Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q06643 (non-Hodgkin's lymphoma)
 11,307 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 9-year-old boy was admitted to Shizuoka Children's Hospital because of cervical lymphoadenopathy. Complete blood count showed normal RBC and platelet counts. WBC was 2700/microliters with no tumor cells. Bone marrow aspirate showed normocellularity with 34% tumor cells. Lymph node biopsy from his right neck was performed and the patient was diagnosed as non-Hodgkin's lymphoma (lymphoblastic type). Surface marker analysis disclosed that the tumor cells were positive for CD5, CD7, CD19, CD38, CD71, and Ia antigen. Chromosomal analysis of the cervical lymph node revealed 46, XY, t(7;14) (p15;q32). Molecular investigation with appropriate probe showed germ-line configurations of IgH gene, TcR beta gene, and TcR gamma gene, and one rearranged band of TcR delta gene. Monoclonality of tumor cells was demonstrated from chromosomal analysis and molecular study. CD7 and CD19 are not lineage specific antigens because CD7 is expressed on immature AML cells and CD19 is expressed on T ALL cells or AML cells. Moreover, TcR delta rearrangement is considered to occur at early phase of hematolymphoid cells. Based on these data, tumor cells of this patient is considered to originate from immature lymphoid cell, so-called lymphoid stem cell.
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PMID:[CD5+, CD7+, and CD19+ non-Hodgkin's lymphoma in a child]. 170 16

The cyclin-dependent kinase 4-inhibitor (CDK41; p16; or MTS1) gene has been proposed as a candidate for a tumor-suppressor gene located in chromosome 9p21, a frequently deleted region in a wide spectrum of human cancers, including leukemias. Recent studies disclosed that it was frequently deleted or mutated in a variety of primary human cancers, including acute lymphoblastic leukemia. The purpose of this study is to figure out the precise manners and frequencies of p16 gene inactivation in diverse hematopoietic tumor types and thus to clarify its significance in development of human hematopoietic malignancies. A total of 410 tumor specimens from patients with primary hematopoietic malignancies were examined for deletions of the p16 gene as well as the neighboring p15 gene and the nearby interferon alpha gene by Southern blot analysis. Tumor-specific mutations or small deletions of the p16 gene were also studied in 74 patients using single-strand conformation polymorphism analysis and direct sequencing. Loss of the p16 gene was most frequently observed among the three genes examined and was found in 59 of the 410 patients: 2 of 134 with acute myelocytic leukemia, 41 of 105 with acute lymphocytic leukemia, 2 of 15 with chronic lymphocytic leukemia, 5 of 14 with adult T-cell leukemia, 4 of 33 with non-Hodgkin's lymphoma, 3 of 8 with mixed-lineage leukemia, and 2 of 61 with chronic myelocytic leukemia. In 16 of the 59 patients, the p16 deletions occurred due to rearrangements within the small region between the p15 exon 2 and the p16 exon 2. Tumor-specific mutations or small deletions of the p16 gene were not detected in the 74 patients examined, including 12 of 14 patients with hemizygous deletions of the gene. Loss of the p16 gene is frequent in and highly specific to lymphoid malignancies (54 of 183 [30%] in lymphoid tumor v2 of 219 [1%] in myeloid tumors; P < .0001). The deletion analyses strongly suggest that the p16 gene is a tumor-suppressor gene located in chromosome 9p21 that is involved in development of human lymphoid tumors. Gene deletions but not minute mutations should be the predominant mechanism of p16 gene inactivation in these types of tumors.
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PMID:Loss of the cyclin-dependent kinase 4-inhibitor (p16; MTS1) gene is frequent in and highly specific to lymphoid tumors in primary human hematopoietic malignancies. 763 63

The genes MTS1/p16 and MTS2/p15 located in 9p21 encoding cyclin-dependent kinase-4 inhibitors are homozygously deleted in a number of different tumour cell lines. By PCR analysis of 30 cell lines, including 10 acute lymphoblastic leukaemia (ALL) and 20 lymphoma cell lines, we found homozygous deletions of at least one locus in 11 (37%) cell lines. MTS1-specific sequences were deleted in 70% of ALL (reaching 86% in T-cell ALL) but in none of the non-Hodgkin's lymphoma (NHL) cell lines. MTS2-specific sequences were deleted in 40% of ALL and 17% of NHL cell lines. We observed a higher frequency of MTS1 deletions in ALL than in NHL (P < 0.001) and in T-cell neoplasms compared to B-cell neoplasms (67% v 6%; P = 0.001). In ALL-derived cell lines deletions of the MTS2 gene only occurred in cases with MTS1 deletions but in NHL only in cases without MTS1 deletions.
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PMID:Homozygous loss of the MTS1/p16 and MTS2/p15 genes in lymphoma and lymphoblastic leukaemia cell lines. 854 74

