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)

Mantle-cell lymphoma comprises 2%-10% of all non-Hodgkin's lymphomas (NHLs). Patients present with generalized disease, and have a poor prognosis. Three different histologic patterns (mantle zone, nodular, and diffuse) and three different cytological variants (classical, blastic, and pleomorphic) have been described. The phenotype (strong surface IgM, CD5+, CD10-, CD23-, cyclin D1+ and B-cell markers+) is remarkably constant. Dependent on the methods used (PCR, Southern blot analysis, and cytogenetics) a t(11;14) can be detected in approximately 35%-66% of cases. Using FISH analysis, possibly almost all cyclin D1-expressing MCLs carry this translocation, indicating that a substantial part of these translocations are missed by conventional methods. This has been confirmed by DNA fiber FISH analysis by which the breakpoints could be accurately mapped over a 220 kb region centromeric of the cyclin D1 gene. Additional genetic abnormalities involve breakpoints and deletion at the 3' end of the cyclin D1 gene, numerical chromosomal aberrations, mutations in p53, and deletions of p16. These may be associated with tumor progression. Owing to the translocation t(11;14), the cyclin D1 gene is activated. At the RNA level, approximately 90% of MCLs show overexpression. This corroborates immunohistochemistry on paraffin tissue sections. Since expression of cyclin D1 in normal lymphoid cells is very low to undetectable, and only hairy-cell leukemia and very few other B-cell lymphomas show expression, immunohistochemistry for cyclin D1 provides an excellent marker for MCL. In hairy-cell leukemia, expression is moderate and cannot be explained by chromosomal translocation.
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PMID:Bcl-1/cyclin D1 in malignant lymphoma. 920 53

Human herpesvirus-8/Kaposi sarcoma-associated herpesvirus-positive primary effusion lymphoma (PEL) is a recently identified B-cell non-Hodgkin lymphoma category characterized by liquid growth in the serous body cavities. Apart from viral infection, no genetic alteration is known to be associated with PEL and no recurrent cytogenetic abnormality has been identified in these lymphomas. Yet the consistent monoclonality of PEL indicates that the disease is not solely a virus-driven proliferation. Here we report that PEL is associated with a high frequency of mutations of BCL6 5' noncoding regions, and we identify karyotypic abnormalities that may be recurrently involved in these lymphomas. Mutations of BCL-6 5' noncoding regions occurred in 8/13 PEL. Mutations occurred in the absence of BCL6 gross rearrangements were often multiple in the same patient (7/8 mutated cases), and occurred in both HIV-positive and HIV-negative individuals. Since BCL6 mutations are regarded as a genetic marker of B-cell transition through the germinal center (GC), these data are consistent with histogenetic derivation of PEL from GC or post-GC B-cells. Cytogenetic and FISH analysis of seven PEL cell lines showed frequent occurrence of complete or partial trisomy 12 (7/7 cases), trisomy 7 (4/7 cases), and abnormalities of bands Iq21-25 (5/7 cases).
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PMID:Genetic characterization of HHV-8/KSHV-positive primary effusion lymphoma reveals frequent mutations of BCL6: implications for disease pathogenesis and histogenesis. 989 4

