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)

Clonal analysis of lymphocytes from patients with myelodysplastic syndrome (MDS) has been carried out using X-chromosome inactivation patterns detected by the probe M27 beta, and by polymerase chain reaction amplification of the immunoglobulin heavy chain gene hypervariable region, CDR3. Of 32 female patients heterozygous for M27 beta only seven (22%) demonstrate monoclonality of peripheral blood lymphocytes. 12 (37%) give unequivocal polyclonal results and the remaining cases give patterns of X-inactivation which cannot be interpreted either way. A study of 68 MDS patients showed five (7%) with a population of B-cells with a monoclonal rearrangement of CDR3 compared with none out of 60 normal individuals, none out of 15 with B-non Hodgkin lymphoma (B-NHL) in remission and 19 out of 25 (75%) of cases of B-chronic lymphocytic leukaemia (B-CLL). Monoclonal lymphocytes were found by both techniques in only two females with MDS. We conclude that the presence of polyclonal lymphocytes is a common finding in patients with MDS.
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PMID:Clonal lymphocytes are detectable in only some cases of MDS. 139 Feb 7

The chromosome 11q13 bcl-1 locus is rearranged in the majority of centrocytic lymphomas, a CD5-positive B-cell non-Hodgkins lymphoma, as a result of reciprocal translocation with the 14q32 immunoglobulin heavy chain genes. Although several 11q13 bcl-1 breakpoint sites have been characterized, a postulated bcl-1 oncogene was not identified. Recently, however, a gene encoding cyclin D1, designated PRAD1, was proposed as a candidate bcl-1 oncogene; accumulated evidence now indicates this gene is bcl-1. To further characterize 11q13 breakpoints in B-cell neoplasms, we analyzed 26 centrocytic lymphomas and 68 other B-cell cancers by Southern blot using a panel of breakpoint probes spanning 110 kilobases of the bcl-1 and PRAD1 loci. Nineteen centrocytic cases (73%) showed rearrangement, 15 at bcl-1 breakpoint sites and 5 at PRAD1 sites. One case was rearranged at both bcl-1 and PRAD1 loci. All but the latter case showed comigration of rearranged bcl-1 or PRAD1 bands and immunoglobulin heavy chain joining gene bands, consistent with the t(11;14). bcl-1 rearrangement was present in only one of 68 noncentrocytic B-cell neoplasms; none showed PRAD1 rearrangement. Thus, bcl-1 and PRAD1 rearrangement is strongly associated with centrocytic lymphoma, providing a useful molecular marker for classifying this subtype of lymphoma and suggesting an important role for PRAD1 cyclin D1 in the pathogenesis of this neoplasm.
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PMID:Characterization of chromosome 11 translocation breakpoints at the bcl-1 and PRAD1 loci in centrocytic lymphoma. 139 69

Characteristic gene rearrangements are present in most non-Hodgkin's lymphomas (NHL). These are usually detected by Southern blotting techniques. In this study, the ability of the polymerase chain reaction (PCR) to detect the t(14;18) chromosomal translocation and immunoglobulin heavy chain (IgH) gene rearrangement was evaluated. DNA from 14 follicular and 42 diffuse B-cell lymphomas was examined using oligonucleotide primers specific for opposing sides of the IgH gene rearrangement on chromosome 14 (towards conserved VH and JH sequences) and opposing sides of the t(14;18) chromosomal translocation (towards the major breakpoint region of the bcl-2 gene on chromosome 18 and conserved JH sequence on chromosome 14). The t(14;18) translocation was detected in 57% of follicular lymphomas and 21% of diffuse B-cell lymphomas. Clonal IgH gene rearrangements using PCR were detected in 50% follicular and 52% of the diffuse lymphomas. Either or both of these rearrangements were detected in 93% follicular and in 59% of diffuse lymphomas. PCR is a rapid and easy technique that can detect the abnormal rearrangement of the bcl-2 gene and clonal IgH rearrangement, indicating the presence of lymphoma. This may be of benefit in monitoring response to therapy and in predicting prognosis in this disease.
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PMID:The detection of specific gene rearrangements in non-Hodgkin's lymphoma using the polymerase chain reaction. 141 24

