Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019829 (Hodgkin's disease)
30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactivity of the monoclonal antibody anti-Leu-10 that detects the human equivalent of the murine 1-A subregion antigen(s) was studied and correlated with anti-HLA-DR expression on 83 cases of acute and chronic leukaemias, leukaemic non-Hodgkin's lymphomas (NHL) and seven human cell lines. Peripheral blood and/or bone marrow leukaemic cell suspensions were stained by indirect immunofluorescence for both monoclonal antibodies and analysed by flow cytometry. Leu-10, like HLA-DR, was absent from T-cell acute lymphoblastic leukaemia (ALL) (two cases). It was expressed on: 33% of TdT +, CALLA + ALL cases (8/24); 27% (4/15) of acute non-lymphocytic leukaemia (ANLL); 85% (24/28) of HLA-DR + B-cell chronic lymphocytic leukaemia (CLL); and on 9/14 (64%) B-cell NHL cases. There were no differences in clinical characteristics between Leu-10 + and Leu-10--patient subgroups. We were able to induce Leu-10 expression on 'Josh' cell line by culturing it with 12-0-tetra-decanoylphorbol-13-acetate (TPA). Our data indicate that Leu-10 expression on leukaemic cells is more restricted than HLA-DR and is likely to be differentiation related, since it can be induced to be expressed at a later stage than HLA-DR.
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PMID:Leu-10 (HLA-DC/DS) antigen distribution in human leukaemic disorders as detected by a monoclonal antibody: correlation with HLA-DR expression. 637 48

We studied a variant CD5- B cell chronic lymphocytic leukemia (CLL) cell population that produces pathologic IgM kappa rheumatoid factor autoantibodies. In contrast to common CD5+ B cell CLL, this variant leukemia cell population displays intraclonal diversity in its expressed Ig V genes, similar to that noted for follicular B cell non-Hodgkin's lymphomas. Also, in contrast to common B cell CLL, these leukemia cells rapidly undergo cell death hours after being placed in tissue culture. We find that addition of Ag (aggregated human IgG) enhances significantly the survival of these cells in vitro. Leukemia cell survival also could be enhanced by exogenous IFN-gamma or anti-CD40 presented on Fc gamma RII (CDw32)-expressing L cells, but not by exogenous IL-4, IL-6, or monomeric human IgG. We find that Ag acts directly on the leukemia B cells to inhibit apoptosis. This effect could be mimicked by cross-linking the leukemia cells' surface IgM receptors with immobilized murine mAb specific for human Ig mu-chains, but not by immobilized mAb of irrelevant specificity. In contrast to most follicular NHL, this leukemia B cell population does not have evidence of bcl-2 gene rearrangement. Also, in contrast to non-Hodgkin's lymphomas and most B cell CLL, these cells do not express detectable amounts of bcl-2. Finally, although capable of inhibiting apoptosis, surface Ig receptor cross-linking does not induce expression of bcl-2 in these variant leukemia cells. We hypothesize that the lack of bcl-2 expression may render these leukemia cells particularly dependent upon the survival signal(s) derived from surface Ig receptor cross-linking. This state may represent an early stage in leukemia/lymphomagenesis, possibly accounting for the intraclonal diversity observed in the Ig V genes expressed by certain CD5- B cell leukemias and lymphomas.
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PMID:Autoantigen inhibits apoptosis of a human B cell leukemia that produces pathogenic rheumatoid factor. 750 24