Deletions and rearrangements involving the long arm of chromosome 11 are not infrequent occurrences in the non-Hodgkin's lymphomas. Recently, a tumor suppressor gene, the multiple endocrine neoplasia type 1 gene (MEN1) was cloned and mapped to chromosome 11q13. To assess the potential involvement of this gene in lymphomagenesis, we examined 94 primary cases of lymphoma and 12 cell lines by a combination of fluorescent in situ hybridization and PCR-SSCP analysis. In our initial analysis of 41 primary B or T lymphomas, MEN1 FISH analysis revealed allelic deletions in 15 cases (three of four B cell chronic lymphocytic leukemias, six of 15 follicular lymphomas, three of nine diffuse large B cell lymphomas, two of five mantle cell lymphomas, one of four Burkitt's lymphoma). To discern whether the MEN1 gene was in fact the target of the deletions, we assessed 20 of these 41 cases and an additional 74 primary lymphomas and 12 cell lines for MEN1 gene mutations using PCR-SSCP analysis. Abnormal SSCP patterns were found in exon 2 in two of the primary lymphoma cases and in one of the cell lines, but not in any of the original cases that showed MEN1 deletions by FISH. Furthermore, sequencing analysis revealed that the abnormal SSCP patterns in exon 2 were the result of a previously described genetic polymorphism (S145S: AGC --> ACT), and in one sample, the result of this S145S polymorphism associated with a second nucleotide substitution at position 498 which left the encoded amino acid unchanged. Our study indicates that the 11q13 locus is a frequent target of deletion in lymphoid neoplasms, but that there are no associated mutations of the MEN1 gene. This suggests that the 11q deletions either target another gene in lymphomas, or that the MEN1 gene is inactivated through means other than mutation.
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PMID:Allelic loss of 11q13 as detected by MEN1-FISH is not associated with mutation of the MEN1 gene in lymphoid neoplasms. 1004 65

Dual-color interphase FISH was performed to B-cell Non-Hodgkin's lymphomas to detect numerical genetic alterations in c-MYC, RB-1, TP53 and centromere 8 and 17. The probe combinations c-MYC/centromere 8, RB-1/centromere 8 and TP53/centromere 17 were applied, and the hybridization signals scored in a correlated fashion. Copy number aberrations was found in 24 of 45 lymphomas examined (53%). Nine tumors (20%) had increased c-MYC gene copy number (three to 8 copies). Seven of these nine had increase in c-MYC copies relative to centromere 8 copy number. Allelic loss of RB-1 was found in 9 tumors (20%), one tumor lacked both alleles. Nine cases (20%) showed hemizygous TP53 deletion. TP53 deletion was significantly associated with high-grade histology (P = 0.02). Numerical alterations in c-MYC and RB-1 were not associated with prognosis. Patients with hemizygous TP53 deletion had shorter survival (relative risk = 6.1, P<0.001) than the ones with two or more alleles.
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PMID:c-MYC, RB-1, TP53, and centromere 8 and 17 copy number in B-cell non-Hodgkin's lymphomas assessed by dual-color fluorescence in situ hybridization. 1032 17

Rearrangement of the BCL2 gene is an important parameter for the differential diagnosis of non-Hodgkin lymphomas. Although a relatively large proportion of breakpoints is clustered, many are missed by standard PCR. A FISH assay is therefore desired. Up to now, a lack of probes flanking the BCL2 gene has limited the possibilities for a FISH assay to an approach based on colocalization of probes for BCL2 and the immunoglobulin heavy chain (IGH) locus. Intrinsically high rates of false positive nuclei and high interobserver variability make such assays unsuitable for use on lymphoma tissue samples, where tumor cells often form only a minority of the cell population. Using YAC end cloning techniques and screening of a PAC library, we have isolated PAC clones flanking the BCL2 gene. Using these PACs, and several cosmid clones in the second BCL2 intron, we developed a segregation-based interphase FISH assay with two probe combinations enabling separate detection of 5' and 3' (mbr/mcr) breakpoints. The assay was applied to a series of 40 follicular lymphomas. To evaluate the results, the same lymphomas were analyzed by DNA fiber FISH with a 600-kb set of BCL2 DNA clones labeled in alternating colors in combination with a color barcode covering the IGH locus. This approach allowed precise mapping of BCL2 breakpoints, and simultaneously showed juxtaposition of IGH genes to BCL2. Comparison of the results of interphase and fiber FISH showed complete correlation. Five cases were negative with both FISH techniques as well as with Southern blotting. Interestingly, all of these 5 cases lacked BCL2 overexpression as determined by immunohistochemistry, against 3 of 35 rearrangement-positive follicular lymphomas. Furthermore, absence of t(14;18) seemed to be correlated with a higher histologic grade (grades 2 and 3 according to Berard). These data indicate that the segregation-based interphase FISH assay detects 100% of BCL2 rearrangements. Because interpretation of the results is straightforward and requires no extensive experience, this assay may be the best available diagnostic test for BCL2 rearrangement. Genes Chromosomes Cancer 27:85-94, 2000.
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PMID:Interphase FISH detection of BCL2 rearrangement in follicular lymphoma using breakpoint-flanking probes. 1056 90