Alternatives to Southern blot hybridization for gene rearrangement analysis are being studied because of the time, labor, cost, and radioisotopes required for this technique. We have utilized a rapid, hot air, thermocycling polymerase chain reaction (PCR) system to examine various lymphoproliferative disorders for immunoglobulin heavy chain (IgH) gene rearrangements. This unique system amplifies DNA from 10 microliters samples placed in glass capillary tubes, over a total cycle time of about 30 minutes. Amplified bands are easily visualized on ethidium bromide-stained agarose gels. Forty-one monoclonal B-cell proliferations, 27 reactive lymphoid hyperplasias, 17 T-cell lymphomas and 3 cases of Hodgkin's disease were studied. All 88 cases were fully characterized by morphologic, immunophenotypic, and genotypic (Southern blot) analyses. Each case was separately evaluated by PCR with two primer pairs: 1) IgH variable region (VH) and IgH joining region (JH) and 2) bcl-2 and JH. Thirty-four of 41 monoclonal B-cell proliferations revealed a distinct band (within an expected base pair range) with 1 or both primer combinations supporting B-cell monoclonality; the other 7 cases were considered false negatives. The 47 entities without IgH gene rearrangements detectable by Southern analysis demonstrated no amplified product or a smear of amplified DNA with no distinct band. The overall specificity of PCR was 100%, and the sensitivity was 83% when directly compared with Southern blot analysis. Although its sensitivity is currently less than optimal, PCR is a rapid and practical screening method for the detection of IgH gene rearrangements. If a positive result is obtained no further analysis is required; however, if there is a negative result, standard Southern blot analysis should be performed to definitively exclude the presence of a monoclonal B-cell population in the sample.
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PMID:Identification of monoclonal B-cell populations by rapid cycle polymerase chain reaction. A practical screening method for the detection of immunoglobulin gene rearrangements. 146 95

The use of clonospecific probes has recently been employed for the detection of minimal residual disease in B- and T-cell acute lymphoblastic leukemias. However, these methods are predicated upon the successful amplification of the V-D-J rearrangement in the genome of the tumor cells by the polymerase chain reaction (PCR). In order to determine whether the type of B-cell lymphoid malignancy influenced the rate of success of amplifying the region of the immunoglobulin heavy chain gene rearrangement in these lesions, we studied 41 morphologically and immunologically well characterized B-cell neoplasms. DNA was extracted from frozen tissue of the lymphomas and leukemias, and subjected to PCR amplification using a 5' immunoglobulin heavy chain gene variable region consensus Framework 3 region (FR3) primer, and a 3' consensus primer for the immunoglobulin heavy chain joining region. One or two distinct bands, representing the rearranged immunoglobulin heavy chain gene, were detected in six of six small non-cleaved cell lymphomas, five of five small lymphocytic lymphomas, four of six acute lymphoblastic leukemias, four of six follicular lymphomas, three of six diffuse mixed small and large cell lymphomas, one of six diffuse large cell lymphomas, and one of six immunoblastic large cell lymphomas; all control cases of lymphocyte predominant Hodgkin's disease (5/5) and reactive follicular hyperplasia (5/5) were negative. We therefore conclude that the type of B-cell neoplasm influences the ability to detect immunoglobulin gene rearrangements by PCR with currently used consensus primers.
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PMID:Variable rate of detection of immunoglobulin heavy chain V-D-J rearrangement by PCR: a systematic study of 41 B-cell non-Hodgkin's lymphomas and leukemias. 149 28

