UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sixty-nine blood or bone marrow samples from both children and adults with acute myeloblastic leukemia (AML) were investigated to elucidate the frequency of immunoglobulin (IG) and T-cell receptor (TCR)-gene rearrangements. Non-germline configuration for the IG heavy chain (h) gene was detected in the specimens of nine patients of various subtypes according to the French-American-British classification (FAB), including FAB M1, M2, M4 and M5. Rearrangement of the IG kappa chain (k) gene was present in one of these cases which simultaneously revealed a rearranged TCR-beta (b) chain gene. In another two AML samples we found TCR-b gene rearrangements, in one case in combination with an IG-h gene rearrangement. IG-h gene rearrangements were detected in 10 cases, in one case in conjunction with an IG-kappa (k) and TCR-b gene rearrangement. A highly significant correlation between the occurrence of DNA rearrangements of the IG-h locus and nuclear staining with the enzyme terminal deoxynucleotidyl transferase (TdT) and surface expression of the CD 19 and CD 34 antigen could be identified: all 10 TdT positive AML samples rearranged IG-h. Similarly, six out of 69 AML samples exhibited surface expression of CD 19, five of these in combination with CD 34 and all of them rearranged the IG-h gene. The one leukemia with TCR-b gene rearrangement only was TdT positive as well, but did not express CD 19 or CD 34. We conclude that IG-h gene is rearranged in a substantial proportion of AML, strongly associated with a specific immunophenotype (TdT+, CD19+, CD34+), whereas TCR-b gene rearrangement appears more rarely. No positive correlation between occurrence of IG-h and TCR-b gene-rearrangements and one AML FAB-subtype was found, although a clustering of M1 and M4 FAB subtypes in the AML group showing reconstructed IG-h gene became evident.
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PMID:Incidence of lineage promiscuity in acute myeloblastic leukemia: diagnostic implications of immunoglobulin and T-cell receptor gene rearrangement analysis and immunological phenotyping. 285 Oct 73

A cDNA encoding the carboxyl-terminal fragment of the human myeloperoxidase heavy chain was isolated and characterized. It was then used to determine the locations of the myeloperoxidase light and heavy chains in the polypeptide precursor. A cDNA library from poly(A)+ RNA from human leukemia HL-60 cells was constructed in pBR322 and screened by differential hybridization with enriched and depleted cDNA probes and then by hybridization with an oligonucleotide probe. A cDNA clone containing 1278 bp with an open reading frame of 474 bp and a 3' noncoding region of 804 bp was isolated. The amino acid sequence deduced from the nucleotide sequence consisted of 158 residues including a sequence of 14 amino acids known to be present in the heavy chain of the molecule. The cDNA also included a stop codon of TAG followed by a noncoding sequence that included a potential recognition site for polyadenylylation and a poly(A) tail. RNA transfer blot analysis with the cDNA probe indicated that myeloperoxidase mRNA was approximately 3.3 kb in length. In vitro translation of the mRNA selected by cDNA hybridization revealed preferential synthesis of a 74,000-Da polypeptide precursor that could be precipitated with anti-myeloperoxidase IgG. Antibodies specific for the heavy and light chains of myeloperoxidase were isolated from antiserum by affinity chromatography employing Sepharose columns covalently bound to the heavy or light chains. Antibodies specific for the light chain or the heavy chain readily precipitated the 74,000-Da precursor polypeptide. These results indicated that myeloperoxidase is synthesized as a single chain which undergoes processing into a light and heavy chain. Furthermore, the heavy chain of myeloperoxidase originates from the carboxyl terminus of the precursor polypeptide.
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PMID:Isolation and characterization of a cDNA coding for human myeloperoxidase. 288 26

The cellular origin of acute undifferentiated leukemia (AUL) is still a matter of controversy. We report on two cases in which the diagnosis of AUL was established according to restricted criteria. Blast cells of both patients showed phenotypic conversion during the course of disease. In one case, within 24 days from starting treatment, the leukemic phenotype changed from AUL to acute myelomonocytic leukemia (FAB L1, TdT+ to FAB M4, TdT-). The initial phenotype of this acute leukemia was characterized by the co-expression of both B-lymphoid and myeloid markers on the same cell. Moreover, analysis of esterase isoenzyme pattern showed the whole spectrum of isoenzymes typically seen in myelomonocytic leukemias already at diagnosis, yet blast cells additionally contained all three isoenzymes of beta-hexosaminidase typically seen in AUL. However, examination of immunoglobulin (Ig) heavy chain gene rearrangement initially and after conversion revealed an identical monoclonal configuration of Ig heavy chain sequences in both samples. The second AUL patient relapsed after allogeneic bone marrow transplantation with common ALL-antigen (CALLA) positive acute leukemia. Subsequent Southern blot analysis showed a novel rearranged Ig fragment compared to the analysis before transplantation indicating that the leukemic clones prior to and after transplantation were not identical. No chromosomal abnormalities were observed in both cases. These data support the view that AUL cells originate from a pluripotent stem cell that is capable to differentiate in the myelomonocytic lineage (patient 1), and confirm the value of Ig gene analysis as marker for cellular clonality.
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PMID:Conversion of acute undifferentiated leukemia phenotypes: analysis of clonal development. 294 79