The most common translocation in non-Hodgkin lymphomas (NHL) is a t(14;18)(q32;q21) recombining the immunoglobulin heavy-chain gene (IGH) on chromosome 14 with the B cell leukemia/lymphoma 2 (BCL2) gene on chromosome 18. Although NHLs carrying a t(14;18) typically begin as low-grade, follicular lymphomas, they have a tendency towards transformation to more aggressive disease, something that is accompanied, presumably caused, by the acquisition of secondary chromosomal changes. One such common change is add(1)(p36), in which material of unknown origin is added to the tip of the short arm of chromosome 1. We used multicolor fluorescence in situ hybridization (M-FISH), a new FISH-based screening technique, to better characterize the rearrangement. Whenever doubt persisted after M-FISH, hybridization with chromosome-specific probes was also performed. In 5 out of 14 informative cases, the extra material on 1p36 could be shown to have come from 17q, more specifically 17q11-21 --> qter, whereas it came from 6p and 11q in two cases each and from 3p, 8p, 8q, 9q, and 12p in one case each. It appears, therefore, that der(1)t(1;17)(p36;q11-21) is a common secondary aberration in NHLs with t(14;18) as the primary abnormality, accounting for about one-third of all add(1)(p36) chromosomes seen in this cytogenetic subset.
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PMID:M-FISH cytogenetic analysis of non-Hodgkin lymphomas with t(14;18)(q32;q21) and add(1)(p36) as a secondary abnormality shows that the extra material often comes from chromosome arm 17q. 1214 85

Aberrations of chromosomal bands 1p36 and 1q11-q23 are among the most common chromosomal alterations in non-Hodgkin lymphoma (NHL). In this study, 16 cases of NHL showing recurrent unbalanced translocation t(1;1)(p36;q11-23) by G-band analysis were selected for further analysis. To delineate the exact breakpoints, multicolor band analysis for chromosome 1 (M-BAND1), and locus-specific fluorescence in situ hybridization (LS-FISH) using human genome designated BAC clones were performed. In all but one dicentric case, the breakpoint was determined to involve chromosomal bands 1p36.3 and 1q21.1-2. LS-FISH analysis for the TP73, MEL1, SKI, and CASP9 loci at 1p36, and the loci IRTA1, IRTA2, BCL9, AF1Q, JTB, and MUC1 at 1q21, verified the MBAND1 results and further delineated the breakpoints. In band 1p36, two hybridization patterns were observed, one involving deletions of MEL1, TP73, and SKI, but not CASP9, and the second involving a breakpoint telomeric to TP73. In region 1q21, four hybridization patterns were observed, the first involving duplication/translocation of all five genes; the second involving duplication/translocation of BCL9, AF1Q, JTB, and MUC1; the third involving duplication/translocation of AF1Q, JTB, and MUC1; and the fourth with a breakpoint telomeric to MUC1. Using an alpha-satellite probe for chromosome 1 (D1Z5), centromeric involvement in the unbalanced translocation t(1;1)(p36.3;q21.1-2) was excluded in all but the one dicentric case, that is, dic(1;1)(p36.3;q10). In conclusion, deletion of 1p36 and duplication of 1q21 through formation of an unbalanced translocation t(1;1)(p36.3;q21.1-2) is a non-random event in NHL, suggesting a deletion-duplication mechanism involved in lymphoma progression and justifying further systematic research.
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PMID:Characterization of the recurrent translocation t(1;1)(p36.3;q21.1-2) in non-Hodgkin lymphoma by multicolor banding and fluorescence in situ hybridization analysis. 1261 61