Diffuse large B cell lymphomas (DLBLs) represent a heterogeneous collection of aggressive non-Hodgkin's lymphomas that can arise either de novo or as a result of transformation from chronic lymphocytic leukemia, small lymphocytic lymphoma, follicular lymphomas, or lymphomas of mucosa-associated lymphoid tissue. A small percentage of DLBLs express the CD5 antigen. The majority of these cases have evolved from a pre-existing low grade non-Hodgkin's lymphoma (Richter's syndrome). However, we identified and characterized nine CD5-positive DLBLs in which the patients did not have a previous history or concomitant evidence of chronic lymphocytic leukemia, small lymphocytic lymphoma, follicular lymphoma, or mucosa-associated lymphoid tissue-associated non-Hodgkin's lymphoma, suggesting that they arose de novo. All nine cases expressed CD20 and monotypic immunoglobulin, all eight cases examined expressed CD19, CD22 and CD43, eight of the nine cases expressed HLA-DR, and two of eight cases expressed CD11c. None of the cases expressed CD3, CD10, CD11b, CD21, CD23 or CD30. CD5 expression by these cells was found to be identical to that of CD5-positive B cell chronic lymphocytic leukemia by quantitative polymerase chain reaction analysis of CD5 mRNA. These nine de novo CD5-positive DLBLs exhibited clonal immunoglobulin heavy and light chain gene rearrangements but lacked integration of the Epstein-Barr virus genome and structural alterations of the bcl-1, bcl-2, c-myc, H-ras, K-ras, and N-ras proto-oncogenes and the p53 tumor suppressor gene. However, bcl-6 proto-oncogene rearrangement, which is involved in chromosome band 3q27 aberrations, was found in four cases (44.4%). This is comparable with the frequency of bcl-6 gene rearrangement in CD5-negative DLBL. In contrast, bcl-6 gene rearrangement was absent in six cases of DLBL associated with Richter's syndrome. These findings suggest that de novo CD5-positive DLBLs are genotypically similar to CD5-negative DLBLs and may be pathogenetically distinct from the DLBLs associated with Richter's syndrome.
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PMID:De novo CD5-positive and Richter's syndrome-associated diffuse large B cell lymphomas are genotypically distinct. 754 11

Analyses for clonality in cases of Richter's syndrome have provided evidence for a clonal evolution of high-grade lymphoma in most patients, while in others an independent cellular clone seems to exist in the secondary neoplasm. Richter's syndrome with an isolated high-grade lymphoma of the stomach has been rarely reported in patients with pre-existing B cell chronic lymphocytic leukemia (CLL). We investigated four cases of CLL or lymphoplasmacytoid immunocytoma (LPIC) with development of a localized high-grade B cell lymphoma in the stomach. Southern blotting showed different rearrangements of the immunoglobulin light and heavy chain genes in the tumor cells of the low-grade lymphoma and the gastric tumor in two cases. Comparison of the DNA sequences of the CDR3 region of the immunoglobulin genes revealed different clones in another case. By means of chromosomal in situ hybridization, trisomy 3 was detected in two cases of high-grade lymphoma of the stomach, but not in the cells of the associated low-grade tumor. Our findings indicate that high-grade non-Hodgkin's lymphomas arising localized in the stomach of patients with CLL or immunocytoma are not clonally related to the pre-existing low-grade lymphoma and, therefore indeed, present true secondary neoplasms.
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PMID:Localized gastric non-Hodgkin's lymphoma of high-grade malignancy in patients with pre-existing chronic lymphocytic leukemia or immunocytoma. 772 93

A 70-year-old woman with a 2-year history of B-cell chronic lymphocytic leukemia (CLL) developed headache, fever, chills, and weakness. Bone marrow examination revealed both CLL and large cell immunoblastic lymphoma (Richter's syndrome). As expected, the CLL was of B-cell lineage. The neoplasm expressed low-density monotypic IgM lambda, the pan-B-cell antigens CD19, CD20, and CDw75, and the CD5 and CD43 antigens. The large cell immunoblastic lymphoma was of T-cell lineage, positive for the CD45RB, CD3, CD45RO, and CD43 antigens, and negative for the CD20 and CDw75 antigens. Both neoplastic components were negative for Epstein-Barr virus RNA and latent membrane protein. Although 3% to 5% of patients with B-cell CLL may develop higher-grade lymphoma, usually the lymphoma is of B-cell lineage and often represents a histologic manifestation of clonal evolution. Less commonly, B-CLL patients may develop transformation to a higher grade tumor that resembles Hodgkin's disease. Both the usual form of Richter's syndrome and particularly the Hodgkin's variant of Richter's syndrome may be associated with Epstein-Barr virus. Patients with B-cell CLL rarely develop a higher grade lymphoma of T-cell lineage. To our knowledge, only one other example has been reported in the literature. Epstein-Barr virus was not associated with either neoplasm in this case.
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PMID:B-cell chronic lymphocytic leukemia followed by high grade T-cell lymphoma. An unusual variant of Richter's syndrome. 787 59

