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Query: UMLS:C0019829 (
Hodgkin's disease
)
30,247
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The LAZ3/BCL6 gene on chromosome 3q27 is recurrently disrupted in B-cell non
Hodgkin
's lymphomas by translocations involving immunoglobulin genes or other chromosome regions. We have studied the t(3; 11) (q27; q23) translocation, present in a B-cell leukemia cell line (Karpas 231). As a consequence of this translocation, a LAZ3 chimeric transcript was created by fusion, 5' to the LAZ3 exon 2, with a transcribed sequence identical to
BOB1
/
OBF1
, a B cell-specific coactivator of octamer-binding transcription factors, recently described. Nucleotidic sequence of a nearly full-length cDNA of the
BOB1
/
OBF1
gene revealed particular features in the 3' untranslated region of the gene, including pyrimidine-rich sequence repeats, an Alu motif, and a polymorphic [CCTT] tetranucleotide microsatellite. Two A to G transition mutations were also detected in the coding region of one allele of a lymphoma B-cell line, Raji, leading to 2 amino-acid changes in the C-terminal region. Due to its cell-specificity and role as a coactivating transcription factor, chromosomal translocation and/or perhaps point mutation of
BOB1
/
OBF1
may contribute to B cell tumorigenesis.
...
PMID:Fusion of the LAZ3/BCL6 and BOB1/OBF1 genes by t(3; 11) (q27; q23) chromosomal translocation. 857 89
The LAZ3/BCL6 gene on chromosone 3q27 is recurrently disrupted in B cell non-
Hodgkin
's lymphomas by translocations involving immunoglobulin genes or other chromosone regions. We have cloned the breakpoint region and chromosone derivatives of the t(3;11)(q27;q23.1) translocation, present in a B cell leukemia cell line (Karpas 231), which define a novel 11q23.1 breakpoint site. As a consequence of the translocation, LAZ3 regulatory regions upstream of non-coding exon 2 are replaced by those of
BOB1
/
OBF1
, a recently described B cell-specific coactivator of octamer-binding transcription factors. A detailed structural study of the
BOB1
/
OBF1
genomic DNA and of a nearly full-length cDNA revealed particular features in the 3' untranslated region, such as an Alu motif and a polymorphic tetranucleotide microsatellite. Two mutations leading to two potential amino acid changes in the C-terminal region, were also detected in one allele of a lymphoma B cell line, Raji. Due to its cell-specific expression and role as a coactivating transcription factor, chromosomal translocation and/or point mutation of
BOB1
/
OBF1
may contribute to B cell tumorigenesis.
...
PMID:The B cell transcriptional coactivator BOB1/OBF1 gene fuses to the LAZ3/BCL6 gene by t(3;11)(q27;q23.1) chromosomal translocation in a B cell leukemia line (Karpas 231). 861 32
The LAZ3(BCL6) gene on chromosome band 3q27 is nonrandomly disrupted in B-cell non-
Hodgkin lymphoma
(B-NHL) by chromosomal translocations clustered within a 3.3-kb MTC (major translocation cluster) located between the two first noncoding exons. These translocations generally result in the expression of a chimeric mRNA transcript between the LAZ3 gene and sequences derived from the partner chromosome. Using RACE RT-PCR, we previously demonstrated fusion of LAZ3 with the RhoH/TTF gene, a hemopoietic cell-specific small GTPase involved in cytoskeleton organization, and with the
BOB1
/
OBF1
gene, a B-cell-specific coactivator of octamer-binding transcription factors, following translocations t(3;4)(q27;p13) and t(3;11)(q27;q23), respectively. Here we report the identification of the L-Plastin(LCP1) gene as a novel LAZ3 partner in chimeric transcripts resulting from a t(3;13)(q27;q14) translocation, in two cases of B-cell lymphoma. As a consequence of the translocation, the 5' regulatory region of each gene was exchanged, creating both LCP1-LAZ3 and reciprocal LAZ3-LCP1 fusion transcripts in one case, and only a LCP1-LAZ3 fusion transcript in the other. The 13q14 chromosome region is frequently disrupted in various proliferative disorders, and the LCP1 gene defines a new breakpoint site in this region. This gene encodes an actin-binding protein and is the second LAZ3 partner gene, with the RhoH/TTF gene, involved in actin cytoskeleton organization. Genes Chromosomes Cancer 26:97-105, 1999.