The ETV6 (also known as TEL) gene on chromosome 12p13 is the target of a number of translocations associated with various hematologic malignancies. The contribution of ETV6 to leukemogenesis occurs through different mechanisms that involve either its helix-loop-helix dimerization domain or its E26 transformation-specific (ETS) DNA-binding domain. Using fluorescence in situ hybridization we characterized seven new ETV6 rearrangements in chronic myeloid leukemia, acute myeloid leukemia, acute lymphoblastic leukemia, and non-Hodgkin's lymphoma. These aberrations, not always discernible at the cytogenetic level, include a t(5;12)(q31;p13), t(6;12;17)(p21;p13;q25), t(7;12)(p15;p13), t(7;12)(p12;p13), t(7;12)(q36;p13), t(12;13)(p13;q12), and a not completely defined t(12;?)(p13;?). Loss or disruption of the second ETV6 allele by a del(12)(p12p13) or by an intragenic ETV6 deletion was detected in two cases. In six cases the 12p13 breakpoint occurred in the 5' end of ETV6, upstream to exons encoding the HLH domain, whereas the remaining case had a breakpoint between the exons coding for the HLH domain and the exons coding for the ETS domain of ETV6. These observations provide further evidence for the multiple contributions of ETV6 in the pathogenesis of a wide range of hematologic malignancies.
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PMID:Fluorescence in situ hybridization characterization of new translocations involving TEL (ETV6) in a wide spectrum of hematologic malignancies. 945 71

Splenic marginal zone lymphoma (SMZL) has recently been recognized in the World Health Organization classification of hematological diseases as distinct type of non-Hodgkin's lymphoma. In contrast to the well-established chromosomal changes associated with other B-cell non-Hodgkin's lymphoma, few genetic alterations have been found associated with SMZL. The aim of our study was to analyze by comparative genomic hybridization (CGH) the chromosomal imbalances in 29 patients with SMZL and to correlate these findings with clinical and biological characteristics and patient outcome. In 21 cases, cytogenetic studies were simultaneously performed. Most of the patients (83%) displayed genomic imbalances. A total of 111 DNA copy number changes were detected with a median of four abnormalities per case (range, 1 to 12). Gains (n = 92) were more frequent than losses (n = 16), while three high-level amplifications (3q26-q29, 5p11-p15, and 17q22-q25) were observed. The most frequent gains involved 3q (31%), 5q (28%), 12q and 20q (24% each), 9q (21%), and 4q (17%). Losses were observed in 7q (14%) and 17p (10%). SMZL patients with genetic losses had a shorter survival than the remaining SMZL patients (P < 0.05). In summary, chromosomal imbalances in regions 3q, 4q, 5q, 7q, 9q, 12q, and 20q have been detected by CGH in SMZL. Patients with SMZL displaying genetic losses by CGH had a short survival.
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PMID:Novel genomic imbalances in B-cell splenic marginal zone lymphomas revealed by comparative genomic hybridization and cytogenetics. 1133 82

