD11b interactions during transplantation. We utilized a specific peptide antagonist that prevents CD154 binding of CD11b but has no effect on CD154‐CD40 interactions. CD154:CD11b antagonism significantly increased the efficacy of anti‐CD40 in prolonging allograft survival as compared to anti‐CD40 plus control peptide. Mechanistically, CD154:CD11b antagonism functioned to reduce the frequency of graft‐infiltrating CD8⁺ T cells and innate immune cells. These data therefore demonstrate that blocking CD154 interactions with both CD40 and CD11b is required for optimal inhibition of alloimmunity and provide an explanation for why CD40 blockers may be less efficacious than anti‐CD154 reagents for the inhibition of allograft rejection.     

Contrasting effects of B cell depletion on CD4+ and CD8+ memory T cell responses generated after transplantation

Alloreactive memory T cells play a key role in transplantation by accelerating allograft rejection and preventing tolerance induction. Some studies using µMT mice, which are constitutionally devoid of B cells, showed that B cells were required for the generation of memory T cells after allotransplantation. However, whether B cell depletion in normal adult mice has the same effect on memory responses by CD4⁺ and CD8⁺ T cells activated after transplantation has not been thoroughly investigated. In this study, we tested the effect of anti‐CD20 antibody‐mediated B cell depletion on CD4⁺ and CD8⁺ memory T cell alloresponses after skin transplantation in wild‐type mice. We found that B cell depletion prevented the development of memory alloresponses by CD4⁺ T cells but enhanced that of CD8⁺ memory T cells. Next, we tested the influence of B cell depletion on hematopoietic chimerism. In OT‐II CD4⁺ anti‐OVA TCR transgenic mice sensitized to ovalbumin antigen, B cell depletion also impaired allospecific memory T cell responses and thereby enhanced donor hematopoietic chimerism and T cell deletion after bone marrow transplantation. This study underscores the complexity of the relationships between B and T cells in the generation and reactivation of different memory T cell subsets after transplantation.     

Suppressing memory T cell activation induces islet allograft tolerance in alloantigen‐primed mice

Memory T cells are known to play a key role in prevention of allograft tolerance in alloantigen‐primed mice. Here, we used an adoptively transferred memory T cell model and an alloantigen‐primed model to evaluate the abilities of different combinations of monoclonal antibodies (mAb) to block key signaling pathways involved in activation of effector and memory T cells. In the adoptively transferred model, the use of anti‐CD134L mAb effectively prevented activation of CD4⁺ memory T cells and significantly prolonged islet survival, similar to the action of anti‐CD122 mAb to CD8⁺ memory T cells. In the alloantigen‐primed model, use of anti‐CD134L and anti‐CD122 mAbs in addition to co‐stimulatory blockade with anti‐CD154 and anti‐LFA‐1 prolonged secondary allograft survival and significantly reduced the proportion of memory T cells; meanwhile, this combination therapy increased the proportion of regulatory T cells (Tregs) in the spleen, inhibited lymphocyte infiltration in the graft, and suppressed alloresponse of recipient splenic T cells. However, we also detected high levels of alloantibodies in the serum which caused high levels of damage to the allogeneic spleen cells. Our results suggest that combination of four mAbs can significantly suppress the function of memory T cells and prolong allograft survival in alloantigen primed animals.     

Regulatory T Cells Are Critical to Tolerance Induction in Presensitized Mouse Transplant Recipients Through Targeting Memory T Cells

Memory T cells are a significant barrier to induction of transplant tolerance. However, reliable means to target alloreactive memory T cells have remained elusive. In this study, presensitization of BALB/c mice with C57BL/6 skin grafts generated a large number of OX40⁺CD44^hieffector/memory T cells and resulted in rapid rejection of donor heart allografts. Recognizing that anti‐OX40L monoclonal antibody (mAb) (α‐OX40L) monotherapy prolonged graft survival through inhibition and apoptosis of memory T cells in presensitized recipients, α‐OX40L was added to the combined treatment protocol of LF15–0195 (LF) and anti‐CD45RB (α‐CD45RB) mAb—a protocol that induced heart allograft tolerance in non‐presensitized recipients but failed to induce tolerance in presensitized recipients. Interestingly, this triple therapy restored donor‐specific heart allograft tolerance in our presensitized model that was associated with induction of tolerogenic dendritic cells and CD4⁺CD25⁺Foxp3⁺ T regulatory cells (Tregs). Of note, CD25⁺ T cell depletion in triple therapy recipients prevented establishment of allograft tolerance. In addition, adoptive transfer of donor‐primed effector/memory T cells into tolerant recipients markedly reduced levels of Tregs and broke tolerance. Our findings indicated that targeting memory T cells, by blocking OX40 costimulation in presensitized recipients was very important to expansion of Tregs, which proved critical to development of tolerance.     