The indolent non-Hodgkin's lymphomas are theoretically curable through allogeneic haematopoietic stem cell transplantation (allo-HSCT). The applicability of standard conditioning allo-HSCT is, however, restricted by its toxicity. Recently, reduced-intensity conditioning regimens have demonstrated efficacy with significantly reduced early morbidity and mortality. We examined the safety and efficacy of rituximab-BEAM-CAMPATH as reduced-intensity conditioning for allo-HSCT in follicular lymphomas. Minimal residual disease was assessed by polymerase chain reaction (PCR) for bcl-2/IgH translocations, and chimerism by X,Y-FISH or PCR amplification of short tandem repeat sequences. At a median follow-up of 521 days (371-719), four of five patients were alive and three were in complete molecular remission. Three patients required pre-emptive treatment for CMV reactivation. One succumbed to a perforated viscus and one had slowly progressive disease. A graft-versus-lymphoma effect was demonstrable and quantitative PCR for bcl-2/IgH may allow better accuracy in scheduling post-allograft rituximab and/or donor lymphocyte infusions. Although follow-up is short, reduced-intensity allo-HSCT with BEAM-CAMPATH conditioning appears to be safe, effective in inducing a molecular remission and is potentially curative. Further recruitment and much longer follow-up will be necessary to determine if this impacts favourably upon disease-free and overall survival.
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PMID:Reduced-intensity rituximab-BEAM-CAMPATH allogeneic haematopoietic stem cell transplantation for follicular lymphoma is feasible and induces durable molecular remissions. 1269 20

Anaplastic large cell lymphomas (ALCLs) represent a heterogeneous group of malignant lymphoproliferative diseases. Most of the cases are of T-cell line with a loss of cell surface receptors but with a production of cytotoxic cytoplasmatic granules--immunohistochemically (IHC) positive perforin, granzyme B, and TIA-1. The diagnostics of ALCL is based on morphological findings and results of IHC, which further stratify ALCLs to basic immunophenotypes according to ALK (anaplastic lymphoma kinase) protein expression--ALCL CD30+ ALK+ and ALCL CD30+ ALK+. The morphological investigations are supplemented by karyotyping and/or by a demonstration of breakpoint at 2p23 harboring ALK gene (FISH), and by molecular detection of chimeric genes characteristic of ALK+ lymphomas (NPM-ALK, ATIC-ALK, TPM3-ALK, TFG-ALK, and some even rarer rearrangements). Molecular diagnostics is important in monitoring minimal residual disease. As some of the characteristic molecular changes were demonstrated in healthy individuals and in Hodgkin's disease by quantitative PCR, the validation of these findings demands further studies. ALK protein positive ALCLs affect patients in age categories up to the third decade, whereas ALK protein negative cases occur in older patients with an average age of 60 years. Both subgroups of lymphomas are aggressive but ALK+ lymphomas react well to systemic treatment, and have a more favorable prognosis. Primary skin ALCLs belong to a group of T-cell lymphoproliferative diseases of the skin and have, in the majority of cases, a favorable course without generalization.
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PMID:[Anaplastic large-cell lymphoma: review]. 1463 6

The associated poor prognosis and potentially aggressive behavior of mantle cell lymphoma and its blastoid variants make differentiation from other non-Hodgkin B-cell lymphomas especially important. We present a case of mantle cell lymphoma with a marked leukemic component, which demonstrated both a typical nodular mantle cell pattern and Burkitt lymphoma within a single lymph node removed at the time of splenectomy. The presence of CD5, CD10, and Bcl-1 co-expression by immunohistochemistry and detectable t(11;14) and cMYC gene rearrangement by FISH analyses in the Burkitt region support a transformation of mantle cell lymphoma over a concomitant malignancy. A limited number of mantle cell lymphomas demonstrating dual t(11;14) and chromosome 8q24 cMYC gene rearrangements have been previously reported in the literature. They demonstrate an extremely aggressive course with a very poor prognosis. Although the accelerated terminal phase of this patient's clinical course mirrors these previous published cases; none have described the combined morphologic and immunophenotypic features of Burkitt lymphoma reported here. This case provides further support for the aggressive nature of these lymphomas and demonstrates the utility of flow cytometry, immunohistochemistry, and cytogenetic techniques in avoiding potential errors in their diagnosis, prognosis, and treatment.
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PMID:Burkitt transformation of mantle cell lymphoma. 1537 Feb 62


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