Recent advances in immunology, cytogenetics and molecular genetics has allowed for a better understanding of the origin and evolution of non Hodgkin lymphoma (NHL). Over the last decade a number of recurrent chromosome aberrations has been disclosed and some correlations with well defined histologic subsets of B-cell NHL has been established. Five important cytogenetic-histologic associations has been documented, well defined by combined cytologic, immunologic and genetic investigations: t(14;18) (q32;q21) and NHL of follicle centre cell origin, frequently with follicular histologic pattern; t(8;14) (q24;q32) and Burkitt's lymphoma, Burkitt-like lymphoma or the equivalent small non-cleaved cell category of the "working formulation system"; t(3;22) (q27;q11) and diffuse large cell lymphoma; t(11;14) (q13;q32) and mantle zone lymphoma; trisomy 12 and chronic lymphocytic leukemia and well-differentiated small lymphocytic lymphoma. Molecular genetic studies elucidated some mechanisms operating during the normal lymphocyte differentiation which may be held responsible for the illegitimate recombination between the immunoglobulin genes and some oncogenes normally located on other chromosome regions. It has thus been demonstrated that the early events leading to neoplastic transformation in B-cell neoplasias occur in immature lymphocyte precursors in the bone marrow during the assembly of the immunoglobulin heavy chain gene. According to some recent studies chromosome changes may have prognostic value in B-cell NHL and chronic lymphocytic leukemia and may be employed in clinical practice in the construction of proportional hazard models in several histologic subsets of NHL.
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PMID:[Current view on non-Hodgkin lymphomas. Origin and evolution in relation to cytogenetic-histologic correlations]. 158 38

Twenty frozen and 55 paraffin sections of lymphnode specimens from 55 patients with pretreatment Hodgkin's disease (nodular sclerosis Hodgkin's disease, n = 45; mixed cellularity Hodgkin's disease, n = 10) were studied by immunohistochemistry and molecular analysis to determine the phenotype of Hodgkin's and Reed-Sternberg cells (HRS). In all cases the HRS cells were CD45-, and CD30+, and in 43/55 (78%) cases they were CD15+. In 48/55 cases (87%) HRS cells were reactive with at least one B-cell marker (CD19, CD20, CD22, CDw75, MB2), 8/55 cases (14.5%) showed reactivity (mainly cytoplasmic) of a subpopulation of HRS cells with the T-cell markers CD3 and beta F1. All cases that expressed T-cell antigens were also reactive with at least one B-cell marker. In frozen sections, a minority of HRS cells in each case studied showed cytoplasmic positivity for bcl-2 protein. Rearrangement of immunoglobulin heavy chain genes was detected in one case and of T-cell receptor beta chain genes in none. The authors were unable to confirm previous reports of bcl-2 gene rearrangement in Hodgkin's disease. The results strongly support a B lymphocytic origin of HRS cells.
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PMID:Expression of B-cell antigens by Hodgkin's and Reed-Sternberg cells. 165 57

One hundred fifty-two cases (155 specimens) of lymphoproliferative disorders were studied by immunohistochemistry and gene rearrangement analysis. Ninety-five of 96 B-cell lymphomas (99%) showed genotypic B-cell monoclonality. Of these, five cases had rearranged T-cell receptor (TCR) beta chain gene in addition to immunoglobulin heavy chain (IgH) and kappa light chain (Ig-K), one case had rearranged IgH and TCR-gamma chain but not Ig-K or TCR-beta, and two cases had only Ig-K rearrangement. One exceptional case in the B-cell lymphoma group had unrearranged, germline genotypes. In contrast, only 10 of 19 (53%) phenotypic T-cell lymphomas had rearranged TCR-beta, eight with concurrent TCR-gamma rearrangement. Of the remaining nine cases, six had germline configuration, two had rearranged Ig-K only, and one had both IgH and Ig-K rearrangement. This last case was reclassified as T-cell predominant, B-cell lymphoma. Thirteen of 16 cases of Hodgkin's disease had germline configuration; three cases had rearranged IgH and Ig-K, of which two were lymphocyte predominant with light chain monoclonality and one was a recurrence. Among 21 reactive lesions, 17 had germline configuration and four had rearranged IgH and Ig-K genes. Of these four cases, two were orbital lesions, one was a partially involved lymph node, and one developed a nodular lymphoma 9 months later. Our results indicate that almost all B-cell lymphomas have IgH and/or Ig-K rearrangement. In contrast, peripheral T-cell lymphomas have greater genotypic heterogeneity, and germline patterns for TCR genes are not uncommon. Reactive lesions and Hodgkin's disease tend to retain germline configuration, and any exception is often associated with an unusual clinical setting and/or histology. Genotypic analysis is thus most indicated in B-cell lymphomas with equivocal immunohistochemistry findings, T-cell lymphomas, and atypical cases of Hodgkin's disease and reactive lesions.
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PMID:Immunohistochemistry and gene rearrangement studies in the diagnosis of malignant lymphomas: a comparison of 152 cases. 174 31

