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Cutting Edge: Transplant Tolerance Induced by Anti-CDRB Requ

日期:2023-01-06 阅读量:0 所属栏目:基础医学


【摘要】 selective interference with the cd45rb isoform by mab (anti-cd45rb) reliably induces donor-specific tolerance. although previous studies suggest participation of regulatory t cells, a mechanistic understanding of anti-cd45rb-induced tolerance is lacking. we report herein the unexpected finding that tolerance induced by this agent is not established in b cell-deficient mice but can be recovered by preemptive b lymphocyte transfer to b cell-deficient hosts. using b cells from genetically modified donors to reconstitute b cell-deficient recipients, we evaluate the role of b lymphocyte-expressed cd45rb, t cell costimulatory molecules, and the production of abs in this novel tolerance mechanism. our data document an ab-induced tolerance regimen that is uniquely b lymphocyte-dependent and suggest mechanistic contributions to tolerance development from the b cell compartment through interactions with t cells.

【关键词】 transplant tolerance anti-cdrb requires lymphocytes



introduction


the cd45 is a family of transmembrane protein tyrosine phosphatases critically involved in lymphocyte development and activation (1). through its protein tyrosine phosphatase activity, cd45 can operate as a positive as well as a negative regulator of src-family kinases for signal transduction through ag receptors in both t and b cells (2, 3). thus, cd45 serves as a rheostat that determines the overall sensitivity of the adaptive immune system to antigenic stimulation. given its crucial role in lymphocyte activation, cd45 has been targeted with therapies that have emerged as potent immunosuppressive agents in both autoimmune and transplant models (4, 5).


investigation of the mechanism of tolerance induction by anti-cd45rb initially focused on alteration of the t cell response due to t lymphocyte expression of cd45rb and their central role in transplant rejection. recent studies correlated the effect of anti-cd45rb with up-regulation of ctla-4 on t cells (6, 7). because ctla-4 can deliver negative signals in t cell activation and may be expressed by regulatory t cells (tregs),6 anti-cd45rb-induced up-regulation of ctla-4 may play an important role in deactivation of graft-reactive lymphocytes (8, 9). in addition, induction of t cell anergy and formation of th2 or treg cells have been suggested in previous studies (4, 10).


the emergence of treg function as a critical aspect of the tolerance mechanism has also stimulated investigation into the apc population because modulation of t cell-apc interactions may enhance treg formation (11). initial studies indicated a role of tolerogenic dendritic cells in this model (12). in addition, we have recently studied the effect of anti-cd45rb therapy in nod mice and found that nod mice are resistant to anti-cd45rb-induced transplant tolerance, even in the absence of autoimmunity (13). because of the critical role played by b lymphocytes as apcs in autoimmune disease (14), we hypothesized that b cells may play a requisite role in tolerance induced by anti-cd45rb. in the current work, we demonstrate that b cells are absolutely required for development of anti-cd45rb-induced tolerance and that they function through direct cell interaction with t cells via costimulatory molecules.


materials and methods


mice


wild-type c57bl/6 (b6, h2b), b cell-deficient c57bl/6 (ko-b6, h2b), c3h (h2k), balb/c (h2d), and mice with specific gene knockouts (b7-1/b7-2, cd40) were purchased from the jackson laboratory. ts1 and ha104 mice were bred internally and have been described for use in transplantation studies (15). membrane igm (migm) mice on a balb/c background (16) were bred at yale university school of medicine under specific pathogen-free conditions. cd45-deficient animals were provided by c.p. (university of toronto, ontario, canada). all mice were housed under specific pathogen-free barrier conditions at the university of pennsylvania.


heart transplantation


experiments were performed according to a protocol approved by the institutional animal care and use committee at the university of pennsylvania. transplantation was performed according to the ono-lindsey (4, 17) model as adapted for mice and described previously.


anti-cd45rb therapy


animals were treated with i.p. injection of 100 g of rat anti-mouse cd45rb ab (clone, mb23g2; american type culture collection) on days 0, 1, 3, 5, and 7 following transplantation.


reconstitution model


b cell-deficient mice were reconstituted with mature syngeneic b cells by i.v. injection of 5 x 106 splenocytes or purified b cells (negative selection via macs) from normal or gene knockout mice.


flow cytometry


one million cells were suspended in biotin-free rpmi 1640 containing 0.1% azide and 3% fcs and surface stained in 96-well plates with the appropriate mabs (bd pharmingen). biotin-conjugated mabs were subsequently stained with streptavidin-red670 (invitrogen life technologies). all samples were analyzed on a facscalibur flow cytometer (bd biosciences) using cellquest software (bd biosciences).


macs


b cells were enriched by negative selection of splenocytes with ferritin-conjugated thy1.2 and anti-cd11b-biotin followed by streptavidin-conjugated macs beads (miltenyi biotec). all depletions yielded >95% efficiency in negative selection of the targeted population.