We have studied the arrangement of the alpha, beta and gamma T cell receptor (TCR) genes in 27 patients with T cell lymphoproliferative disorders. Nine patients had acute lymphoblastic leukaemia (T-ALL), nine patients had prolymphocytic leukaemia (PLL), six patients presented with a T-CLL/T-lymphocytosis syndrome, two patients had Sezary syndrome (SS) and one patient had HTLV-I positive T-cell leukaemia/lymphoma (ATLL). alpha TCR gene rearrangement could be demonstrated by the use of three available probes in only one case. By contrast, both beta and gamma TCR gene rearrangement could be demonstrated by Southern blot analysis of DNA samples digested with appropriate restriction enzymes in the majority of cases. In general, when rearrangements were present they involved both alleles. The proportion of rearranged chromosomes was lower in T-ALL than in other forms of T-cell leukaemia and it was lower in cases with the CD4-/CD8+ phenotype than in those with a CD4+/CD8- phenotype. In three out of 34 cases of B-cell leukaemia the TCR beta-gene but not the TCR gamma-gene was rearranged, just as in two out of 26 cases of T-cell leukaemia the immunoglobulin (Ig) heavy chain but not the light chain genes were rearranged. These data suggest that development of the machinery required for gene rearrangement may precede commitment to B or T cell lineage. The use of this technique is especially useful for the classification of cases of ALL in which the cells are negative with respect to most current phenotypic markers and in cases of T cell lymphocytosis in which the finding of a gene rearrangement identifies a monoclonal cell population.
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PMID:Alpha, beta and gamma T-cell receptor genes: rearrangements correlate with haematological phenotype in T cell leukaemias. 296 64

Injection of newborn mice with mixtures of wild-type moloney murine leukemia (Mo-MuLV) virus and other recombinant retroviruses harboring the myc oncogene alone or in combination with the H-ras oncogene resulted in a 100% incidence of lymphatic leukemias from which permanent cell lines could be established in vitro. These cells are immunoglobulin (Ig)-, Thy-1+BP- and CD8-CD4- indicating that they are early thymocytes. Such transformed pre-T lines lack retroviral myc and ras genes but occasionally possess proviral insertion near to their endogenous myc and pim genes. We show that both Ig heavy chain (Igh) and T cell receptor (TcR) genes are rearranged in most of these lines. In some cases, a primary recombination was followed by a secondary rearrangement at the same locus. We show that VT gamma genes can rearrange outside of their known cluster suggesting that TcR gamma diversification in such pre-T cells may be different to that in more mature T cells. Ig D-JH recombinations may precede TcR gene recombination in these early T cell lines, and some but not all express sterile Cmu transcripts. Some of these lines express surface heterodimers that appear composed of alpha and beta chains that can be immunoprecipitated with a monoclonal anti-T3 antibody but not with the anti-V beta 8 monoclonal antibody F23.1. This established pre-T cell line represents novel biological material for the dissection of T cell development and function analogous to A-MuLV transformed pre-B cells.
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PMID:Rearrangement and expression of T cell receptor and immunoglobulin loci in immortalized CD4-CD8- T cell lines. 296 19

