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1. Origin of Enriched Regulatory T Cells in Patients Receiving Combined Kidney–Bone Marrow Transplantation to Induce Transplantation Tolerance

Author

Sprangers, B., DeWolf, S., Savage, T. M., Morokata, T., Obradovic, A., LoCascio, S. A., Shonts, B., Zuber, J., Lau, S. P., Shah, R., Morris, H., Steshenko, V., Zorn, E., Preffer, F. I., Olek, S., Dombkowski, D. M., Turka, L. A., Colvin, R., Winchester, R., Kawai, T., and Sykes, M.

Abstract

We examined tolerance mechanisms in patients receiving HLA‐mismatched combined kidney–bone marrow transplantation (CKBMT) that led to transient chimerism under a previously published nonmyeloablative conditioning regimen (Immune Tolerance Network study 036). Polychromatic flow cytometry and high‐throughput sequencing of T cell receptor‐β hypervariable regions of DNAfrom peripheral blood regulatory T cells (Tregs) and CD4 non‐Tregs revealed marked early enrichment of Tregs (CD3+CD4+CD25highCD127lowFoxp3+) in blood that resulted from peripheral proliferation (Ki67+), possibly new thymic emigration (CD31+), and, in one tolerant subject, conversion from non‐Tregs. Among recovering conventional T cells, central memory CD4+and CD8+cells predominated. A large proportion of the T cell clones detected in posttransplantation biopsy specimens by T cell receptorsequencing were detected in the peripheral blood and were not donor‐reactive. Our results suggest that enrichment of Tregs by new thymic emigration and lymphopenia‐driven peripheral proliferation in the early posttransplantation period may contribute to tolerance after CKBMT. Further, most conventional T cell clones detected in immunologically quiescent posttransplantation biopsy specimens appear to be circulating cells in the microvasculature rather than infiltrating T cells. In patients receiving HLA‐mismatched combined kidney–bone marrow transplantation to induce transplantation tolerance, polychromatic flow cytometry and high‐throughput T cell receptor sequencing reveal an early enrichment of regulatory T cells, probably arising from new thymic emigration and lymphopenia‐driven peripheral proliferation, though the T cell receptors detected are likely from circulating T cells in the allograft microvasculature rather than infiltrating T cells.

Published
2017
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2. Long‐Term Results in Recipients of Combined HLA‐Mismatched Kidney and Bone Marrow Transplantation Without Maintenance Immunosuppression

Author

Kawai, T., Sachs, D. H., Sprangers, B., Spitzer, T. R., Saidman, S. L., Zorn, E., Tolkoff‐Rubin, N., Preffer, F., Crisalli, K., Gao, B., Wong, W., Morris, H., LoCascio, S. A., Sayre, P., Shonts, B., Williams, W. W., Smith, R.‐N., Colvin, R. B., Sykes, M., and Cosimi, A. B.

Abstract

The authors evaluate the long‐term results of HLA‐mismatched kidney transplantation without maintenance immunosuppression in 10 subjects following combined kidney and bone marrow transplantation in comparison with 21 immunologically similar living donor kidney recipients who were treated with conventional immunosuppression.

Published
2014
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3. Long-Term Results in Recipients of Combined HLA-Mismatched Kidney and Bone Marrow Transplantation Without Maintenance Immunosuppression

Author

Kawai, T., Sachs, D.H., Sprangers, B., Spitzer, T.R., Saidman, S.L., Zorn, E., Tolkoff-Rubin, N., Preffer, F., Crisalli, K., Gao, B., Wong, W., Morris, H., LoCascio, S.A., Sayre, P., Shonts, B., Williams, W.W., Smith, R.-N., Colvin, R.B., Sykes, M., and Cosimi, A.B.

