Megan M. Durham scite author profile

Many strategies have been proposed to induce tolerance to transplanted tissue in rodents; however, few if any have shown equal efficacy when tested in nonhuman primate transplant models. We hypothesized that a critical distinction between specific pathogen-free mice and nonhuman primates or human patients is their acquired immune history. Here, we show that a heterologous immune response — specifically, virally induced alloreactive memory — is a potent barrier to tolerance induction. A critical threshold of memory T cells is needed to promote rejection, and CD8+ “central” memory T cells are primarily responsible. Finally, treatment with deoxyspergualin, an inhibitor of NF-κB translocation, together with costimulation blockade, synergistically impairs memory T cell activation and promotes antigen-specific tolerance of memory. These data offer a potential explanation for the difficulty encountered when inducing tolerance in nonhuman primates and human patients and provide insight into the signaling pathways essential for memory T cell activation and function

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Asialo GM1+ CD8+ T cells play a critical role in costimulation blockade–resistant allograft rejection

Trambley¹,

Bingaman²,

Lin³

et al. 1999

J. Clin. Invest.

332

295

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Simultaneous blockade of the CD40 and CD28 costimulatory pathways is an effective treatment strategy to promote allograft acceptance but does not lead to indefinite allograft survival. The immune mechanisms responsible for costimulation-independent rejection are not defined. Here we have studied the rejection responses of murine C57BL/6 recipients, which we show to be relatively resistant to inhibition by combined CD40/CD28 blockade. We demonstrate that asialo GM1 + CD8 + cells play a critical role in this costimulation blockade-resistant rejection. These results provide new insights into the costimulatory requirements for T-cell subsets and demonstrate for the first time that combined blockade of the CD40 and CD28 pathways does not adequately inhibit CD8-mediated skin allograft rejection. Furthermore, we provide evidence that asialo GM1 is a potentially important therapeutic target for CD8-dependent immune responses.

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Costimulation Blockade, Busulfan, and Bone Marrow Promote Titratable Macrochimerism, Induce Transplantation Tolerance, and Correct Genetic Hemoglobinopathies with Minimal Myelosuppression

Adams¹,

Durham²,

Kean

et al. 2001

152

213

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Mixed hemopoietic chimerism has the potential to correct genetic hemological diseases (sickle cell anemia, thalassemia) and eliminate chronic immunosuppressive therapy following organ transplantation. To date, most strategies require either recipient conditioning (γ-irradiation, depletion of the peripheral immune system) or administration of “mega” doses of bone marrow to facilitate reliable engraftment. Although encouraging, many issues remain that may restrict or prevent clinical application of such strategies. We describe an alternative, nonirradiation based strategy using a single dose of busulfan, costimulation blockade, and T cell-depleted donor bone marrow, which promotes titratable macrochimerism and a reshaping of the T cell repertoire. Chimeras exhibit robust donor-specific tolerance, evidenced by acceptance of fully allogeneic skin grafts and failure to generate donor-specific proliferative responses in an in vivo graft-versus-host disease model of alloreactivity. In this model, donor cell infusion and costimulation blockade without busulfan were insufficient for tolerance induction as donor-specific IFN-γ-producing T cells re-emerged and skin grafts were rejected at ∼100 days. When applied to a murine β-thalassemia model, this approach allows for the normalization of hemologic parameters and replacement of the diseased red cell compartment. Such a protocol may allow for clinical application of mixed chimerism strategies in patients with end-stage organ disease or hemoglobinopathies.

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Cutting Edge: Administration of Anti-CD40 Ligand and Donor Bone Marrow Leads to Hemopoietic Chimerism and Donor-Specific Tolerance Without Cytoreductive Conditioning

et al. 2000

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Transplantation tolerance, defined as allograft acceptance by an immunocompetent recipient in the absence of long-term immunosuppression, has remained an elusive goal in clinical transplantation. Robust experimental tolerance induction strategies have in common methods to induce mixed hemopoietic chimerism. To date, however, chimerism induction across allogeneic barriers has required recipient conditioning with irradiation or cytoablative agents. In this paper we show that B6 recipients of fully allogeneic BALB/c skin grafts treated with repeated doses of donor bone marrow and anti-CD40 ligand (CD40L) develop durable (>300 days), readily detectable (6-12%) multilineage hemopoietic chimerism, indefinite allograft acceptance (>300 days), and donor-specific tolerance to secondary skin grafts. Analysis of the TCR repertoire of treated mice indicates that the underlying mechanisms of tolerance are in part mediated by deletion of donor-reactive T cells. These data demonstrate that durable hemopoietic chimerism and robust transplantation tolerance can be achieved without cytotoxic conditioning using a potentially clinically applicable regimen.

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Megan M. Durham

Heterologous immunity provides a potent barrier to transplantation tolerance

Heterologous immunity provides a potent barrier to transplantation tolerance

Asialo GM1+ CD8+ T cells play a critical role in costimulation blockade–resistant allograft rejection

Costimulation Blockade, Busulfan, and Bone Marrow Promote Titratable Macrochimerism, Induce Transplantation Tolerance, and Correct Genetic Hemoglobinopathies with Minimal Myelosuppression

Cutting Edge: Administration of Anti-CD40 Ligand and Donor Bone Marrow Leads to Hemopoietic Chimerism and Donor-Specific Tolerance Without Cytoreductive Conditioning

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