In an attempt to determine the roles of adhesion molecules in the formation and deterioration of neoplastic follicles, we used flow cytometry to investigate how strongly neoplastic B-cells express VLA-4 alpha and LFA-1 alpha on their surfaces. Neoplastic and normal B-cells were taken from 24 patients with B-cell non-Hodgkin's lymphomas (B-NHL) and 6 with B-cell chronic lymphocytic leukemia (B-CLL). The expression intensities of the adhesion molecules were graded as follows: (-), (+), (+2) and (+3). Normal B-cells expressed those molecules with an intensity of (+2). The data for VLA-4 alpha expression were as follows: follicular B-NHL [10/11; (+2) and 1/11; (+)], partially follicular [5/5; (+)], diffuse [8/8; (+)] and B-CLL [6/6; (-)]. Those for LFA-1 alpha were as follows: follicular B-NHL [7/11; (+2), 4/11; (+)], partially follicular [3/5; (+2), 2/5; (+)], diffuse [3/8; (+2), 5/8; (+)] and B-CLL [3/6; (+), 3/6; (-)]. These results suggest that VLA-4 molecules expressed on neoplastic B-cells may be involved closely in the formation and deterioration of neoplastic follicles, although the expression of LFA-1 molecules seems to play only a minor part in such events.
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PMID:Significance of VLA-4 and LFA-1 expressions in neoplastic follicle formation and its deterioration in B-cell non-Hodgkin's lymphomas. 791 72

The Epstein-Barr virus (EBV) genome has recently been detected in various non-B cell neoplasms, including various T-cell leukemias and in Reed-Sternberg cells of Hodgkin's disease, but the contribution of EBV genes to the transformed phenotype remains unclear. We have investigated the possible effect which the EBV genes LMP1 and EBNA2, of which the expression has been reported in non-B cell neoplasms, may have on a variety of cell types. The LMP1 and EBNA2 genes were transiently expressed from heterologous promoters in two human T-cell lines (HPB-ALL and Jurkat), two human cell lines of the myeloid lineage (K562 and U937), one type I Burkitt's lymphoma cell line (Rael) and in human primary T cells and B-cell chronic lymphocytic leukemia cells. The cell surface expression of CD23, CD21, ICAM-1 and LFA-1 was monitored on transfected cells. In the cell lines, except U937, the surface antigens CD21 and ICAM-1 were upregulated in a dose-dependent and transient manner by the transient expression of LMP1, and EBNA2 slightly enhanced the effects of LMP1 on CD23 and CD21 upregulation. LMP1 also induced increased CD21, ICAM-1 and LFA-1 surface expression on transfected primary T-cells, and CD21 and ICAM-1 in four of five B-cell chronic lymphocytic leukemias tested. Finally, LMP1 transient expression caused increased cell size of the primary T cells and responding B-cell chronic lymphocytic leukemia cells. Our results strongly suggest that LMP1 can trigger specific responses in a variety of white cell types and thus is probably contributing to the phenotype of EBV-positive tumor cells not only in the B-cell lineage.
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PMID:Transient expression of the Epstein-Barr virus LMP1 gene in B-cell chronic lymphocytic leukemia cells, T cells, and hematopoietic cell lines: cell-type-independent-induction of CD23, CD21, and ICAM-1. 809 69

The bcl-2 gene becomes transcriptionally deregulated in the majority of low-grade non-Hodgkin lymphomas as a result of t(14;18) translocations that place the bcl-2 gene at 18q21 into juxtaposition with the Ig heavy-chain locus at 14q32. This chromosomal translocation or similar bcl-2 gene rearrangements involving the Ig light-chain genes have been reported to occur in some cases of B-cell chronic lymphocytic leukemia (B-CLL). We analyzed the structure, methylation, and expression of the bcl-2 gene in 20 cases of B-CLL or closely related variants of this lymphoproliferative disorder, including at least 16 typical examples of CD5+ B-CLL. None of the 20 specimens had evidence of bcl-2 gene rearrangements, based on Southern blot analysis using three different bcl-2 probes. However, immunoblot analysis using antibodies specific for the Bcl-2 protein showed that 14 of 20 cases (70%) contained levels of p26-Bcl-2 that were equal to or greater than those found in a t(14;18)-bearing lymphoma cell line. Furthermore, in 19 of 20 cases (95%), the Bcl-2 protein was present at levels that were 1.7- to 25-fold higher than in normal peripheral blood lymphocytes. These differences in the relative levels of Bcl-2 protein among cases of B-CLL appeared to be functionally significant, in that a preliminary analysis of 3 representative cases showed that CLL cells with higher levels of Bcl-2 protein survived longer in culture and were delayed in their onset of DNA degradation relative to CLL cells with lower Bcl-2 protein levels. Evaluation of the methylation status of the bcl-2 gene using the isoschizomers Msp I and Hpa II, and a probe corresponding to the first major exon of the gene showed complete demethylation of both copies of the bcl-2 gene in a region corresponding to a 2.4-kb Msp I fragment in all 20 cases of B-CLL. In contrast, analysis of 6 of 6 B-cell lines that harbor a t(14;18) was consistent with hypomethylation of only one of the two bcl-2 alleles. Neither copy of the bcl-2 gene was demethylated in this region in 5 of 5 lymphoid cell lines that lack this translocation. However, hypomethylation of the bcl-2 gene did not necessarily correlate with the relative levels of Bcl-2 protein present in the B-CLL cells, suggesting that additional mechanisms for regulating bcl-2 expression are involved.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:bcl-2 gene hypomethylation and high-level expression in B-cell chronic lymphocytic leukemia. 810 32