Abstract

We report here the long-term results of HLA-mismatched kidney transplantation without maintenance immunosuppression (IS) in 10 subjects following combined kidney and bone marrow transplantation. All subjects were treated with nonmyeloablative conditioning and an 8- to 14-month course of calcineurin inhibitor with or without rituximab. All 10 subjects developed transient chimerism, and in seven of these, IS was successfully discontinued for 4 or more years. Currently, four subjects remain IS free for periods of 4.5–11.4 years, while three required reinstitution of IS after 5–8 years due to recurrence of original disease or chronic antibody-mediated rejection. Of the 10 renal allografts, three failed due to thrombotic microangiopathy or rejection. When compared with 21 immunologically similar living donor kidney recipients treated with conventional IS, the long-term IS-free survivors developed significantly fewer posttransplant complications. Although most recipients treated with none or two doses of rituximab developed donor-specific antibody (DSA), no DSA was detected in recipients treated with four doses of rituximab. Although further revisions of the current conditioning regimen are planned in order to improve consistency of the results, this study shows that long-term stable kidney allograft survival without maintenance IS can be achieved following transient mixed chimerism induction.

Published
2014
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4. Acute Renal Endothelial Injury During Marrow Recovery in a Cohort of Combined Kidney and Bone Marrow Allografts

Author

Farris, A.B., Taheri, D., Kawai, T., Fazlollahi, L., Wong, W., Tolkoff‐Rubin, N., Spitzer, T. R., Iafrate, A. J., Preffer, F. I., LoCascio, S. A., Sprangers, B., Saidman, S., Smith, R. N., Cosimi, A. B., Sykes, M., Sachs, D. H., and Colvin, R. B.

Abstract

An idiopathic capillary leak syndrome (‘engraftment syndrome’) often occurs in recipients of hematopoietic cells, manifested clinically by transient azotemia and sometimes fever and fluid retention. Here, we report the renal pathology in 10 recipients of combined bone marrow and kidney allografts. Nine developed graft dysfunction on day 10–16 and renal biopsies showed marked acute tubular injury, with interstitial edema, hemorrhage and capillary congestion, with little or no interstitial infiltrate (≤10%) and marked glomerular and peritubular capillary (PTC) endothelial injury and loss by electron microscopy. Two had transient arterial endothelial inflammation; and 2 had C4d deposition. The cells in capillaries were primarily CD68+MPO+mononuclear cells and CD3+CD8+T cells, the latter with a high proliferative index (Ki67+). B cells (CD20+) and CD4+T cells were not detectable, and NK cells were rare. XY FISH showed that CD45+cells in PTCs were of recipient origin. Optimal treatment remains to be defined; two recovered without additional therapy, six were treated with anti‐rejection regimens. Except for one patient, who later developed thrombotic microangiopathy and one with acute humoral rejection, all fully recovered within 2–4 weeks. Graft endothelium is the primary target of this process, attributable to as yet obscure mechanisms, arising during leukocyte recovery.

Published
2011
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5. Mechanisms of Donor‐Specific Tolerance in Recipients of Haploidentical Combined Bone Marrow/Kidney Transplantation

Author

Andreola, G., Chittenden, M., Shaffer, J., Cosimi, A. B., Kawai, T., Cotter, P., LoCascio, S. A., Morokata, T., Dey, B. R., Tolkoff‐Rubin, N. T., Preffer, F., Bonnefoix, T., Kattleman, K., Spitzer, T. R., Sachs, D. H., and Sykes, M.

Abstract

We recently reported long‐term organ allograft survival without ongoing immunosuppression in four of five patients receiving combined kidney and bone marrow transplantation from haploidentical donors following nonmyeloablative conditioning. In vitroassays up to 18 months revealed donor‐specific unresponsiveness. We now demonstrate that T cell recovery is gradual and is characterized by memory‐type cell predominance and an increased proportion of CD4+CD25+CD127−FOXP3+Treg during the lymphopenic period. Complete donor‐specific unresponsiveness in proliferative and cytotoxic assays, and in limiting dilution analyses of IL‐2‐producing and cytotoxic cells, developed and persisted for the 3‐year follow‐up in all patients, and extended to donor renal tubular epithelial cells. Assays in two of four patients were consistent with a role for a suppressive tolerance mechanism at 6 months to 1 year, but later (≥18 months) studies on all four patients provided no evidence for a suppressive mechanism. Our studies demonstrate, for the first time, long‐term, systemic donor‐specific unresponsiveness in patients with HLA‐mismatched allograft tolerance. While regulatory cells may play an early role, long‐term tolerance appears to be maintained by a deletion or anergy mechanism.

