Role of anti‐CD40 antibody‐mediated costimulation blockade on non‐Gal antibody production and heterotopic cardiac xenograft survival in a GTKO.hCD46Tg pig‐to‐baboon model

Mohiuddin, Muhammad M.; Singh, Avneesh K.; Corcoran, Philip C.; Hoyt, Robert F.; Thomas, Marvin L.; Lewis, Billeta; Eckhaus, Michael; Dabkowski, Nicole L.; Belli, Aaron J.; Reimann, Keith A.; Ayares, David; Horvath, Keith A.

doi:10.1111/xen.12066

Cited by 84 publications

(100 citation statements)

References 31 publications

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“…However, treatment with 4 weekly doses of anti CD20 effectively depleted all the circulating B cells and they stayed depleted for at least 60 days after which their number was slowly restored to pretreatment levels (6, 9). Although anti CD20 has no direct affect on plasma cells, the non Gal antibody production was maintained at a very low level by this treatment.…”

Section: Resultsmentioning

confidence: 99%

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Genetically engineered pigs and target-specific immunomodulation provide significant graft survival and hope for clinical cardiac xenotransplantation

Mohiuddin

Singh

Corcoran

et al. 2014

The Journal of Thoracic and Cardiovascular Surgery

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118

115

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Objective Cardiac transplantation, along with available mechanical alternatives, are the only possible solutions for end stage cardiac disease. Unfortunately, due to the limited supply of human organs, xenotransplantation may be the ideal method to overcome this shortage. Recently we have seen significant prolongation of heterotopic cardiac xenograft survival from three months to twelve months and beyond. Methods Hearts from genetically engineered (GE) piglets that were alpha 1–3 galactosidase transferase knockout (GTKO) and expressed the human complement regulatory gene, CD46 (hCD46)(Group A, B, C), and the human Thrombomodulin (hTBM) gene (Group D), were heterotropically transplanted in baboons treated with anti-thymocyte globulin (ATG), cobra venom factor (CVF), anti CD20 antibody, and costimulation blockade (anti CD154 antibody (clone 5C8), in group A, or anti-CD40 antibody (clone 3A8;20mg/Kg) in group B, clone 2C10R4 (25mg/Kg) in group C, or clone 2C10R4 (50mg/Kg) in group D, along with conventional non-specific immunosuppressive agents. Results Group A grafts (n=8) survived for an average of 70 days with the longest survival of 236 days. Some animals in this group (n=3) developed microvascular thrombosis due to platelet activation and consumption, which resulted in spontaneous hemorrhage. The median survival time in group B (n=3) was 21 days, group C (n=6) was 80 days, and group D (n=5) was >200days. Three grafts in group D are still contracting well, with the longest ongoing graft survival surpassing the one-year mark. Conclusion GE pig hearts (GTKOhTg.hCD46.hTBM) with modified targeted immunosuppression (anti CD40mAb) achieved long term cardiac xenograft survival. This potentially paves the way for clinical xenotransplantation if similar survival can be reproduced in an orthotopic transplantation model.

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Section: Resultsmentioning

confidence: 99%

“…Neither clones had the thrombogenic characteristics seen with the anti CD154 (5C8) clone. The antibody from the 3A8 clone was not able to extend graft survival beyond 28 days (9). However, the graft survival was significantly prolonged with the 2C10R4 clone, irrespective of the pig genetics used.…”

Section: Discussionmentioning

confidence: 99%

Genetically engineered pigs and target-specific immunomodulation provide significant graft survival and hope for clinical cardiac xenotransplantation

Mohiuddin

Singh

Corcoran

et al. 2014

The Journal of Thoracic and Cardiovascular Surgery

Self Cite

118

115

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“…Since neither 5C3 nor 3A8 can be used for future in vivo studies because 5C3 is limited to in vitro use and 3A8 has the capacity to be a B cell agonist [19, 23], only 2C10R4 was studied in subsequent in vitro functional assays.…”

Section: Resultsmentioning

confidence: 99%

“…Several anti-CD40mAbs, e.g., Chi220, 3A8, 5D12, 4D12, and 2C10, have shown promise in various transplant models without thromboembolic complication [4-6, 9-19, 21-24]. However, some of these anti-CD40 mAbs (i.e., Chi220, 3A8) have been associated with potentially adverse effects, e.g., as a B cell agonist or associated with substantial peripheral B cell depletion [9, 16, 19, 23]. Therefore, these specific anti-CD40mAbs may not be candidates for clinical translation.…”