The t(14;18) translocation, found in most human follicular non-Hodgkin's lymphomas (NHLs), juxtaposes the Bcl-2 oncogene at 18q21 with the immunoglobulin heavy chain locus at 14q32. As a result, the Bcl-2 protein is markedly overproduced. Most of the breakpoints on chromosome 18 cluster at one of two sites, the major breakpoint region (mbr) and the minor cluster region (mcr). Recently, others used the polymerase chain reaction (PCR) to detect the t(14;18) mbr in 32% of specimens diagnosed as Hodgkin's disease (HD). In an attempt to confirm and extend those observations the authors used PCR to assay for both the mbr and mcr in HD specimens diagnosed at their institution and examined the specimens for Bcl-2 overproduction. The authors subjected the DNAs from 28 well-characterized HD tumors of 26 patients to PCR analyses using primers specific for the t(14;18) mbr and mcr breakpoints. Based on various PCR controls, the authors ascertained that 26 of the 28 specimens contained amplifiable template DNA. Southern blotting of the amplification products showed that none of the 26 HD DNAs had detectable t(14;18) mbr or mcr breakpoints. By admixing small amounts of t(14;18)-bearing NHL DNA with HD DNA samples, the authors directly demonstrated that the sensitivity of the PCR assays was adequate for the molecular detection of t(14;18)-bearing cells at a frequency comparable to that of Reed-Sternberg cells and their variants in HD. Immunohistochemical studies employing a highly specific anti-Bcl-2 antiserum under conditions optimized to detect t(14;18)-mediated overexpression of the Bcl-2 gene showed that the Reed-Sternberg cells and variants in all 19 HD tumors examined were negative for Bcl-2 immunostaining. In conclusion, the PCR and immunohistochemical data provided evidence that the t(14;18) translocation was not involved in the pathogenesis of the HD cases.
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PMID:Absence of t(14;18) major and minor breakpoints and of Bcl-2 protein overproduction in Reed-Sternberg cells of Hodgkin's disease. 175 May

Several monoclonal antibodies (MoAbs) are now available for immunophenotyping non-Hodgkin's lymphomas (NHLs) in paraffin-embedded tissue sections. To determine the reliability of these reagents in predicting the genotype, 44 cases of NHL were studied with the alkaline phosphatase-anti-alkaline phosphatase technique with the use of the following MoAbs: leukocyte common antigen (CD45), Mac 387, L26, 4KB5, MB1, MB2, LN2, UCHL1, MT1, and MT2. The lineage of the neoplastic cells was determined in all cases by gene rearrangement studies for immunoglobulin heavy chain and for the T-cell receptor beta-chain. Genotypic results showed B-cell lineage in 33 cases (75%), T-cell lineage in 6 cases (14%), and mixed or undetermined lineage in 5 cases (11%). A concordance of lineage assignment by paraffin section immunophenotyping with gene rearrangement studies was observed in 37 of 39 (95%) lymphomas with an unequivocally defined genotype. MoAb L26 was the most sensitive in detecting B-cell genotype; MoAbs MT1 and UCHL1 were the most sensitive and specific, respectively, in detecting T-cell genotype. The authors conclude that lineage assignment of NHLs in paraffin sections is reflective of the corresponding genotype when an appropriate panel of MoAbs is used.
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PMID:Immunophenotyping of non-Hodgkin's lymphomas in paraffin-embedded tissue sections. A comparison with genotypic analysis. 184


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