Published
2011
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6. Mechanisms of Donor-Specific Tolerance in Recipients of Haploidentical Combined Bone Marrow/Kidney Transplantation

Author

Andreola, G., Chittenden, M., Shaffer, J., Cosimi, A.B., Kawai, T., Cotter, P., LoCascio, S.A., Morokata, T., Dey, B.R., Tolkoff-Rubin, N.T., Preffer, F., Bonnefoix, T., Kattleman, K., Spitzer, T.R., Sachs, D.H., and Sykes, M.

Abstract

We recently reported long-term organ allograft survival without ongoing immunosuppression in four of five patients receiving combined kidney and bone marrow transplantation from haploidentical donors following nonmyeloablative conditioning. In vitroassays up to 18 months revealed donor-specific unresponsiveness. We now demonstrate that T cell recovery is gradual and is characterized by memory-type cell predominance and an increased proportion of CD4+CD25+CD127−FOXP3+Treg during the lymphopenic period. Complete donor-specific unresponsiveness in proliferative and cytotoxic assays, and in limiting dilution analyses of IL-2-producing and cytotoxic cells, developed and persisted for the 3-year follow-up in all patients, and extended to donor renal tubular epithelial cells. Assays in two of four patients were consistent with a role for a suppressive tolerance mechanism at 6 months to 1 year, but later (≥18 months) studies on all four patients provided no evidence for a suppressive mechanism. Our studies demonstrate, for the first time, long-term, systemic donor-specific unresponsiveness in patients with HLA-mismatched allograft tolerance. While regulatory cells may play an early role, long-term tolerance appears to be maintained by a deletion or anergy mechanism.

Published
2011
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7. Myeloma Responses and Tolerance Following Combined Kidney and Nonmyeloablative Marrow Transplantation: In Vivo and In Vitro Analyses

Author

Fudaba, Y., Spitzer, T. R., Shaffer, J., Kawai, T., Fehr, T., Delmonico, F., Preffer, F., Tolkoff-Rubin, N., Dey, B. R., Saidman, S. L., Kraus, A., Bonnefoix, T., McAfee, S., Power, K., Kattleman, K., Colvin, R. B., Sachs, D. H., Cosimi, A. B., and Sykes, M.

Abstract

Six patients with renal failure due to multiple myeloma (MM) received simultaneous kidney and bone marrow transplantation (BMT) from HLA-identical sibling donors following nonmyeloablative conditioning, including cyclophosphamide (CP), peritransplant antithymocyte globulin and thymic irradiation. Cyclosporine (CyA) was given for approximately 2 months posttransplant, followed by donor leukocyte infusions. All six patients accepted their kidney grafts long-term. Three patients lost detectable chimerism but accepted their kidney grafts off immunosuppression for 1.3 to >7 years. One such patient had strong antidonor cytotoxic T lymphocyte (CTL) responses in association with marrow rejection. Two patients achieved full donor chimerism, but resumed immunosuppression to treat graft-versus-host disease. Only one patient experienced rejection following CyA withdrawal. He responded to immunosuppression, which was later successfully withdrawn. The rejection episode was associated with antidonor Th reactivity. Patients showed CTL unresponsiveness to cultured donor renal tubular epithelial cells. Initially recovering T cells were memory cells and were enriched for CD4+CD25+ cells. Three patients are in sustained complete remissions of MM, despite loss of chimerism in two. Combined kidney/BMT with nonmyeloablative conditioning can achieve renal allograft tolerance and excellent myeloma responses, even in the presence of donor marrow rejection and antidonor alloresponses in vitro.

Published
2006

8. Myeloma Responses and Tolerance Following Combined Kidney and Nonmyeloablative Marrow Transplantation: In Vivoand In VitroAnalyses

Author

Fudaba, Y., Spitzer, T.R., Shaffer, J., Kawai, T., Fehr, T., Delmonico, F., Preffer, F., Tolkoff-Rubin, N., Dey, B.R., Saidman, S.L., Kraus, A., Bonnefoix, T., McAfee, S., Power, K., Kattleman, K., Colvin, R.B., Sachs, D.H., Cosimi, A.B., and Sykes, M.