statistical analysis


all data are presented as mean ? sd. statistical analysis was done by anova using n-1 custom hypotheses tests as appropriate. survival curves were generated by the kaplan-meier method and analyzed by the log-rank test.


results


anti-cd45rb treatment promotes cellular proliferation and phenotypic alterations in the b cell compartment


because anti-cd45rb treatment induces robust tolerance in both the allogeneic c3h to b6 and the balb-derived transgenic ha104 (hemagglutinin (ha) expressing) to ts1 (ha-specific tcr) combinations (4), we investigated the cellular mechanisms underlying tolerance. we initially evaluated b and t cell-expressed surface molecules for changes in their expression in the draining para-aortic lymph nodes of cardiac-grafted mice. controls included mice grafted without ab treatment and naive mice. t lymphocytes from mice treated with anti-cd45rb demonstrated down-regulation of cd4, cd45rb, and cd62l (data not shown). phenotypic changes were also noted within the b cell compartment where molecules involved in b cell signal transduction, activation, and t cell costimulation were assessed. most noticeable among these alterations were an increase in cd54 and mhc class ii and a decrease in the levels of cd19, features suggesting a b cell that had been stimulated and was now prepared for t cell engagement (fig. 1). only a minor change was noted in the expression of b7.1, b7.2, and cd40 molecules (data not shown). as a confirmation of the anti-cd45rb effect on these cells, we performed in vitro mlr in the presence or absence of anti-cd45rb. anti-cd45rb enhanced proliferation in cd4 and cd8 t cells and b cells in the presence of allogeneic stimulators (data not shown).


figure 1. phenotypic response of b lymphocytes to anti-cd45rb during tolerance induction. the effect of anti-cd45rb was assessed in the b cell compartment of b6 mice that had received c3h cardiac allografts (thick solid line) by flow cytometry on day 10 posttransplant; comparison was made to unmanipulated naive mice (thin line) and to c3h grafted, untreated animals (shaded histogram). gating on b220+ cells and comparison of mean fluorescence intensities revealed a significant decrease in cd19 (p < 0.01, student?s t test) and increase in cd54 (p < 0.001, student?s t test) and mhc class ii (p < 0.01, student?s t test) expression. b7-1, b7-2, and cd40 were also assessed, but analysis did not reveal significant change in these surface molecules (p = ns for all). data are representative of three analyses.


anti-cd45rb-induced tolerance requires b lymphocytes


because anti-cd45rb enhances the b cell response during allogeneic stimulation, we assessed the requirement for host b lymphocytes during anti-cd45rb-induced tolerance by using the mtc/c knockout mice generated by kitamura et al. (18). these mice maintained on the b6 background have no mature b cells and no detectable ab production. transplantation of c3h heart grafts to untreated b6mtc/c hosts resulted in prompt rejection, documenting that neither b cells nor ab are required for rejection in this model (fig. 2a). however, anti-cd45rb treatment failed to induce tolerance when c3h hearts were grafted to b6mtc/c hosts. in the absence of b cells, not only did tolerance not develop, but the immunosuppressive effects of the agent were lost as indicated by a prolongation of survival to only 14 days from 9 days in controls. this finding directly implicates host b cells in the tolerance pathway and in the immunosuppressive properties of anti-cd45rb. because b cell-deficient mice may have other immunologic deficits or tolerance resistance secondary to the development of their immune system in the absence of b cells, we confirmed the role of b cells in this model by reconstituting our recipients with mature syngeneic b cells by i.v. injection of 5 x 106 splenocytes or with the same number of macs-purified b cells from normal b6 mice on the day before transplantation. when these mice were transplanted, anti-cd45rb therapy induced permanent graft survival (median survival time (mst) >90 days; n = 9; p < 0.001).


figure 2. b lymphocytes are required for tolerance induction by anti-cd45rb. a, in the wild-type transplant model, hearts from c3h mice were transplanted into the abdominal cavity of either b6 or ko-b6 mice (b6 mtc/c) with or without anti-cd45rb ab treatment. all grafts were rapidly rejected in untreated normal b6 (n = 9) or ko-b6 mice (n = 6). although most grafts survived permanently in anti-cd45-treated b6 mice (n = 15), graft survival was only slightly prolonged by anti-cd45 in the ko-b6 mice (n = 9). almost all grafts (n = 16) were accepted permanently in anti-cd45-treated ko-b6 mice after reconstitution with 5 x 106 splenocytes (p = 0.0004 vs mtc/c) or 5 x 106 purified b cells (p < 0.0001 vs mtc/c) from wild-type b6 mice. b, in the tcr-transgenic model, hearts from ha104 mice were transplanted into either ts1 or b cell-deficient ts1/jhc/c mice treated with or without anti-cd45rb abs. similarly, ha heart grafts were accepted in the anti-cd45rb-treated ts1 mice (n = 11), but not accepted in the b cell-deficient ts1 mice (n = 6; p < 0.0001 vs anti-cd45rb-treated ts1) treated with anti-cd45rb abs.