...
PMID:Nonrandom fusion of L-plastin(LCP1) and LAZ3(BCL6) genes by t(3;13)(q27;q14) chromosome translocation in two cases of B-cell non-Hodgkin lymphoma. 1046 47
In classical
Hodgkin lymphoma
the malignant
Hodgkin
/Reed-Sternberg (HRS) cells characteristically constitute only a small minority of the tumour load. Their origin has been debated for decades, but on the basis of rearrangement and somatic hypermutations of their immunoglubulin (Ig) genes, HRS cells are now ascribed to the B-cell lineage. Nevertheless, phenotypically HRS cells have lost their B cell identity: they usually lack common B cell-specific surface markers such as CD19 and CD79a as well as Ig gene transcripts. Here we demonstrate that Ig promoters as well as both intronic and 3' enhancer sequences are transcriptionally inactive in HRS cell lines. This inactivity correlates with either reduced levels or even a complete lack of several B cell-specific transcription factors required for their expression: Oct-2,
OBF-1
, PU.1, E47/E12, PAX-5 and EBF. Moreover, we demonstrate that PU.1 and PAX-5 are significantly down-regulated in HRS cells in pathological specimens from primary tumour tissues. However, forced expression of these transcription factors can activate regulatory sequences of silenced B cell marker genes, and in one instance also transcription from a silenced endogenous locus. Thus, HRS cells are dedifferentiated B cells with global down-regulation of B cell-specific genes.
...
PMID:Loss of B cell identity correlates with loss of B cell-specific transcription factors in Hodgkin/Reed-Sternberg cells of classical Hodgkin lymphoma. 1211 70
Primary effusion lymphoma (PEL) is a lymphoproliferative disease of B-cell origin that is associated with HHV-8 infection. PEL cells harbor a non-B, non-T phenotype and lack significant surface immunoglobulin (Ig) expression, a characteristic that has not been fully explained. In the present study, we demonstrate that PEL cells constitutively express interferon regulatory factor (IRF)-4, a transcription factor that regulates the activity of the immunoglobulin light-chain enhancer elements lambdaB and kappaE3' through binding to a composite Ets-IRF site. IRF-4 activity requires its physical interaction with PU.1, an Ets family member involved in the activation of genes essential for B-cell development. However, in PEL-derived B-cell lines, PU.1 expression was completely abrogated; expression of the B cell specific transcription factor Oct-2, which is known to regulate PU.1 expression, was also abolished. Moreover, the B-cell-specific coactivator of octamer factors,
BOB-1
/OcaB, was expressed at very decreased levels in PEL cells. Ectopic expression of Oct-2 was able to fully restore PU.1 promoter activity in the PEL cell line BCBL-1, while PU.1 expression also reconstituted the activity of the lambdaB Ets-IRF site. In addition, protein levels of BSAP/Pax-5 and IRF-8/ICSBP were undetectable in PEL cells. The pattern of transcription factor ablation observed in PEL was found to be comparable to that observed in classical
Hodgkin's disease
-derived cell lines, which also lack B-cell-specific surface markers. These observations indicate that disruption of the B-cell-specific transcriptional program is likely to contribute to the incomplete B-cell phenotype characteristic of PEL cells.
...