Section: Discussionmentioning

confidence: 99%

“…Mohiuddin et al demonstrated prolonged xenograft survival of pig hearts in baboons receiving high doses of 2C10R4 (50mg/kg) in the absence of belatacept, but in combination with B cell depletion [23, 24], suggesting CD40/CD154 blockade alone at high dosage is sufficient to prevent rejection. Our own group has recently confirmed the good effect of this regimen after pig kidney transplantation in a baboon [47].…”

Section: Discussionmentioning

confidence: 99%

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In vitro testing of an anti-CD40 monoclonal antibody, clone 2C10, in primates and pigs

Lee

Satyananda

Iwase

et al. 2015

Transplant Immunology

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Background The CD40/CD154 and CD28/B7 pathways are important in allo- and xeno-transplantation. Owing to the thrombotic complications of anti-CD154mAb, anti-CD40mAb has emerged as a promising inhibitor of costimulation. Various clones of anti-CD40mAb have been developed against primate species, e.g., clone 2C10 against rhesus monkeys. We have compared the in vitro efficacy of 2C10 to prevent a T cell response in primates and pigs. Methods The binding of 2C10 to antigen-presenting cells (PBMCs [B cells]) of humans, rhesus and cynomolgus monkeys, baboons, and pigs was measured by flow cytometry, and was also tested indirectly by a blocking assay. The functional capacity of 2C10 was tested by mixed lymphocyte reaction (MLR) with polyclonal stimulation by phytohemagglutinin (PHA) and also with wild-type pig aortic endothelial cells (pAECs) as stimulators. Results There was a significant reduction in binding of 2C10 to baboon PBMCs compared to rhesus, cynomolgus, and human PBMCs, and minimal binding to pig PBMCs. The blocking assay confirmed that the binding of 2C10 was significantly lower to baboon PBMCs when compared to the other primate species tested. The functional assay with PHA showed significantly reduced inhibition of PBMC proliferation in humans, cynomolgus monkeys, and baboons compared to rhesus monkeys, which was confirmed on MLR with pAECs. Conclusions Since both the binding and functional activity of 2C10 in the baboon is lower than in rhesus monkeys, in vivo treatment using 2C10 in the baboon might require a higher dose or more frequent administration in comparison to rhesus monkeys. It may also be beneficial to develop species-specific clones of anti-CD40mAb.

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Immunoprotection Strategies in β‐Cell Replacement Therapy: A Closer Look at Porcine Islet Xenotransplantation

Grimus,

Sarangova,

Welzel

et al. 2024

Advanced Science

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Type 1 diabetes mellitus (T1DM) is characterized by absolute insulin deficiency primarily due to autoimmune destruction of pancreatic β‐cells. The prevailing treatment for T1DM involves daily subcutaneous insulin injections, but a substantial proportion of patients face challenges such as severe hypoglycemic episodes and poorly controlled hyperglycemia. For T1DM patients, a more effective therapeutic option involves the replacement of β‐cells through allogeneic transplantation of either the entire pancreas or isolated pancreatic islets. Unfortunately, the scarcity of transplantable human organs has led to a growing list of patients waiting for an islet transplant. One potential alternative is xenotransplantation of porcine pancreatic islets. However, due to inter‐species molecular incompatibilities, porcine tissues trigger a robust immune response in humans, leading to xenograft rejection. Several promising strategies aim to overcome this challenge and enhance the long‐term survival and functionality of xenogeneic islet grafts. These strategies include the use of islets derived from genetically modified pigs, immunoisolation of islets by encapsulation in biocompatible materials, and the creation of an immunomodulatory microenvironment by co‐transplanting islets with accessory cells or utilizing immunomodulatory biomaterials. This review concentrates on delineating the primary obstacles in islet xenotransplantation and elucidates the fundamental principles and recent breakthroughs aimed at addressing these challenges.

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Role of anti‐CD40 antibody‐mediated costimulation blockade on non‐Gal antibody production and heterotopic cardiac xenograft survival in a GTKO.hCD46Tg pig‐to‐baboon model

Cited by 84 publications

References 31 publications

Genetically engineered pigs and target-specific immunomodulation provide significant graft survival and hope for clinical cardiac xenotransplantation

Genetically engineered pigs and target-specific immunomodulation provide significant graft survival and hope for clinical cardiac xenotransplantation

In vitro testing of an anti-CD40 monoclonal antibody, clone 2C10, in primates and pigs

Immunoprotection Strategies in β‐Cell Replacement Therapy: A Closer Look at Porcine Islet Xenotransplantation

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