Xenoreactive CD4+ memory T cells resist inhibition by anti-CD44 mAb and reject islet grafts via a Th2-dependent pathway

Peng YZ, Chen JB, Shao W, Wang FY, Dai HL, Cheng PP, Xia JJ, Wang F, Huang R, Zhu Q, Qi Z. Xenoreactive CD4⁺ memory T cells resist inhibition by anti‐CD44 mAb and reject islet grafts via a Th2‐dependent pathway. Xenotransplantation 2011; 18: 252–261. © 2011 John Wiley & Sons A/S. Abstract: Background: Memory T cells are a significant barrier to the induction of transplant tolerance. Our previous study demonstrated that multiple applications of anti‐CD44 monoclonal antibody (mAb) could significantly inhibit CD4⁺ memory T cells from mediating rejection of cardiac allografts. Now, we sought to explore the effect and mechanism of anti‐CD44 mAb on the rejection of islet allografts and xenografts mediated by CD4⁺ memory T cells. Methods: In this study, we first engrafted skin grafts of C57BL/6 (B6) mice or Dark Agouti (DA) rats onto BALB/c mice to induce donor‐reactive memory T cells. We adoptively transferred purified CD4⁺ memory T cells to BALB/c origin nude mice and then transplanted islet allografts and xenografts to produce the Allo‐Tx and Xeno‐Tx models, respectively. We subsequently administered multiple anti‐CD44 mAb and observed changes in the survival times of the islet grafts. Results: In the Allo‐Tx model, the mean survival time (MST) of the grafts was 7.7 days in the isotype group, and 20.3 days in the anti‐CD44 group. In the Xeno‐Tx model, the MST of the grafts was 7.2 days in the isotype group and 8.2 days in the anti‐CD44 group. Compared with the isotype group, CD4⁺ T cells on the grafts in the anti‐CD44 group were significantly decreased in both the Allo‐Tx and Xeno‐Tx models, but the proportion of CD4⁺ memory T cells in the spleens and draining lymph nodes of the recipient nude mice in the anti‐CD44 group was significantly decreased in the Allo‐Tx model, while it was increased in the Xeno‐Tx model. The production of donor‐specific IgG antibody in the anti‐CD44 group did not vary in the Allo‐Tx model, while it was markedly elevated in the Xeno‐Tx model. Furthermore, the expression of interferon gamma in the anti‐CD44 group was markedly decreased in both the Allo‐Tx and Xeno‐Tx models, while the expression of IL‐4 in the anti‐CD44 group was significantly increased only in the Xeno‐Tx model. Conclusion: Multiple applications of the anti‐CD44 mAb could significantly inhibit donor‐reactive CD4⁺ memory T cells from rejecting grafts via a Th1‐dependent pathway, but xenoreactive CD4⁺ memory T cells can avoid the effects of anti‐CD44 mAb to reject islet xenografts via a Th2‐dependent pathway.     

Anti‐TCRβ mAb Induces Long‐Term Allograft Survival by Reducing Antigen‐Reactive T Cells and Sparing Regulatory T Cells

TCR specific antibodies may modulate the TCR engagement with antigen–MHC complexes, and in turn regulate in vivo T cell responses to alloantigens. Herein, we found that in vivo administration of mAbs specific for mouse TCRβ (H57–597), TCRα or CD3 promptly reduced the number of CD4⁺ and CD8⁺ T cells in normal mice, but H57–597 mAb most potently increased the frequency of CD4⁺Foxp3⁺ Treg cells. When mice were injected with staphylococcal enterotoxin B (SEB) superantigen and H57–597 mAb, the expansion of SEB‐reactive Vβ8⁺ T cells was completely abrogated while SEB‐nonreactive Vβ2⁺ T cells remained unaffected. More importantly, transient H57–597 mAb treatment exerted long‐lasting effect in preventing T cell responses to alloantigens, and produced long‐term cardiac allograft survival (>100 days) in 10 out of 11 recipients. While Treg cells were involved in maintaining donor‐specific long‐term graft survival, T cell homeostasis recovered over time and immunity was retained against third party allografts. Moreover, transient H57–597 mAb treatment significantly prolonged survival of skin allografts in naïve recipients as well as heart allografts in skin‐sensitized recipients. Thus, transient modulation of the TCRβ chain by H57–597 mAb exhibits potent, long‐lasting therapeutic effects to control alloimmune responses.     