PMID:Disruption of the B-cell specific transcriptional program in HHV-8 associated primary effusion lymphoma cell lines. 1259 83
Hodgkin's lymphoma
(HL) is separated into the classical (c) and lymphocyte-predominance (lp) forms. Whereas classical
Hodgkin
-Reed/Sternberg (HRS) cells carry mutated immunoglobulin (Ig) gene rearrangements that are often "crippled" and lack intraclonal diversity, and are likely derived from preapoptotic germinal center (GC) B cells, the lymphocytic and histiocytic cells of lpHL are presumably derived from selected GC B cells and often show ongoing somatic hypermutation. The recently identified lymphocyte-rich classical (lrc) HL is characterized by HRS cells with the immunophenotype of classical HRS cells (CD30(+)CD15(+)CD20(-)CD45(-)) but an infiltrate similar to lpHL and a clinical behavior resembling lpHL. To identify the histogenetic origin of the HRS cells in lrcHL and to determine the relationship to the lymphoma cells of cHL and lpHL we characterized seven cases of lrcHL by immunohistochemistry and sequenced the rearranged Ig genes of single micromanipulated HRS cells. The expression patterns of BCL6, CD138, Oct2, and
BOB1
in HRS cells of lrcHL showed differences to those of both cHL and lpHL. Analyses of rearranged Ig genes identified clonal HRS cell expansions carrying mutated Ig rearrangements without significant intraclonal diversity in all seven of the cases. In two cases crippling mutations, rendering originally functional V gene rearrangements nonfunctional, were observed. Thus, the mutation pattern of rearranged Ig genes of HRS cells in lrcHL is clearly different from those in lymphocytic and histiocytic cells of lpHL, and resembles the pattern in HRS cells of cHL, suggesting that HRS cells in lrcHL derive from (preapoptotic) GC B cells that silenced hypermutation. In one case in addition to the dominant HRS cell clone, CD30(+) EBV-infected HRS-like cells unrelated to the tumor clone were observed, suggesting development of an expanded population of EBV-harboring HRS-like cells in the microenvironment of HL.
...
PMID:Typing the histogenetic origin of the tumor cells of lymphocyte-rich classical Hodgkin's lymphoma in relation to tumor cells of classical and lymphocyte-predominance Hodgkin's lymphoma. 1267 Sep 18
Nodular lymphocyte predominance
Hodgkin's disease
(NLPHD), previously called nodular paragranuloma, is a rare entity recognized as a clinico-pathological entity distinct from classic
Hodgkin's lymphoma
. It is an indolent B cell lymphoma derived from a germinal center cell. NLPHD may closely resemble lymphocyte-rich classic
Hodgkin's disease
(LR-CHD) or T-cell or histiocyte-rich large B-cell lymphoma (TCRLBCL). A reproducible distinction between these entities is difficult but the classification is prognostically relevant. NLPHD is characterized by neoplastic "popcorn" cells CD20+ CD30- CD15- EMA+ Bcl6+ scattered within a nodular background predominantly composed of small B lymphocytes. LR-CHD neoplastic proliferation is composed of CD20+/- CD30+ CD15+/- EMA- Bcl6+/- Reed Sternberg or
Hodgkin
's cells, scattered within numerous CD3+ T cells. TCRLBCL is an agressive lymphoma composed of CD20+ CD30- CD15- EMA+/- Bcl6+/- polymorphic neoplastic cells, scattered within a mixture of CD3+ T cells and histiocytes. Epstein Barr virus is detectable within half cases of LR-CHD, but never in NLPHD and rarely in TCRLBCL. The transcription factors
BOB1
, PU-1, BSAP and IRF4 are new markers that could be useful for differential diagnosis.
...