Chromosomal rearrangements involving the immunoglobulin heavy chain gene (IGH) at 14q32 are observed in approximately 50% of patients with B-cell non-Hodgkin's lymphoma (NHL). The 5' end of the IGH gene is located within 8 kb of the telomeric repeats of 14q. Translocations involving the IGH locus and the telomeric band of a partner chromosome are difficult to identify, because most terminal bands of human chromosomes appear pale by conventional G-banding techniques. To determine whether there are cryptic translocations involving the IGH locus, we used dual-color fluorescence in situ hybridization (FISH) of 5' and 3' IGH genomic clones containing the variable sequences, or the J(H) and the 5' constant regions, respectively. We examined cells from 51 patients with B-cell NHL who had a normal karyotype (3 patients), clonal abnormalities not involving 14q32 (35 patients), or alterations of 14q32 other than recurring translocations, i.e., add(14)(q32) (13 patients). FISH detected 17 IGH translocations in 16 of 51 (31%) cases. Of the 13 cases with add(14)(q32), FISH identified the partner chromosome in 9 cases (69%; 3q27, 6 cases; 2p13, 19p13.3, and 18q21.3, 1 case each). Six of thirty-eight (16%) patients without visible alterations of 14q32 and 2 of 13 (15%) patients with an abnormality of one chromosome 14 had masked (5 patients) or cryptic IGH translocations (3 patients), involving 3q27 (3 patients), 5p15.3 (2 patients), 19p13.3 (3 patients), or 14q32 (1 patient; 1 patient had two rearrangements). We identified two novel, recurring, cryptic translocations: t(5;14)(p15.3;q32) (2 patients) and t(14;19)(q32;p13.3) (3 patients). In summary, FISH permitted the detection of cryptic or masked IGH rearrangements in approximately 20% of lymphoma cases without visible rearrangements of 14q32 analyzed retrospectively.
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PMID:Identification of novel cryptic translocations involving IGH in B-cell non-Hodgkin's lymphomas. 1235 63

Mantle cell lymphoma (MCL) is an aggressive non-Hodgkin's lymphoma with median patient survival times of approximately 3 years. Although the characteristic t(11;14)(q13;q32) is found in virtually all cases, experimental evidence suggests that this event alone is insufficient to result in lymphoma and secondary genomic alterations are required. Using a newly developed DNA microarray of 32 433 overlapping genomic segments spanning the entire human genome, we can for the first time move beyond marker based analysis and comprehensively search for secondary genomic alterations concomitant with the t(11;14) in eight commonly used cell models of MCL (Granta-519, HBL-2, NCEB-1, Rec-1, SP49, UPN-1, Z138C and JVM-2). Examining these genomes at tiling resolution identified an unexpected average of 35 genetic alterations per cell line, with equal numbers of amplifications and deletions. Recurrent high-level amplifications were identified at 18q21 containing BCL2, and at 13q31 containing GPC5. In addition, a recurrent homozygous deletion was identified at 9p21 containing p15 and p16. Alignment of these profiles revealed 14 recurrent losses and 21 recurrent gains as small as 130 kb. Remarkably, even the intra immunoglobulin gene deletions at 2p11 and 22q11 were detected, demonstrating the power of combining the detection sensitivity of array comparative genomic hybridization (CGH) with the resolution of an overlapping whole genome tiling-set. These alterations not only coincided with previously described aberrations in MCL, but also defined 13 novel regions. Further characterization of such minimally altered genomic regions identified using whole genome array CGH will define novel dominant oncogenes and tumor suppressor genes that play important roles in the pathogenesis of MCL.
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PMID:Comprehensive whole genome array CGH profiling of mantle cell lymphoma model genomes. 1522 87

Diffuse large B-cell lymphoma (DLBCL) is the most common type of non-Hodgkin's lymphoma and exhibits aggressive and heterogeneous clinical behavior. To genetically characterize DLBCL, we established our own array-based comparative genomic hybridization and analyzed a total of 70 cases [26 CD-positive (CD5+) DLBCL and 44 CD5-negative (CD5-) DLBCL cases]. Regions of genomic aberrations observed in >20% of cases of both the CD5+ and CD5- groups were gains of 1q21-q31, 1q32, 3p25-q29, 5p13, 6p21-p25, 7p22-q31, 8q24, 11q23-q24, 12q13-q21, 16p13, 18, and X and losses of 1p36, 3p14, 6q14-q25, 6q27, 9p21, and 17p11-p13. Because CD5 expression marks a subgroup with poor prognosis, we subsequently analyzed genomic gains and losses of CD5+ DLBCL compared with those of CD5-. Although both groups showed similar genomic patterns of gains and losses, gains of 10p14-p15 and 19q13 and losses of 1q43-q44 and 8p23 were found to be characteristic of CD5+ DLBCL. By focusing on the gain of 13q21-q34 and loss of 1p34-p36, we were also able to identify prognostically distinct subgroups among CD5+ DLBCL cases. These results suggest that array-based comparative genomic hybridization analysis provides a platform of genomic aberrations of DLBCL both common and specific to clinically distinct subgroups.
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PMID:Genome-wide array-based comparative genomic hybridization of diffuse large B-cell lymphoma: comparison between CD5-positive and CD5-negative cases. 1534 73