Differential Requirement of CD27 Costimulatory Signaling for Naïve Versus Alloantigen‐Primed Effector/Memory CD8+ T Cells

CD8⁺ memory T cells endanger allograft survival by causing acute and chronic rejection and prevent tolerance induction. We explored the role of CD27:CD70 T‐cell costimulatory pathway in alloreactive CD8⁺/CD4⁺ T‐cell activation. CD27‐deficient (CD27^?/?) and wild‐type (WT) B6 mice rejected BALB/c cardiac allografts at similar tempo, with or without depletion of CD4⁺ or CD8⁺ T cells, suggesting that CD27 is not essential during primary T‐cell alloimmune responses. To dissect the role of CD27 in primed effector and memory alloreactive T cells, CD27^?/? or WT mice were challenged with BALB/c hearts either 10 or 40 days after sensitization with donor‐type skin grafts. Compared to WT controls, allograft survival was prolonged in day 40‐ but not day 10‐sensitized CD27^?/? recipients. Improved allograft survival was accompanied by diminished secondary responsiveness of memory CD8⁺ T cells, which resulted from deficiency in memory formation rather than their lack of secondary expansion. Chronic allograft vasculopathy and fibrosis were diminished in CD27^?/? recipients of class I‐ but not class II‐mismatched hearts as compared to WT controls. These data establish a novel role for CD27 as an important costimulatory molecule for alloreactive CD8⁺ memory T cells in acute and chronic allograft rejection.     

Different Mechanisms Control Peripheral and Central Tolerance in Hematopoietic Chimeric Mice

Regulatory T cells (Treg) are important in peripheral tolerance, but their role in establishing and maintaining hematopoietic mixed chimerism and generating central tolerance is unclear. We now show that costimulation blockade using a donor‐specific transfusion and anti‐CD154 antibody applied to mice given bone marrow and simultaneously transplanted with skin allografts leads to hematopoietic chimerism and permanent skin allograft survival. Chimeric mice bearing intact skin allografts fail to generate effector/memory T cells against allogeneic targets as shown by the absence of IFNγ‐producing CD44^highCD8⁺ T cells and in vivo cytotoxicity. Depletion of Tregs by injection of anti‐CD4 or anti‐CD25 antibody prior to costimulation blockade prevents chimerism, shortens skin allograft survival and leads to generation of effector/memory cytotoxic T cells. Depletion of Tregs by injection of anti‐CD4 or anti‐CD25 antibody two months after transplantation leads to loss of skin allografts even though mice remain chimeric and exhibit little in vivo cytotoxicity. In contrast, chimerism is lost, but skin allografts survive following naïve T‐cell injection. We conclude that hematopoietic chimerism and peripheral tolerance may be maintained by different mechanisms in mixed hematopoietic chimeras.     

B Cell Depletion With an Anti‐CD20 Antibody Enhances Alloreactive Memory T Cell Responses After Transplantation

Alloreactive memory T cells mediate accelerated allograft rejection and transplant tolerance resistance. Recent studies have shown that B cell deficient–μMT mice fail to mount donor‐specific memory T cell responses after transplantation. At the same time, other studies showed that pretransplant B cell depletion using rituximab (IgG1 anti‐CD20 mAb) combined with cyclosporine A promoted the survival of islet allografts in monkeys. In this study, we investigated the effect of anti‐CD20 antibody‐mediated B cell depletion on the memory T cell alloresponse in mice. Wild‐type and anti‐OVA TCR transgenic mice were treated with an IgG2a anti‐CD20 monoclonal antibody, which depleted nearly all B cells in the peripheral blood and secondary lymphoid organs but spared some B cells in the bone marrow. B cell depletion did not affect the direct alloresponse but resulted in a marked increase of indirect alloresponse after skin transplantation of naïve mice. Furthermore, in allosensitized mice, anti‐CD20 mAb treatment enhanced the reactivation of allospecific memory T cells and accelerated second set rejection of skin allografts. This suggests that the effect of anti‐CD20 antibodies on alloimmunity and allograft rejection might vary upon the nature of the antibodies as well as the circumstances under which they are delivered.     

Enrichment of Regulatory T Cells in Acutely Rejected Human Liver Allografts

Acute cellular rejection (ACR) occurs frequently after liver transplantation and can usually be controlled. Triggering of allospecific immune responses and lack of immunoregulation are currently suggested as a cause of ACR, but there are no investigations of intrahepatic immune responses during ACR. Therefore we prospectively analyzed the intrahepatic T cell infiltration pattern in correlation to the severity of ACR in a cohort of patients with graft hepatitis (n = 151). While CD4⁺ cells dominated the portal infiltrates in mild–moderate ACR, CD8⁺ cells prevailed in severe ACR. Furthermore portal CD8⁺ and not CD4⁺ infiltration correlated with serum transaminases and with the likelihood of subsequent ACRs. Surprisingly, the rise of portal effector T cells density during ACR was surpassed by the increase in portal infiltration of regulatory T cells by a factor of two. Thus ACRs rather showed an increase and not a lack of regulation, as was suggested by analysis of peripheral blood mononuclear cells. Despite the pattern of enhanced immunoregulation, patients with severe ACR had a higher risk for subsequent rejections and showed a trend to a reduced survival. Thus, patients with severe rejections might need a modification of their immunosuppression to improve prognosis.     

