UMLS:C0079731 - FACTA Search

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Query: UMLS:C0079731 (B-cell lymphoma)
16,671 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Omenn syndrome is a variant of SCID, inherited as an autosomal recessive disorder, and characterized by severe eczematoid dermatitis, eosinophilia, elevated serum IgE and a distinctive histology in enlarged lymph nodes. The etiology of Omenn syndrome is unknown, however, unlike other forms of SCID; patients with Omenn syndrome have activated T lymphocytes in their circulation capable of non-MHC restricted cytotoxic function. Recently, it has been observed that the use of immunosuppressive therapy, particularly cyclosporine, can modify the clinical manifestations of the disorder. Prior to the use of bone marrow transplantation this disease was universally fatal. Death typically occurred in infancy as the result of opportunistic infections and/or malignancies, most notably lymphomas. While bone marrow transplantation has become quite successful for many phenotypes of SCID, even with the use of alternative donors other than histocompatible siblings, in Omenn syndrome it remains a challenge. In our experience, patients with Omenn syndrome exhibit a higher incidence of Gram negative sepsis, before and during transplantation, and carry a significant risk of post-transplant rejection when compared with patients with other phenotypes of SCID. We report the results of six patients treated with bone marrow transplantation from alternative donors, three had unrelated donors (URD) and three had haplo-identical parental donors. Five of the six patients achieved complete and/or durable donor cell engraftment and only one patient experienced acute GVHD. Three patients died of transplant-related complications (infection or EBV-associated B cell lymphoma) between day +22 and day +95 post-transplant. Three patients survived more than 1 year post-transplant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mismatched bone marrow transplantation for Omenn syndrome: a variant of severe combined immunodeficiency. 853 10

Stimulation of the B cell Ag receptor (BCR), a multimeric complex containing heterodimers of Ig-alpha and Ig-beta, initiates a cascade of tyrosine phosphorylation that results in cellular activation. One of the earliest substrates phosphorylated is Ig-alphabeta, and it appears that kinase activation emanates from this structure with the most proximal kinases themselves, and some of their immediate substrates, associating with the heterodimer. To identify other molecules that may be involved in proximal BCR signaling, we examined the substrates that were tyrosine phosphorylated following stimulation with either anti-IgG Abs or pervanadate in the murine B cell lymphoma A20 IIA1.6 and in resting splenic B cells. Immunoblotting with anti-phosphotyrosine Abs revealed that a doublet of 40 and 42 kDa was phosphorylated within 1 min of stimulation with either agonist. The phosphorylation of p40/42 in A20 cells induced by anti-IgG was rapid and transient, peaking at 2 min after stimulation and becoming almost undetectable after 10 min. Furthermore, at least 25% of phosphorylated p40/42 co-immunoprecipitated with Ig-alphabeta, but none precipitated with MHC II, CD40, Fc(gamma)RII, Fyn, HS-1, or Syk, suggesting that this protein complex specifically associates with the Ig-alphabeta heterodimer. p40/42 did not react with Abs to Ig-alpha, Ig-beta, mitogen-activated protein kinase, or Lnk. Furthermore, and in contrast to Ig-alphabeta, p40/42 was highly acidic and not part of a disulfide-linked complex. Finally, p40/42 was demonstrated to be a glycosylated surface protein that was constitutively associated with Ig-alphabeta. These results suggest that p40/42 is a novel constituent of the resting B cell Ag receptor complex.
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PMID:A novel complex, p40/42, is constitutively associated with the B cell antigen receptor and phosphorylated upon receptor stimulation. 889 12