to confirm the generality of this finding, we extended this analysis to the ts1 transgenic model and developed a line of b cell-deficient ts1 mice (balb/c background) by interbreeding our ts1 mice with the balb/c jhc/c line (19). the jh c/c line does not develop mature b cells or produce ab. we tested the ability of cd45rb to induce tolerance in ts1-jhc/c mice. we found that, unlike ts1 mice in which tolerance to ha104 heart grafts was induced by anti-cd45rb in 100% of cases, b cell-deficient ts1-jhc/c mice were not rendered tolerant in any of six grafts performed (fig. 2b). in fact, as with the b6 model, not only was tolerance not induced in the absence of b cells, but the immunosuppressive action of anti-cd45rb was mostly lost. collectively, these data demonstrate that b cells are necessary for the tolerogenic and immunosuppressive actions of anti-cd45rb immunotherapy.


anti-cd45rb-induced tolerance requires b cell expression of the cd45 molecule


having demonstrated a requisite role for b lymphocytes in anti-cd45rb-induced tolerance, we questioned whether there was interaction of the ab with cd45rb expressed by b cells. to test this thesis, we used cd45-deficient mice produced by targeted disruption of exon 9 of the cd45 gene as a source of b cells lacking cd45 in our reconstitution model (20). again, b6mtc/c recipients were reconstituted with cd45c/c b cells and assessed for susceptibility to tolerance induction by anti-cd45rb. although long-term graft survival (mst >100 days; n = 5) was observed in anti-cd45rb-treated b6mtc/c mice that had received cd45+/+ splenocytes, all grafts (mst = 21c30 days; n = 7) were rejected in the anti-cd45rb-treated b6mtc/c mice that received cd45c/c splenocytes (fig. 3). these data indicate that the tolerogenic mechanism of anti-cd45rb acts, at least in part, directly through cd45rb expressed on b cells and suggests that the ab modifies b cell function.


figure 3. b cell expression of cd45 is required for anti-cd45rb-mediated tolerance. hearts from c3h mice were transplanted into the abdominal cavity of b cell-deficient b6 mice reconstituted with splenocytes from either normal or cd45 knockout b6 mice. all allografts survived permanently in the cd45+/+ splenocyte-reconstituted ko mice (n = 5) following a short course of anti-cd45rb therapy, but all grafts were rejected in the cd45c/c splenocyte-reconstituted ko mice (n = 7) treated with the same anti-cd45rb regimen (p = 0.001).


b cell-mediated anti-cd45rb-induced tolerance requires cd40 and cd80/86 but not secreted ab


we also assessed the effector mechanisms that could be used by b cells to promote tolerance. in this regard, we investigated both the necessity of b cell-mediated ab production and the role of b cell-expressed costimulatory molecules. to address the role of ab, we used the b cell reconstitution model together with b cells that are incapable of secreting ig as developed by hannum et al. (16). these b cells, denoted migm and maintained on the jhc/c balb/c background, have a specific mutation in the ig exons required for secretion of ig. we transplanted cardiac allografts into b cell-deficient ts1/jhc/c mice that received splenocytes from migm mice. similar to the wild-type transplant model, long-term survival of cardiac allografts (n = 4; >100 days) was achieved in anti-cd45rb-treated b cell-deficient mice reconstituted with b cells unable to secrete ab (fig. 4a). these data indicate that b cell-dependent transplant tolerance in this model is not mediated through abs. to assess the role of b-t interactions through costimulatory molecules, cardiac allografts were transplanted to b cell-deficient mice reconstituted with splenocytes from knockout mice with deficiency for the costimulatory molecule cd40 or the combination b7-1/b7-2. as shown in fig. 4b, long-term survival was not obtained in anti-cd45rb-treated b cell-deficient mice reconstituted with b cells lacking either the cd40 molecule or b7-1/2 molecules, whereas long-term survival (mst >100 days; n = 9) was readily achievable in b cell-deficient mice reconstituted with wild-type b cells. these data indicate the importance of costimulatory signaling in b cell-mediated transplantation tolerance following anti-cd45rb therapy and implicate a direct t-b interaction in the tolerogenic pathway.


