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Query: UMLS:C0019829 (
Hodgkin's disease
)
30,247
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cytogenetic abnormalities at chromosome 1q21 are among the most common second genetic events observed in Non-
Hodgkin
's Lymphomas and have prognostic significance. Recently,
BCL9
has been cloned from a pre-B-cell lymphoblastic leukemia cell line, which carried a t(1:14)(q21;q32). However, among a panel of 39 B-cell malignancies with 1q21 translocation, only two cases showed rearrangement for the
BCL9
gene. We report the establishment of a new lymphoma cell line from a patient with relapsed diffuse large cell lymphoma. This cell line SKI-DLCL-1 showed cell surface antigens identical to the original tumor and demonstrated the profile of a mature B-cell phenotype: CD19 and CD20 positive, CD5 and C10 negative. It carried a t(1;14)(q21;q32) translocation identical to the original tumor. Although the clinical presentation was an isolated effusion lymphoma, studies for HIV-1, HHV8 and EBV were all negative. Southern blot analysis demonstrated that
BCL9
was not rearranged in the SKI-DLCL-1 cell line. In addition, the
BCL9
gene was not over-expressed in SKI-DLCL-1 cell line. The identification of a new locus at 1q21 will help clarify the pathogenesis of B-cell malignancies with a translocation involving this locus.
...
PMID:Establishment of a human cell line (SKI-DLCL-1) with a t(1;14)(q21;q32) translocation from the ascites of a patient with diffuse large cell lymphoma. 1142 65
The rapid increase in the incidence of the B cell non-
Hodgkin
's lymphomas (NHL) and improved understanding of the mechanisms involved in their development renders timely a review of the theoretical and practical aspects of molecular abnormalities in B cell NHL. In Section I, Dr. Macintyre addresses the practical aspects of the use of molecular techniques for the diagnosis and therapeutic management of patients with B cell NHL. While detection of clonal Ig rearrangements is widely used to distinguish reactive from malignant lymphoproliferative disorders, molecular informativity is variable. The relative roles of cytogenetic, molecular and immunological techniques in the detection of genetic abnormalities and their protein products varies with the clinical situation. Consequently, the role of molecular analysis relative to morphological classification is evolving. Integrated diagnostic services are best equipped to cope with these changes. Recent evidence that large scale gene expression profiling allows improved prognostic stratification of diffuse large cell lymphoma suggests that the choice of diagnostic techniques will continue to change significantly and rapidly. In Section II, Dr. Willerford reviews current understanding of the mechanisms involved in immunoglobulin (Ig) gene rearrangement during B lymphoid development and the way in which these processes may contribute to Ig-locus chromosome translocations in lymphoma. Recent insights into the regulation of Ig gene diversification indicate that genetic plasticity in B lymphocytes is much greater than previously suspected. Physiological genomic instability, which may include isotype switching, recombination revision and somatic mutation, occurs in germinal centers in the context of immune responses and may explain longstanding clinical observations that link immunity and lymphoid neoplasia. Data from murine models and human disorders predisposing to NHL have been used to illustrate these issues. In Section III, Dr. Morris reviews the characteristics and consequences of deregulation of novel "proto-oncogenes" involved in B cell NHL, including PAX5 (chromosome 9p 13), BCL8 (15q11-q13),
BCL9
, MUC1, FcgammaRIIB and other 1q21-q22 genes and BCL10 (1p22). The AP12-MLT/MALT1 [t(11;18)(q21;q21)] fusion transcript is also described.
...
PMID:Non-Hodgkin's Lymphoma: Molecular Features of B Cell Lymphoma. 1170 42
Abnormalities of chromosome arm 1q have frequently been reported in B-cell non-
Hodgkin lymphoma
(NHL), and correlated with poor outcome. Five genes mapped to this region (
BCL9
, MUC1, FCGR2B, IRTA1, and RTA2) have been shown to be deregulated by juxtaposition with the IG genes. However, abnormalities of the 1q21-22 region that are not involved in translocations with the IG genes have not been addressed. We performed a molecular cytogenetic analysis of 1q12-22 abnormalities in 24 B-cell NHL cases. The cases analyzed were in two groups: one, composed of 18 cases with the single break in the 1q12-22 region, and another, composed of six cases with multiple breaks in the 1q12-22 region. The involvement of heterochromatin and its vicinity was observed most frequently in the single-break cases (13 of 18 cases). In this group, the recurring partner region was 1q32, which resulted in dup(1)(q12-21q32) or trp(1)(q12q32) in 5 cases. The 6 cases with multiple breaks showed an unexpected level of instability along with complex combinations of abnormalities, especially sequential duplication and inversion, in the 1q12-22 region. The
BCL9
locus was deleted by complex aberration in 2 of 6 cases. High-level amplification of the WI-16757 locus was found in 2 cases. Our studies demonstrate a high level of instability of the 1q12-22 region, possibly stemming from its chromatin organization. Chromosome arm 1q is gene-rich, and characterization of aberrations described in this study can be expected to lead to the discovery of additional functionally significant genetic changes.
...
PMID:Molecular cytogenetic analysis of genomic instability at the 1q12-22 chromosomal site in B-cell non-Hodgkin lymphoma. 1237 26
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.
...
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
