Abstract

The development of anti-FVIII inhibitory antibodies (inhibitors) is a significant problem in FVIII protein replacement therapy in hemophilia A (HA). We have developed a platelet-targeted FVIII gene therapy approach, in which human FVIII expression is driven by the platelet-specific αIIb promoter (2bF8) and demonstrated that 2bF8 gene therapy can restore hemostasis and induce FVIII-specific immune tolerance in FVIII null mice even with pre-existing anti-FVIII immunity when an effective preconditioning regimen is employed. Since busulfan, an alkylating agent with potent effects on primitive hematopoietic cells, is an important component of many hematopoietic stem cell (HSC) transplantation preparative regimens in humans, we evaluated the efficacy of busulfan conditioning regimens in 2bF8 gene therapy. We found that busulfan conditioning alone resulted in sustained therapeutic levels of platelet-FVIII expression in FVIII null mice that received 2bF8-transduced HSCs in the non-inhibitor model but not in the inhibitor model. In the current study, we explored the mechanism of platelet FVIII loss upon busulfan conditioning in the FVIII inhibitor model.FVIII null mice were immunized with recombinant human FVIII (rhF8) to induce anti-FVIII inhibitor development to establish the inhibitor model. Once the inhibitor titers were confirmed, animals received busulfan preconditioning at the dose of 50 mg/kg followed by transplantation of either whole bone marrow or Sca-1 + cells from 2bF8 transgenic (2bF8 Tg) mice. After 4 weeks of bone marrow reconstitution, platelet-FVIII expression levels in recipients transplanted with 2bF8 Tg whole bone marrow cells were 7.19±8.59 mU/10 8 platelets (n=5), which were significantly higher than those obtained from animals transplanted with 2bF8 Tg Sca-1 cells (0.55±1.02 mU/10 8 platelets [n=15]). The differences in platelet-FVIII expression between the whole bone marrow and Sca-1 groups were maintained during the study period for 6 months. When CD8 T cells were depleted in addition to busulfan preconditioning, platelet-FVIII expression was significantly enhanced in rhF8-primed recipients that received 2bF8 Tg Sca-1 cells (2.14±2.25 mU/10 8 platelets [n=8]) and sustained during the study period.We then explored which subset of cells from 2bF8 Tg mice could activate rhF8-primed CD8 T cells using the mouse IFNγ ELISpot assay. rhF8-primed CD8 T cells were stimulated with platelets, Sca-1 + cells, or megakaryocytes sorted from either 2bF8 Tg or FVIII null mice. We found that CD8 T cells from rhF8-primed FVIII null mice were efficiently activated by Sca-1 + cells from 2bF8 Tg mice and secreted IFNγ but not by platelets or megakaryocytes. These results suggest that 2bF8 Tg-Sca-1 + cells could be a potential target for rhF8-primed CD8 T cells. As a control, Sca-1 + cells from FVIII null mice did not activate rhF8-primed CD8 T cells, suggesting that IFNγ production from rhF8-primed CD8 T cells stimulated with 2bF8 Tg-Sca-1 + cells was a FVIII-specific response. To explore whether the elimination of platelet-FVIII expression in the inhibitor model relies on antibody-dependent cellular cytotoxicity (ADCC), we transplanted 2bF8 Tg-Sca-1 + cells into rhF8-primed B-cell deficient μMT mice preconditioned with busulfan. We found that no platelet-FVIII was detected in μMT recipients even though they did not produce anti-FVIII antibodies, suggesting that the loss of platelet-FVIII expression in the inhibitor model is not mediated by the ADCC pathway.In summary, our studies demonstrate that pre-existing anti-FVIII immunity can alter the engraftment of 2bF8-genetically-manipulated Sca-1 + hematopoietic stem/progenitor cells via the cytotoxic CD8 T-cell killing pathway. Sufficient eradication of FVIII-primed CD8 T cells is critical for the success of platelet-targeted gene therapy in hemophilia A with pre-existing immunity. DisclosuresNo relevant conflicts of interest to declare.

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