The appearance of a high-grade lymphoma in the setting of B-cell chronic lymphocytic leukemia (CLL) is termed Richter's syndrome. Usually the high-grade component is a monomorphous, large cell lymphoma, but occasionally the high-grade component takes the form of Hodgkin's disease or a Hodgkin's-like lymphoma. Although Richter's syndrome is thought to represent clonal evolution of the underlying B-cell neoplasm in most cases, such a progression is difficult to explain when the high-grade component is Hodgkin's disease. We report two cases of Richter's syndrome in which the large cells had a morphology consistent with Reed-Sternberg cells and were found in a background of CLL. The large cells in both cases expressed the CD15 and CD30 antigens in a pattern characteristic of Reed-Sternberg cells, and the large cells in one case also expressed monotypic cytoplasmic immunoglobulin of the same type as that expressed by the underlying CLL. In both cases, Southern blot analysis of DNA from lymph nodes that contained both CLL and the Hodgkin's-like component showed single immunoglobulin gene rearrangements. Using the polymerase chain reaction, we found Epstein-Barr virus DNA in lymph nodes from both cases, and in peripheral blood lymphoid cells from one case 4 yr before the onset of Richter's syndrome. Immunoperoxidase staining showed expression of EBV latent membrane protein only in the Reed-Sternberg-like cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Richter's transformation of chronic lymphocytic leukemia with Hodgkin's-like cells is associated with Epstein-Barr virus infection. 815 58

Although translocations of the BCL2 gene are frequent in B-cell non-Hodgkin's lymphomas (B-NHL) the incidence, nature, and prognostic significance of similar translocations in the phenotypically related chronic leukemias of mature B cells are unknown. Therefore, we examined 170 cases of B-cell chronic lymphocytic leukemia (B-CLL), 7 cases of B-cell prolymphocytic leukemia (B-PLL), 25 cases of hairy cell leukemia (HCL) and 22 cases of splenic lymphoma with villous lymphocytes (SLVL) with defined cytogenetic abnormalities by DNA blot using both 5' and 3' BCL2 probes to search for rearrangement of the BCL2 locus. Translocation t(14;18) (q32.3;q21.3) was detected cytogenetically in 3 cases of B-CLL. All had breakpoints in the 3' region of BCL2, mapping between the major breakpoint region (MBR) and the minor cluster region (mcr), the breakpoint clusters commonly detected in B-NHL. In 2 of the 3 cases, the breakpoint within BCL2 was mapped to a 1.0-kb EcoRI-HindIII fragment indicating a clustering of breakpoints. Two cases of B-CLL had cytogenetically detectable t(2;18)(p11;q21.3) or t(18;22)(q21.3;q11). Both had rearranged the 5' region of the BCL2 gene to the corresponding lg light-chain gene. Molecular cloning of the t(18;22)(q21.3;q11) showed that the translocation disrupted the BCL2 promoter region and the first untranslated BCL2 exon. Nevertheless, high levels of BCL2 protein were seen in this case. Only 2 other cases in whom cytogenetic analysis was not successful showed rearrangement of the 5' region of BCL2, an overall incidence of 2.3%. No cases of B-PLL, HCL, or SLVL showed either 5' or 3' BCL2 rearrangement. These data confirm the cytogenetic observations that translocations involving the BCL2 locus in all forms of leukemia of mature B cells are rare, and limited to a minor subset of B-CLL. BCL2 translocations in B-CLL involve hot spots of recombination of both the 5' and 3' regions of the BCL2 gene, which are distinct from those commonly seen in B-NHL, suggesting distinct pathogenic mechanisms.
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PMID:BCL2 translocations in leukemias of mature B cells. 820 92


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