PMID:[Nodular lymphocyte predominance Hodgkin's disease and its differential diagnosis]. 1522 Aug 30
Neoplastic cells of
Hodgkin lymphoma
(HL) originating from germinal or postgerminal center B cells lose their capacity to transcribe and to express surface immunoglobulins (Ig). This defect correlates with the absence of expression of B-cell-specific transcription regulators, including PU.1,
BOB1
, and OCT2. These findings suggest that Ig impairment in HL is caused by the defective transcription machinery. The mechanism or mechanisms underlying failure of
Hodgkin
cells to express PU.1,
BOB1
, and OCT2 remain unclear. The genes encoding for these three respective transcription factors have been mapped at 11p11.2 (SPI1), 11q23.1 (
POU2AF1
), and 19q13.2 (POU2F2); these are chromosomes recurrently affected in HL. To check the genomic status of PU.1,
BOB1
, and OCT2 in HL, we performed metaphase fluorescence in situ hybridization (FISH) analysis of 10 HL cases using locus-specific bacterial artificial chromosome clones. FISH signal pattern was correlated with the ploidy level of each analyzed cell and showed recurrent imbalances of the studied loci. The underrepresentation of one or two analyzed regions was detected in five cases; the remaining five cases showed either random losses, a ploidy-equivalent FISH pattern, or overrepresented signals. Neither a constant loss nor genomic aberration of at least one of these genes could be observed in studied cases. These findings indicate that genomic imbalances or rearrangements are not a cause of PU.1,
BOB1
, and OCT2 deficiency in cHL and argue for another mechanism underlying this phenomenon.
...
PMID:Alterations of loci encoding PU.1, BOB1, and OCT2 transcription regulators do not correlate with their suppressed expression in Hodgkin lymphoma. 1579 64
Hodgkin
and Reed-Sternberg (HRS) cells of classical
Hodgkin lymphoma
(cHL) and primary effusion lymphoma (PEL) are derived from germinal center (GC) and post-GC B cells, respectively. Neither express many of the B cell genes or surface markers typically expressed by other GC-derived B cell lymphomas or normal B cells. This loss of B cell gene expression is not due to a lack of essential transcription factors, as studies have shown that the ectopic expression of missing transcription factors failed to reactivate endogenous target genes. These results implicate epigenetic mechanisms extinguishing B cell gene expression. Silenced endogenous B cell genes representing a surface receptor, B29 (Igbeta, CD79b), a signaling molecule, TCL1, and a transcription factor, Bob1 (
OCA-B
,
OBF-1
), were reactivated by 5-aza-2'-deoxycytidine, indicating that gene silencing in HRS and PEL cells is due to DNA methylation. Genomic bisulfite sequencing corroborated this prediction and revealed three distinct patterns of methylation for the silenced B29 and TCL1 promoters. These distinct patterns consisted of 5' promoter CpG methylation alone, 5' and 3' promoter CpG methylation sparing sites in the central cores, and complete CpG methylation throughout the promoter regions. The silenced Bob1 promoter showed one pattern of dense CpG methylation at essentially all sites. These consistent patterns predict that, although gene silencing in many HRS and PEL cells mimics appropriate gene silencing, in some cases of complete CpG methylation throughout entire promoters both the activation and targeting of methylation is abnormal.
...
PMID:Patterned CpG methylation of silenced B cell gene promoters in classical Hodgkin lymphoma-derived and primary effusion lymphoma cell lines. 1596 59
Primary effusion lymphoma (PEL) is a distinct type of B-cell non-
Hodgkin lymphoma
characterized by the presence of Kaposi's sarcoma-associated herpesvirus (KSHV/human herpesvirus 8). Despite having a genotype and gene expression signature of highly differentiated B cells, PEL does not usually express surface or cytoplasmic immunoglobulin (Ig). We show the lack of Oct-2 and
OCA-B
transcription factors to be responsible, at least in part, for this defect in Ig production. Like Ig genes, ORF50, the key regulator of the switch from latency to lytic reactivation, contains an octamer motif within its promoter. We therefore examined the impact of Oct-2 and
OCA-B
on ORF50 activation. The binding of Oct-1 to the ORF50 promoter has been shown to significantly enhance ORF50 transactivation. We found that Oct-2, on the other hand, inhibited ORF50 expression and consequently lytic reactivation by competing with Oct-1 for the octamer motif in the ORF50 promoter. Our data suggest that Oct-2 downregulation in infected cells would be favorable to KSHV in allowing for efficient viral reactivation.
...
PMID:Role of defective Oct-2 and OCA-B expression in immunoglobulin production and Kaposi's sarcoma-associated herpesvirus lytic reactivation in primary effusion lymphoma. 1922 97
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