Abstract

Six patients with renal failure due to multiple myeloma (MM) received simultaneous kidney and bone marrow transplantation (BMT) from HLA-identical sibling donors following nonmyeloablative conditioning, including cyclophosphamide (CP), peritransplant antithymocyte globulin and thymic irradiation. Cyclosporine (CyA) was given for approximately 2 months posttransplant, followed by donor leukocyte infusions. All six patients accepted their kidney grafts long-term. Three patients lost detectable chimerism but accepted their kidney grafts off immunosuppression for 1.3 to >7 years. One such patient had strong antidonor cytotoxic T lymphocyte (CTL) responses in association with marrow rejection. Two patients achieved full donor chimerism, but resumed immunosuppression to treat graft-versus-host disease. Only one patient experienced rejection following CyA withdrawal. He responded to immunosuppression, which was later successfully withdrawn. The rejection episode was associated with antidonor Th reactivity. Patients showed CTL unresponsiveness to cultured donor renal tubular epithelial cells. Initially recovering T cells were memory cells and were enriched for CD4+CD25+cells. Three patients are in sustained complete remissions of MM, despite loss of chimerism in two. Combined kidney/BMT with nonmyeloablative conditioning can achieve renal allograft tolerance and excellent myeloma responses, even in the presence of donor marrow rejection and antidonor alloresponses in vitro.

Published
2006
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9. Regulatory role of mature B cells in a murine model of inflammatory bowel disease.

Author

Mizoguchi, E, Mizoguchi, A, Preffer, F I, and Bhan, A K

Abstract

The spontaneous chronic colitis in TCR alpha mutant (TCRalpha(-/-)) mice mediated by CD4(+) TCRalpha(-)beta(+) T cells is more severe in the absence of mature B cells, suggesting a suppressive role of B cells and Ig in the development of chronic colitis. To investigate the direct role of B cells in the suppression of this colitis, cell transfer studies were performed in TCRalpha(-/-) x Igmu(-/-) (alphamu(-/-)) double-knockout mice. The chronic colitis was markedly attenuated in alphamu(-/-) mice after the adoptive transfer of peripheral B cells from TCRalpha(-/-) mice into 3- to 4-week-old alphamu(-/-) mice prior to the development of colitis. Furthermore, transfer of mature B cells from TCRalpha(-/-) mice markedly decreased the number of pathogenic colonic CD4(+) TCRalpha(-)beta(+) T cells in alphamu(-/-) mice with established colitis. This B cell effect required the presence of functional co-stimulatory molecules CD40 and B7-2 (CD86) but not B7-1 (CD80). These results indicate that mature B cells play an important role in the development of chronic colitis in TCRalpha(-/-) mice by directly regulating the pathogenic T cells (CD4(+) TCRalpha(-)beta(+) T cells).

Published
2000
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12. Identification of pre-T cells in human peripheral blood. Extrathymic differentiation of CD7+CD3- cells into CD3+ gamma/delta+ or alpha/beta+ T cells.

Author

Preffer, F I, Kim, C W, Fischer, K H, Sabga, E M, Kradin, R L, and Colvin, R B

Abstract

CD7+CD3- cells purified (greater than 99.99%) by FACS from the peripheral blood of healthy adults include precursors for mature T cells that have the capacity to differentiate into TCR-1+ or TCR-2+ CD3+ cells. Extrathymic differentiation was demonstrable from all eight healthy donors in the presence of a high concentration of IL-2, mitogenic levels of PHA, and irradiated blood mononuclear feeder cells, after a lag of approximately 40 d in vitro. The extrathymic T (ET) cells were predominantly TCR-1+, although TCR-2+ cells were also derived. ET TCR-1+ cells were CD4-CD8-, CD4-CD8DIM+, and CD4+CD8-, and were distinguished from natural T TCR-2+ cells by a variety of cell surface markers. The ET cells had phenotypes generally displayed by normal mature T cells, although the CD5DIM+ on ET cells was more typical of thymocytes. Acquisition of CD3 on purified CD7+CD3- cells was not due to antigenic modulation or growth of contaminants, and ET cells could be demonstrated at the clonal level. Studies in athymic mice and bone marrow recipients support the view that extrathymic maturation does occur in vivo. Whether the CD7+CD3- cell population was unexposed to the thymus, or exposed but not processed, is unknown. In any case, unusual or "forbidden" autoreactive specificities are predicted since ET cells differentiate without thymic selection of the TCR.

Published
1989
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