figure 4. b cell-dependent tolerance mechanisms. a, hearts from ha104 mice were transplanted into b cell-deficient ts1/jhc/c mice reconstituted with either normal splenocytes or migm splenocytes that are incapable of secreting ig. all ha heart grafts were rejected in either untreated ts1/jhc/c mice (n = 4) or anti-cd45rb-treated ts1/jhc/c mice (n = 6) but were accepted in the anti-cd45rb-treated ts1/jhc/c mice (n = 4; p = 0.004 vs no treatment) reconstituted with migm b cells. b, hearts from c3h mice were transplanted into the abdominal cavity of b cell-deficient ko-b6 mice reconstituted with splenocytes from normal or b7-1/b7-2-deficient or cd40-deficient b6 mice. most grafts (n = 6) survived permanently in the anti-cd45rb-treated ko-b6 mice that received normal splenocytes, but all the grafts (n = 7/group) were rejected in the anti-cd45rb-treated ko-b6 mice reconstituted with either b7 (p = 0.002 vs wild-type splenocytes) or cd40-deficient splenocytes (p = 0.001 vs wild-type splenocytes).


discussion


the current work adds to our understanding of tolerance induced by anti-cd45rb by demonstrating the obligate role of b cells. this function requires their expression of cd45 and the costimulatory molecules b7 and cd40 but is not dependent on ab. collectively, these findings suggest a model in which b cells interact directly with t cells to foster tolerance and identify previously uncharacterized b cell-dependent pathways of allograft tolerance induction.


we have also reported that anti-cd45rb therapy has separable effects in the peripheral and central immune compartments (4). specifically, tolerance induced by anti-cd45rb administration requires the presence of an intact thymus to generate donor ag-specific tregs. however, in the absence of a thymus (and tolerance), anti-cd45rb still exhibits marked peripheral immunosuppressive activity that, as we demonstrate here, is lost in the absence of b cells (mst = 56 days vs mst = 14 days in ko mice). thus, we conclude that the peripheral interaction of b cells with t cells in anti-cd45rb-treated hosts is responsible for the peripheral immunosuppressive effects of the agent and suggest that this effect is needed to render the periphery receptive to treg-mediated donor-specific tolerance perhaps by favorably altering the ratio of tregs to effectors in favor of tolerance.


the mechanism by which anti-cd45rb induces peripheral b cell-mediated attenuation of t cell alloreactivity remains to be defined. however, because cd45rb treatment acts through t cell ctla4 up-regulation (7, 8, 9), our finding that b7-deficent b cells cannot mediate anti-cd45rb-induced tolerance suggests that b cells, as the most prevalent apc population, provide critical b7 ligands for ctla4 triggering in the model. the requirement for cd40 may also contribute to this pathway because cd40 signaling couples to nf-b, which may control surface expression of the b7 molecules during t cell engagement. in addition to a potential interaction with ctla-4-expressing regulatory cells, our preliminary studies (data not shown) indicate that anti-cd45rb-activated b cells enhance activation-induced t cell death, which may eliminate alloreactive t cells in the periphery. thus, b cells may positively affect the balance between regulatory and effector cells. in addition to a role for treg development, b cells may interact directly with t cell subsets other than cd4+cd25+ tregs to inhibit immune activation in the periphery. in a transgenic model of t cell activation, knoechel et al. (21) have demonstrated the ability of b cells to inhibit the proliferation of autoreactive t cells and prevent disease progression. in a tcr diverse model of colitis, wei et al. (22) have found similar results. in their model, b cells played a critical role in the prevention of autoimmune colitis. investigation of the cellular mechanism indicated a role for interactions with both nkt cells as well as cd8 cells.


finally, our observation raises interesting questions regarding the use of anti-b cell therapy in clinical approaches to generate tolerance. recently, interest has grown in the use of b cell-depleting agents such as anti-cd20 in transplantation, with the rationale that b cells may serve as critical apcs or produce deleterious alloantibody. the current data suggest a contrary role for b cells in the setting of anti-cd45rb therapy because they are essential components of tolerance induction. whether other tolerance regimens rely on b cells or would benefit from their depletion will require further study.


in summary, short-term administration of anti-cd45rb ab effectively prevents cardiac allograft rejection and induces t cell tolerance to donor alloantigens. the tolerogenic efficacy of anti-cd45rb therapy requires host b cells that mediate anti-cd45rb-induced tolerance through the interaction of costimulatory molecules on b cells with t cells. because treg formation in the thymus is also required, it is tempting to hypothesize that enhanced activation of peripheral host b cells contributes to render peripheral t cells unresponsive and receptive to suppression by donor-specific thymic-derived tregs, thereby giving rise to a state of stable and long-lived tolerance. overall, this study reveals the contribution of previously unrecognized cellular pathways to permanent donor-specific tolerance following a mab therapy and suggests a unique role for b cells in tolerance induction to alloantigens.


acknowledgments


it is with sadness that we would like to pay tribute to the legacy of dr. robert zhong who passed away during the completion of these studies. he was a pioneer in the study of many aspects of transplantation biology and was a valued colleague to all of us who have investigated the novel functions of anti-cd45rb immunotherapy.


disclosures


the authors have no financial conflict of interest.


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