The class I IgG receptor (Fc gamma RI) on cytotoxic effector cells has been reported to initiate destruction of tumour cells by effector cells in vitro. We are aiming at developing an immunocompetent model to evaluate the cytotoxic capacity of human Fc gamma RI for the rejection of tumour cells in vivo. Therefore, we recently generated a transgenic mouse strain expressing human Fc gamma RI on monocytes, macrophages, and neutrophils. In these mice, the human receptor is up-regulated by granulocyte-colony-stimulating factor (G-CSF) and is able to trigger cellular responses. Subsequently, in the present study the B cell lymphoma IIA1.6 cell line is selected as a tumour target, and a human Fc gamma RI-directed antitumour bispecific antibody (bsAb) is constructed and characterized. Fab' fragments of mAb 22, which bind hFc gamma RI at an epitope that is distinct from the ligand binding site, were chemically linked to Fab' fragments of rat anti-(mMHC class II antigens) mAb M5/114, yielding bsAb 22 x M5/114. This bsAb was able to bind simultaneously to hFc gamma RI and mMHC class II antigens in a dose-dependent fashion. Binding of 22 x M5/114 to Fc gamma RI was not inhibited in the presence of human IgG. It is important to note that, MHC-class-II-expressing IIA1.6 lymphoma cells were lysed by whole blood from G-CSF-treated transgenic mice in the presence of bsAb 22 x M5/114. No lysis by whole blood from non-transgenic mice or from transgenic animals that had not received G-CSF was observed. These results indicate that human Fc gamma RI is able to mediate lysis of murine IIA1.6 lymphoma cells by transgenic effector cells via bsAb 22 x M5/114. A trial with transgenic mice, evaluating the efficacy of these hFc gamma RI-directed bsAb in combination with G-CSF for treatment of IIA1.6 B cell lymphoma, is currently in progress.
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PMID:Lysis of murine B lymphoma cells by transgenic phagocytes via a human Fc gamma RI x murine MHC class II bispecific antibody. 943 65

Multiple myeloma idiotypic protein is clone-specific and therefore represents an ideal tumour antigen for immune targeting. In this study we determined whether a synthetic peptide corresponding to the autologous idiotypic VH CDR3 sequence could elicit peptide-specific immune responses in a patient with IgA myeloma. Not unlike B-cell lymphoma, the immune repertoire of the patient contained T cells capable of mounting proliferative and cytotoxic responses to antigen-presenting cells loaded with the CDR3 peptide. Furthermore, the T cells were also able to secrete interferon-gamma upon peptide rechallenge. Antigen recognition by peptide-primed T cells was MHC dependent and could be blocked by antibodies to both monomorphic MHC class I and class II molecules. These results therefore indicate the presence of T-cell epitopes on the VH CDR3 sequence. In addition, CDR3 peptide-primed T cells were also able to mount similar immune responses when rechallenged with the intact IgA idiotypic protein, suggesting that functional T-cell epitopes had been derived from the CDR3 sequence of the idiotypic protein. Our results therefore provide a new perspective to the immunogenicity of the idiotypic protein in myeloma.
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PMID:Immunogenicity and cross-reactivity with idiotypic IgA of VH CDR3 peptide in multiple myeloma. 950 27

The clinical and pathological features of eight cases of feline T-cell-rich B-cell lymphoma are described. The disease occurred in older cats (mean age 11.4 +/- 3.9 years), which on initial examination generally showed enlargement of a single submandibular or cervical lymph node. After excision, there was no recurrence of the lesions at 6 months in three cats. In one further case, however, the lesion had recurred 6 months later; it was again excised but recurred after an additional 6 months. Microscopically, there was effacement of normal lymph node architecture by a nodular (n = 4) or diffuse (n = 4) proliferation of small to blastic lymphocytes, accompanied by a characteristic population of bizarre giant, or multinucleate, cells. The mitotic rate was low and mitoses were restricted to the atypical population. Immunophenotyping revealed the smaller lymphocytes to be a mixture of CD3+ MHC Class II+ T lymphocytes and BLA36+CD79variable MHC Class IIvariable B lymphocytes. The atypical cells were of the B-cell lineage (BLA36+MHC Class IIvariable). Polymerase chain reaction analysis revealed no proviral DNA products of feline leukaemia virus or feline immunodeficiency virus in tissue from any tumour, confirming that these neoplasms were not associated with either virus. The clinical, histological and immunophenotypic findings in these cats were identical with those of "nodular lymphocyte predominance (lymphocytic and histiocytic/L&H) Hodgkin's disease" in man.
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PMID:T-cell-rich B-cell lymphoma in the cat. 1008 89

