Durable hematopoiesis and tolerance after vertebral bone marrow transplant from a deceased lung transplant donor
Paul Szabolcs, Xiaohua Chen, Marian G. Michaels, Memphis Hill, Evelyn Garchar, Zarreen Amin, Heather M. Stanczak, Shawna McIntyre, Aleksandra Petrovic, Dhivyaa Rajasundaram, Ansuman Chattopadhyay, Jonathan E. Spahr, Peter D. Wearden, Geoffrey Kurland
Paul Szabolcs, Xiaohua Chen, Marian G. Michaels, Memphis Hill, Evelyn Garchar, Zarreen Amin, Heather M. Stanczak, Shawna McIntyre, Aleksandra Petrovic, Dhivyaa Rajasundaram, Ansuman Chattopadhyay, Jonathan E. Spahr, Peter D. Wearden, Geoffrey Kurland
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Research Article Clinical Research Hematology Immunology

Durable hematopoiesis and tolerance after vertebral bone marrow transplant from a deceased lung transplant donor

Abstract

We hypothesized that bone marrow transplantation (BMT) using marrow extracted from the vertebral bodies (VBs) of an unrelated deceased lung transplant donor would be able to establish persistent hematopoiesis and generate immunity and tolerance. A teenager with severe combined immunodeficiency with lung failure due to recurrent pneumonias underwent lung transplantation in 2016 from a 1/8 HLA allele–matched unrelated donor, followed by BMT 4 months later using T cell/B cell–depleted, cryopreserved VB marrow. Rapid engraftment was followed by accelerating immune competence at 6 months, with independence from immunosuppression by 16 months. Donor T cell (>95%) and myeloid chimerism (7%–10%) has persisted for over 9 years. At 2 years after BMT, circulating T cells were hyporesponsive to host dendritic cells in vitro. T cell receptor clonotyping revealed the disappearance of host-reactive clones, and T cell RNA sequencing exhibited downmodulated signaling pathways for cytotoxicity/rejection, paired with upregulated immunomodulatory pathways, suggesting active suppression. In parallel, host monocytes upregulated certain signaling pathways, indicating active interactions between post-thymic donor T cells and host monocytes. In summary, for the first time to our knowledge, durable hematopoietic engraftment, immunity, and tolerance were demonstrable in a recipient of BMT obtained from a VB graft.

Authors

Paul Szabolcs, Xiaohua Chen, Marian G. Michaels, Memphis Hill, Evelyn Garchar, Zarreen Amin, Heather M. Stanczak, Shawna McIntyre, Aleksandra Petrovic, Dhivyaa Rajasundaram, Ansuman Chattopadhyay, Jonathan E. Spahr, Peter D. Wearden, Geoffrey Kurland

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Figure 1

Clinical scheme and study design.

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Clinical scheme and study design. After the eligibility of this study pr...
After the eligibility of this study protocol was confirmed and listed with UNOS, a suitable donor was identified (July 2013 to September 2015). Vertebral bodies were surgically recovered before the patient received bilateral orthotopic lung transplant (BOLT) (September 2015). The vertebral bodies were dissected, crushed, and filtered within 48 hours after they were received. After CD3+ T/CD19+ B cell depletion using CliniMACS, vertebral bone marrow was collected and cryopreserved. A few months later (minimum of 8 weeks after BOLT), conditioning regimen was performed, followed by bone marrow transplantation (BMT) (January 2016, day 0). On day +13 after BMT (February 2016), donor engraftment was confirmed. To overcome T cell lymphopenia associated with the emergence of host T cells (73% host at 2 months), the patient received donor leukocyte infusion (DLI; April 2016, day +69). The immunosuppressive treatment was maintained until approximately 1 year after BMT.