Dichlorido{μ-6,6′-dimethoxy-2,2′-[o-phenylenebis(nitrilomethylidyne)]diphenolato}(dimethyl sulfoxide)lead(II)zinc(II)N,N-dimethylformamide solvate

Nineteen renal allograft recipients developed B-cell lymphoproliferative diseases. Clinically there were two groups: a) young patients (mean age, 23 years) who presented soon (mean, 9 months) after transplantation or antirejection therapy with fever, pharyngitis, and lymphadenopathy resembling infectious mononucleosis, and b) older patients (mean age, 48 years) who presented later (mean, 6 years) after transplantation with localized tumor masses. Histologically, the diseases were classified as polymorphic diffuse B-cell hyperplasia (PDBH) or polymorphic B-cell lymphoma (PBL). Immunologic cell typing revealed either polyclonal or monoclonal B-cell proliferations. Malignant transformation of polyclonal proliferations in two patients was suggested by the finding of clonal cytogenetic abnormalities. Epstein-Barr virus (EBV) specific serology, staining of biopsy specimens for the Epstein-Barr nuclear antigen, and EBV DNA molecular hybridization studies implicated EBV as the cause of both PDBH and PBL. Acyclovir, an antiviral agent that blocks EBV replication in vitro, inhibited oropharyngeal shedding of EBV and caused complete remission in four patients with polyclonal B-cell proliferations. The monoclonal tumors were acyclovir resistant. We suggest that surgical treatment, radiotherapy, or chemotherapy may be more appropriate therapy in selected patients with acyclovir resistant tumors. Therapeutic decisions require not only documentation of the viral etiology of these tumors, but also immunologic and cytogenetic analysis to determine the stage of tumor evolution in individual patients.

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Clinical characteristics of post-transplant lymphoproliferative disorders

Morrison

Dünn

Manivel

et al. 1994

The American Journal of Medicine

221

117

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Epstein-Barr virus associated B cell lymphoproliferative disorders following bone marrow transplantation

et al. 1988

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B cell lymphoproliferative disorders (BLPD) developed in eight patients following bone marrow transplantation (BMT) for leukemia (five patients) or immunodeficiency (three patients). Recipients of T depleted marrow from a mismatched donor were at particularly high risk of this complication. Six of 25 (24%) recipients of mismatched T depleted bone marrow developed BLPD. In contrast, none of 47 matched T depleted transplants, one of ten (10%) who received non-depleted marrow from an unrelated donor, and only one of 424 matched non-depleted transplants were associated with BLPD. Epstein-Barr virus (EBV) specific serology and DNA hybridization studies demonstrating five to 50 copies of EBV genome/cell in involved tissues implicate this virus as an associated etiologic agent. Restriction fragment length polymorphism (RFLP) and cytogenetic analysis of involved tissue demonstrated donor origin (five of seven) or host origin (two of seven). Histologic appearance was similar to EBV-induced polymorphic B cell proliferations described following solid organ transplantation, or which occur de novo in primary immunodeficiency. Six of seven patients with adequate tissue available for study were found to have monoclonal proliferations by: in situ immunofluorescence (six of seven), and/or immunoglobulin gene rearrangement, (four of six). Cytogenetic analysis of involved tissues from four patients showed a normal karyotype, whereas two had multiple clonal chromosomal abnormalities. Seven patients died despite aggressive attempts at therapy with combinations of antiviral, immunologic, and chemotherapeutic agents.

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Characterization of a leukemic cell line of the pre‐B phenotype

Hurwitz

Hozier

LeBien

et al. 1979

Intl Journal of Cancer

233

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NALM-6-M1, one of eight leukemia cell lines cultured from the blood of a 19-year-old boy with non-T, non-B acute lymphoblastic leukemia (ALL) i n relapse, was characterized. This cell line was found t o be more than 90% cytoplasmic lmmunoglobulin positive (clg+) for both mu heavy and lambda light chains, but surface immunoglobulin (slg) and complement receptor (CR) negative. NALM-6-M1 was clg-for alpha, delta, and gamma heavy chains and kappa light chain. About

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Detailed studies on expression and function of CD19 surface determinant by using B43 monoclonal antibody and the clinical potential of anti- CD19 immunotoxins

Uckun

Jaszcz²,

Ambrus³

et al. 1988

203

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Extensive immunologic surface marker analyses and binding competition assays demonstrated that B43 monoclonal antibody (MoAb) is a new member of the CD19 cluster that recognizes the same surface epitope as several other anti-CD19 MoAbs. We used B43 MoAb to test for CD19 expression on neoplastic cells from 340 leukemia and 151 malignant lymphoma patients and on nonneoplastic cells in normal lymphohematopoietic and nonlymphohematopoietic tissues. Our study more than doubles the total number of cases with classified hematologic malignancies that have been examined for CD19 antigen expression. The data presented confirm that CD19 is the most reliable B lineage surface marker and support our view that this B lineage-restricted surface determinant may be an important functional receptor. Our findings provide unique and direct evidence that (a) CD19 is expressed on leukemic B lineage lymphoid progenitor cells freshly obtained from B lineage acute lymphoblastic leukemia patients but not on normal myeloid, erythroid, megakaryocytic, or multilineage bone marrow progenitor cells; (b) ligation of CD19 with B43 MoAb induces sustained increases in [Ca2+]i when crosslinked and inhibits high-molecular weight B cell growth factor (HMW-BCGF)-induced proliferation of activated B cells without affecting their low- molecular weight B cell growth factor (LMW-BCGF) response; therefore CD19 may be a unique signal receptor; (c) HMW-BCGF and LMW-BCGF augment expression of CD19, which suggests that CD19 and BCGF receptors may be under coordinate regulatory control; (d) approximately two million B43 MoAb molecules per cell can be bound to target B lineage lymphoma cells with a Ka of 1.9 x 10(8)/mol/L; (e) CD19 can undergo B43 MoAb-induced internalization; and (f) the opportunity is thus provided for using anti-CD19 MoAb to deliver toxins to B lineage neoplastic cells for more effective treatment of high-risk leukemia/lymphoma patients.

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Epstein-Barr virus associated B cell lymphoproliferative disorders following bone marrow transplantation

et al. 1988

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Chronic lymphoproliterative disorder with unusual clinical, morphologic, ultrastructural and membrane surface marker characteristics

McKenna¹,

Parkin²,

Kersey³

et al. 1977

The American Journal of Medicine

186

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Kazimiera J. Gajl‐Peczalska

Epstein-Barr Virus, Immunodeficiency, and B Cell Lymphoproliferation

Epstein-Barr Virus (EBV) Induced Polyclonal and Monoclonal B-Cell Lymphoproliferative Diseases Occurring after Renal Transplantation

Clinical characteristics of post-transplant lymphoproliferative disorders

Epstein-Barr virus associated B cell lymphoproliferative disorders following bone marrow transplantation

Characterization of a leukemic cell line of the pre‐B phenotype

Detailed studies on expression and function of CD19 surface determinant by using B43 monoclonal antibody and the clinical potential of anti- CD19 immunotoxins

Epstein-Barr virus associated B cell lymphoproliferative disorders following bone marrow transplantation

Chronic lymphoproliterative disorder with unusual clinical, morphologic, ultrastructural and membrane surface marker characteristics

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