Recent insights in antigen presentation, the identification of human tumor antigens, and the demonstration of MHC class-I-restricted cytotoxic T lymphocyte (CTL) recognition of peptides encoded by tumor antigen have renewed the interest and enthusiasm for the development of cancer vaccines. Melanoma serves as a paradigm of an immunogenic human tumor, and several tumor antigens, including MAGE, MART-1/Melan-A and gp100, recognized by CTLs, have now been isolated. Candidate antigens for novel vaccine trials may include HLA class-I-binding tumor peptides that serve as CTL epitopes, whole tumor protein, or DNA-based vaccines. Requirements for the use of peptides are that the patient's tumor presents the relevant CTL epitopes as used in the vaccine and expresses the appropriate MHC class-I-restricting molecule. Immunological monitoring may be facilitated when using peptide-based vaccines. Because optimal presentation of tumor antigens may depend on provision of appropriate costimulatory signals, it may be more advantageous to administer professional antigen-presenting cells (APCs), such as dendritic cells (DCs) pulsed with tumor peptide or protein, to cancer patients. Developments in molecular genetics have led to a new approach in vaccines consisting of cancer cells genetically engineered to express immunomodulatory molecules. This may result in increased antitumor responses to both gene-modified as well as unmodified tumor cells. The therapeutic approach is extended to vaccination trials with recombinant viruses containing the genes encoding tumor antigens, minigenes containing multiple CTL epitopes, or double recombinant vectors engineered to express both the tumor antigen and immunostimulatory molecules. Clinical peptide, protein and DNA-based vaccine trials have recently been initiated. Thus far, exciting clinical remissions were obtained in melanoma patients following vaccination with HLA-A1-binding MAGE-3 peptide and in B-cell lymphoma patients immunized with autologous DCs pulsed with anti-idiotype protein, i.e., the individual patient's unique tumor antigen. Also, following injection of foreign HLA-B7 DNA into cutaneous melanoma metastases, T-cell migration into treated lesions and enhanced cellular immunity at the site of the tumor were shown in some patients. These encouraging results suggest that effective new vaccines in cancer will be identified.
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PMID:Vaccine Trials for the Clinician: Prospects for Tumor Antigens. 1038 61

We report the in vivo radioimmunotherapy (RIT) of a new variant of the BCL1 syngeneic mouse B-cell lymphoma model, pi-BCL1, using a panel of monoclonal antibodies (MoAb) reactive with B cell-associated antigens (CD19, CD22, CD40, MHC II, and idiotype). MoAb were radiolabeled with 131I or used in conjunction with external beam irradiation. When administered early in disease (day 4) 131I-anti-MHC II MoAb produced long term disease free survivors as a result of targeted irradiation alone; the equivalent unlabelled MoAb was non-therapeutic. In contrast, 131I-anti-CD40, and 131I-anti-Idiotype (Id) MoAb administered at day 4 despite targeting irradiation and having intrinsic therapeutic activity as unconjugated antibodies, protected mice for approximately 30 days. The 131I-anti-CD19 and anti-CD22 were therapeutically inactive. Treating later in the disease (day 14, after tumor inoculation) permitted study of the efficacy in the presence of an increased tumor load. An increased tumor burden brought about an expected reduction in therapeutic activity with 131I-anti-MHC II, but surprisingly, 131I anti-CD40 and 131I-anti-Id were able to produce prolonged disease free survival in most mice. This unexpected potency of 131I-anti-CD40 and 131I-anti-Id late in disease appeared to result from the direct cytotoxic action induced by these MoAb. Mechanisms by which these two MoAb operate, in producing long-term disease free survival in animals with advanced disease appear different. Our therapeutic results have important implications for the selection of reagents for RIT and demonstrate that successful treatment with such agents may involve more than simple targeting of irradiation.
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PMID:Radioimmunotherapy in the pi-BCL1 B cell lymphoma model: efficacy depends on more than targeted irradiation alone. 1119 Apr 90

Five cases of primary mediastinal B-cell lymphoma (PMBL) each have been studied with 375 microsatellite markers from all 22 autosomes. Of the 151 genomic alterations among the 1,875 assays, only five were allelic losses. The remainder of the microsatellite alterations consisted of 114 allelic imbalances and 32 instabilities. Microsatellite alterations were found in all cases on chromosomal arms 6p and 9p. These allelic imbalances most likely are indicative of genetic amplification, a finding agreeing well with those of studies using either comparative genomic hybridization or arbitrarily primed polymerase chain reaction, in which amplification of chromosome arm 9p in PMBL has been found. The allelic imbalances on chromosome arm 6p always included marker D6S276 located at 6p21.3-p22.3, where the MHC class I genes reside. These allelic imbalances may be reflective of alterations in the expression of the MHC gene products, characteristic of PMBL. Allelic anomalies close to the MYB gene locus on 6q were detected in two cases and prompted the analysis of MYB rearrangements in a series of 30 lymphomas. One rearrangement was detected in one of 18 cases of PMBL and in none of 10 diffuse, large B-cell lymphomas and two T-cell lymphomas. Our genome-wide microsatellite analysis provides independent confirmation that PMBL is characterized by infrequent chromosomal losses and by frequent genetic alterations involving chromosomal arm 9p. For the first time, chromosomal arm 6p has been identified as a highly frequent target of genetic alterations in this tumor type. Finally, MYB may also be involved occasionally in PMBL pathogenesis.
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PMID:Alteration of chromosome arm 6p is characteristic of primary mediastinal B-cell lymphoma, as identified by genome-wide allelotyping. 1131 7

