Elimination of clonogenic malignant human T cells using monoclonal antibodies in combination with 2'-deoxycoformycin.

1987 ◽  
Vol 5 (12) ◽  
pp. 1900-1911 ◽  
Author(s):  
C L Schwartz ◽  
C P Minniti ◽  
P Harwood ◽  
S Na ◽  
M L Banquerigo ◽  
...  
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
Monoclonal Antibodies ◽  
Bone Marrow Transplantation ◽  
Marrow Transplantation ◽  
Ex Vivo ◽  
Autologous Bone Marrow Transplantation ◽  
Autologous Bone Marrow ◽  
Hematopoietic Stem ◽  
T Lymphoblasts

2'Deoxycoformycin (dCF) specifically inhibits adenosine deaminase (ADA) and causes selective cytotoxicity of normal and malignant T cells. In clinical trials, dCF caused rapid lysis of malignant T lymphoblasts. Although dCF has been associated with dose-limiting nonhematopoietic toxicities, myelosuppression has not been observed. Since dCF is relatively nontoxic to hematopoietic stem cells, we tested dCF for utility in the ex vivo purging of malignant T lymphoblasts from remission leukemic bone marrow for autologous bone marrow transplantation. We found that T lymphoblast cell lines were sensitive to dCF (plus deoxyadenosine [dAdo]) under conditions that did not ablate human hematopoietic colony-forming cells. Moreover, combined pharmacologic (dCF plus dAdo) and immunologic (anti-T cell monoclonal antibodies [McAb] plus complement) purging resulted in additive reduction in clonogenic T lymphoblasts. These results provide the basis for a clinical trial of bone marrow transplantation using combined pharmacologic/immunologic purging of T lymphoblasts from patients' harvested autologous marrow.

scholarly journals Autologous bone marrow transplantation for patients with acute lymphoblastic leukemia in second or subsequent remission: results of bone marrow treated with monoclonal antibodies BA-1, BA-2, and BA-3 plus complement

Blood ◽  
1985 ◽  
Vol 66 (3) ◽  
pp. 508-513 ◽  
Author(s):  
N Ramsay ◽  
T LeBien ◽  
M Nesbit ◽  
P McGlave ◽  
D Weisdorf ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Monoclonal Antibodies ◽  
Acute Lymphoblastic Leukemia ◽  
Bone Marrow Transplantation ◽  
Marrow Transplantation ◽  
Lymphoblastic Leukemia ◽  
Autologous Bone Marrow Transplantation ◽  
Autologous Bone Marrow ◽  
Autologous Bone

Abstract Autologous bone marrow transplantation (BMT) was utilized as therapy for 23 patients with acute lymphoblastic leukemia (ALL) in second or greater remission. Bone marrow was treated in vitro with a combination of monoclonal antibodies, consisting of BA-1, BA-2, BA-3, and baby rabbit complement (BRC'). All patients were prepared for transplantation with cyclophosphamide and fractionated total body irradiation. Engraftment occurred in all 23 patients. Seven of 23 patients remain relapse-free from six to 32 months (median, 21.4 months) posttransplant. Failures were due to relapse with the exception of one patient who died of infection. This study demonstrates that autologous BMT using in vitro marrow treatment with BA-1, BA-2, BA-3, and BRC' is safe, allows engraftment, and results in prolonged survival for some patients with ALL in second or greater remission.

scholarly journals Recovery of T cell subsets after autologous bone marrow transplantation is mainly due to proliferation of mature T cells in the graft

Blood ◽  
1985 ◽  
Vol 66 (2) ◽  
pp. 428-431 ◽  
Author(s):  
GC de Gast ◽  
LF Verdonck ◽  
JM Middeldorp ◽  
TH The ◽  
A Hekker ◽  
...  
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
Bone Marrow Transplantation ◽  
T Cell ◽  
Cd8 T Cells ◽  
Marrow Transplantation ◽  
Autologous Bone Marrow Transplantation ◽  
Autologous Bone Marrow ◽  
T Cell Subsets ◽  
Autologous Bone

Abstract In 22 patients with malignancies, treated with high-dose chemoradiotherapy and autologous bone marrow transplantation (BMT), peripheral blood T cell subsets and functions were studied. In ten cytomegalovirus (CMV)-negative patients, CD4+ and CD8+ T cells (representing T cells of the helper/inducer phenotype and T cells of the suppressor/cytotoxic phenotype, respectively), recovered slowly and simultaneously. In 12 CMV-positive patients, however, CD8+ T cells recovered more rapidly than CD4+ T cells and rose to increased counts. No T cells with an immature phenotype (CD1+, OKT6+) were observed. Lymphocyte stimulation by herpes simplex virus infected fibroblasts (and by CMV-infected fibroblasts in CMV-positive patients) in contrast remained high and even increased after BMT in both groups. These data indicate that T cell recovery after autologous BMT is mainly due to proliferation of mature T cells present in the BM graft and not to generation of new T cells from T cell precursors.

scholarly journals Ganciclovir treatment of herpes simplex thymidine kinase-transduced primary T lymphocytes: an approach for specific in vivo donor T-cell depletion after bone marrow transplantation?

Blood ◽  
1994 ◽  
Vol 84 (4) ◽  
pp. 1333-1341 ◽  
Author(s):  
P Tiberghien ◽  
CW Reynolds ◽  
J Keller ◽  
S Spence ◽  
M Deschaseaux ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
T Cells ◽  
Bone Marrow Transplantation ◽  
Herpes Simplex ◽  
Marrow Transplantation ◽  
Ex Vivo ◽  
Retroviral Vector ◽  
Hematopoietic Stem

Abstract Allogeneic bone marrow transplantation (BMT) is associated with a severe complication--graft-versus-host disease (GVHD). Although effectively preventing GVHD, ex vivo T-lymphocyte marrow depletion unfortunately increases graft rejection and reduces the graft-versus- leukemia (GVL) effect. The ex vivo transfer of the herpes simplex thymidine kinase (HS-tk) suicide gene into T cells before their infusion with hematopoietic stem cells could allow for selective in vivo depletion of these T cells with ganciclovir (GCV) if subsequent GVHD was to occur. Thus, one could preserve the beneficial effects of the T cells on engraftment and tumor control in patients not experiencing severe GVHD. To obtain T cells specifically depleted by GCV, we transduced primary T cells with a retroviral vector containing the HS-tk and neomycin resistance (NeoR) genes. Gene transfer was performed by coculturing PHA +/- CD3- or alloantigen-stimulated purified T cells on an irradiated retroviral vector producer cell line or by incubating the T cells in supernatant from the producer. Subsequent culture in G418 for 1 week allowed for the selection of transduced cells. GCV treatment of interleukin-2-responding transduced and selected cells resulted in greater than 80% growth inhibition, whereas GCV treatment of control cells had no effect. Similarly, the allogeneic reactivity of HS-tk-transduced cells was specifically inhibited by GCV. Combining transduced and nontransduced T cells did not show a bystander effect, thus implying that all of the cells inhibited by GCV were indeed transduced. Lastly, studies involving the transduction of the HUT-78 (T-lymphoma) cell line suggest that stable expression of HS-tk can be maintained over 3 months in vitro in the absence of G418. In summary, we have established the feasibility of generating HS-tk-transduced T cells for subsequent in vivo transfer with hematopoietic stem cells and, if GVHD occurs, specific in vivo GCV- induced T-cell depletion in allogeneic BMT recipients.

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