Proliferation of CD8‐Positive T Cells in Blood Vessels of Rat Renal Allografts

It is still disputed in which anatomical compartments of allograft recipients T‐cells proliferate. After experimental renal transplantation, host monocytes and lymphocytes accumulate in the lumina of graft blood vessels. In this study, we test the hypothesis that T lymphocytes proliferate in the vascular bed of the graft. Kidneys were transplanted in the Dark Agouti to Lewis rat strain combination, an established experimental model for acute rejection. Isogeneic transplantation was performed as a control. Cells in the S‐phase of mitosis were detected in situ three days posttransplantation by pulse‐labeling with BrdU and by immunohistochemical detection of the proliferating cell nuclear antigen (PCNA). More than 20% of all T‐cells in the lumina of allograft blood vessels incorporated BrdU and approximately 30% of them expressed PCNA. In the blood vessels of isografts as well as in other organs of allograft recipients, only few BrdU⁺ cells were detected. A majority of the BrdU⁺ cells in graft blood vessels expressed CD8. In conclusion, we demonstrate that CD8⁺ T lymphocytes proliferate in the lumina of the blood vessels of renal allografts during the onset of acute rejection.     

LFA‐1 Antagonism Inhibits Early Infiltration of Endogenous Memory CD8 T Cells into Cardiac Allografts and Donor‐Reactive T Cell Priming

Alloreactive memory T cells are present in virtually all transplant recipients due to prior sensitization or heterologous immunity and mediate injury undermining graft outcome. In mouse models, endogenous memory CD8 T cells infiltrate MHC‐mismatched cardiac allografts and produce IFN‐γ in response to donor class I MHC within 24 h posttransplant. The current studies analyzed the efficacy of anti‐LFA‐1 mAb to inhibit early CD8 T cell cardiac allograft infiltration and activation. Anti‐LFA‐1 mAb given to C57BL/6 6 (H‐2^b) recipients of A/J (H‐2^a) heart grafts on days –1 and 0 completely inhibited CD8 T cell allograft infiltration, markedly decreased neutrophil infiltration and significantly reduced intragraft expression levels of IFN‐γ‐induced genes. Donor‐specific T cells producing IFN‐γ were at low/undetectable numbers in spleens of anti‐LFA‐1 mAb treated recipients until day 21. These effects combined to promote substantial prolongation (from day 8 to 27) in allograft survival. Delaying anti‐LFA‐1 mAb treatment until days 3 and 4 posttransplant did not inhibit early memory CD8 T cell infiltration and proliferation within the allograft. These data indicate that peritransplant anti‐LFA‐1 mAb inhibits early donor‐reactive memory CD8 T cell allograft infiltration and inflammation suggesting an effective strategy to attenuate the negative effects of heterologous immunity in transplant recipients.     

Fc‐Silent Anti‐CD154 Domain Antibody Effectively Prevents Nonhuman Primate Renal Allograft Rejection

The advent of costimulation blockade provides the prospect for targeted therapy with improved graft survival in transplant patients. Perhaps the most effective costimulation blockade in experimental models is the use of reagents to block the CD40/CD154 pathway. Unfortunately, successful clinical translation of anti‐CD154 therapy has not been achieved. In an attempt to develop an agent that is as effective as previous CD154 blocking antibodies but lacks the risk of thromboembolism, we evaluated the efficacy and safety of a novel anti‐human CD154 domain antibody (dAb, BMS‐986004). The anti‐CD154 dAb effectively blocked CD40‐CD154 interactions but lacked crystallizable fragment (Fc) binding activity and resultant platelet activation. In a nonhuman primate kidney transplant model, anti‐CD154 dAb was safe and efficacious, significantly prolonging allograft survival without evidence of thromboembolism (Median survival time 103 days). The combination of anti‐CD154 dAb and conventional immunosuppression synergized to effectively control allograft rejection (Median survival time 397 days). Furthermore, anti‐CD154 dAb treatment increased the frequency of CD4⁺CD25⁺Foxp3⁺ regulatory T cells. This study demonstrates that the use of a novel anti‐CD154 dAb that lacks Fc binding activity is safe without evidence of thromboembolism and is equally as potent as previous anti‐CD154 agents at prolonging renal allograft survival in a nonhuman primate preclinical model.