alpha beta+ TCR T cells recognize peptide fragments displayed by MHC-class I or -class II molecules. Recently, additional mechanisms of antigen recognition by T cells have been identified, including CD1-mediated presentation of nonpeptide antigens. Only a limited number of CD1 antigens is retained in the mouse, i.e., the group II CD1 antigens, which are split into CD1D1 and CD1d2. Several T cell subsets have been shown to interact with murine CD1 antigens, including NK cells or "natural T cells" with the invariant V alpha 14 J alpha 281 TCR chain. Even if TAP defects may prevent classical endogenous antigen presentation in tumor cell lines, antigen presentation via CD1 is still functional. Therefore, CD1-mediated recognition of transformed cells by NK cells or "natural T cells" may represent an alternative way for immune surveillance. CD1 cell surface expression in murine tumor cell lines of different histology, including the B cell lymphoma A20, macrophage cell lines J774 and P388D1, mastocytoma P815, thymoma EL-4, melanoma B16, colon adenocarcinoma MC-38 and renal carcinoma Renca is regulated by Th1- (IFN-gamma), Th2- (IL-4, IL-10 and vIL-10) or GM-CSF (Th1/Th2) cytokines, depending on the tumor histology. In order to distinguish between CD1D1 and CD1d2 molecules, we examined differential expression of these CD1 isoforms by ratio RT-PCR: A20, EL-4, P815 and MC-38 cells exclusively express CD1D1 transcripts but not CD1D2 mRNA independent of cytokine treatment. Decreased CD1d expression leads to reduced immune recognition of CD1d+ tumor cells by freshly isolated NK1.1(+) effector cells as defined by cytolysis and IFN-gamma release. Thus, modulation of CD1 expression on tumor cells by cytokines may be advantageous to drive cellular anti-tumor antigen directed immune responses directed against TAP-independent, non-classical MHC restricting molecules.
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PMID:Regulation of CD1d expression by murine tumor cells: escape from immunosurveillance or alternate target molecules? 1192 May 90

Some B cell lymphomas lack important costimulatory properties that could prevent them from being used as cell based vaccines. Infection of A20 B lymphoma cells with a replication-defective adenovirus encoding murine (m) CD40L, but not mIL-2, produces an antigen presentation phenotype with upregulation of MHC Class I/II, induction of B7-1/2 molecules and production of MIL-12 and MIP-1alpha. Subcutaneous vaccination with irradiated Ad-mCD40L-infected- or Ad-mIL-2-infected-A20 cells generated A20-specific CD8+ T cell responses and cross reactive A20 Ig antibodies. Only vaccination with Ad-mCD40L-infected A20 cells produced a significant delay in tumor growth and long-term survival (p = 0.0039). Stronger protective immunity to A20 challenge was generated by intravenous priming with A20 cells infected with Ad-mCD40L, Ad-mIL-2 or their combination followed by a boost immunization with A20 cells activated with syngeneic fibroblasts expressing CD40L. Compared to Ad-LacZ-infected A20 priming, the combination priming was most effective followed by Ad-mCD40L and Ad-mIL-2 (p = 0.0027, p = 0.0027, p = 0.0163 respectively). Significant A20-specific CD8+ T cell-mediated cytotoxicity was only demonstrated in splenocytes from these groups of vaccinated animals. By contrast, ELISPOT assay of splenocytes from all A20 prime/boosted vaccinated groups demonstrated increases in gamma-interferon release by T cells elicited by in vitro stimulation either with A20 cells or another syngeneic 2PK-3 lymphoma, indicating the presence of cross reactive immunity. Similarly anti-A20 immunoglobulin antibodies generated after vaccination were not necessarily A20 idiotype-specific. Direct therapy of pre-established tumors was achieved with the combination of Ad-mCD40L and Ad-mIL-2 given at Days 4 and 8 at the tumor site with a significant long-term survival of 85% of tumor-bearing mice (p = 0.0001). Our study strongly supports the use of Ad-CD40L and Ad-IL-2 combination therapy for the treatment of patients with B cell lymphoma.
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PMID:Use of adenoviruses encoding CD40L or IL-2 against B cell lymphoma. 1530 Aug 3

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