Children with ALL diagnosed at less than 2 years of age have a poor prognosis when compared with older children. In an effort to identify biologic features of ALL in children less than 2 that might explain this difference, we performed extensive immunophenotypic and molecular genetic analyses on a series of patients. For comparison purposes patients were divided into four groups: CALLA- (CD10-) infants less than 2 years of age at diagnosis (n = 10), CALLA- children greater than 2 years of age at diagnosis (n = 10), CALLA+ infants (less than 2 years, n = 21) and CALLA+ children (older than 2 years, n = 21). No immunophenotyping differences in CALLA- or CALLA+ subgroups were identified when cases less than 2 were compared with cases greater than 2 years of age at diagnosis. The most interesting results were in the CALLA- group where 94% of the samples expressed the B cell antigen CD19 but 27% co-expressed CD7. Double labeling experiments confirmed leukemic blast cells co-expressed CD19 and CD7. The double-labeled cells represent either leukemic conversion of a precursor cell which has not yet committed to B or T cell lineage or aberrant expression of these antigens. Molecular genetic studies demonstrated that all samples, regardless of the patients' age or immunophenotype, had rearrangement of the Ig heavy chain gene. The most striking molecular results were in CALLA- patients; in patients less than 2 at diagnosis neither the beta- nor the gamma-chain gene of the T cell receptor (TCR) was rearranged, whereas DNA from 5 of 10 patients over the age of 2 demonstrated beta- or gamma-chain TCR gene rearrangements. The percentage of CALLA+ cases under the age of 2 years with rearrangements in TCR genes is less than that found in CALLA+ cases over the age of 2 years. The finding of no TCR rearrangements in CALLA- ALL and a decreased number of gamma-TCR rearrangements in CALLA+ cases under the age of 2 suggest that age may affect TCR gene rearrangements in lymphoblasts. The molecular differences in TCR gene rearrangements do not appear to correlate with the response to therapy.
Leukemia 1988 Nov
PMID:T cell receptor gene rearrangements in B-precursor acute lymphoblastic leukemia correlate with age and the stage of B cell differentiation. 297 89

A monoclonal antibody, 12F1, has been produced that specifically immunoprecipitates the human cell surface structure VLA-2 from platelets and long-term activated T cells, as well as from fibroblast and neuroblastoma cell lines. Cross-linking studies indicate that the VLA-2 structure exists on the cell surface as a 165,000 Mr heavy chain (alpha 2) in noncovalent 1:1 association with a 130,000 Mr light chain (beta). The monoclonal antibody A-1A5, which reacts with the beta subunit common to all VLA structures, was able to completely preclear VLA-2, indicating that all of the alpha 2 subunit was associated with VLA beta-chain. The specificity of 12F1 for VLA-2 allowed independent immunoprecipitation and flow cytometry analysis of this alpha 2 beta structure separate from any other VLA structures that may have been present such as VLA-1 or free beta-subunit. Subunit dissociation studies were used to demonstrate that 12F1 recognizes an epitope on the alpha 2 chain on VLA-2, which is consistent with the 12F1 specificity for VLA-2 alone among the VLA proteins. Analysis of activated T cells indicated that VLA-2, like VLA-1, is another "very late" appearing T cell activation antigen that arises concurrently with VLA-1 starting at day 7 and increasing through 2 wk. VLA-2 was found on many of the same cells as VLA-1 (inactivated T cells, T cell leukemia cells, fibroblasts, SK-N-SH neuroblastoma cells), but VLA-1 and VLA-2 can be expressed independently, because VLA-2 was also present on VLA-1-negative cells such as HSB and platelets, and VLA-1 was present on VLA-2-negative C8215 cells.
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PMID:Use of the monoclonal antibody 12F1 to characterize the differentiation antigen VLA-2. 302 88

We describe rearrangement events which alter expression from a productive VHDJH rearrangement in an Abelson murine leukemia virus-transformed pre-B cell line. One such rearrangement results in replacement of the initially expressed variable region gene by a site-specific join between the open reading frame of a LINE-1 repetitive element and a remaining JH segment. We discuss this event in the context of the 'accessibility' model of recombinase control, and with respect to similar rearrangements involved in oncogene activation. In another subclone of the same pre-B cell line, altered heavy chain expression resulted from a mu to gamma 2b class switch recombination which occurred by a recombination-deletion mechanism but involved a complex inversion. We provide evidence that the germline gamma 2b region is specifically expressed in pre-B cell lines and early in normal development. We propose that the predisposition of pre-B cell lines to switch to gamma 2b production may reflect a normal physiological phenomenon in which the switch event is directed by an increased 'accessibility' of the germline gamma 2b locus to switch-recombination enzymatic machinery. Our findings support the hypothesis that the apparently distinct recombination systems involved in variable region gene assembly and heavy chain class switching are both directed by the accessibility of their substrate gene segments.
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PMID:Secondary genomic rearrangement events in pre-B cells: VHDJH replacement by a LINE-1 sequence and directed class switching. 302 78

Acute nonlymphocytic leukemia (ANLL) was diagnosed in 18 patients based on morphological, cytochemical and immunological criteria. Leukemic cells of these cases were subjected to Southern blot analysis and subsequent hybridization to heavy chain immunoglobulin and T-cell-receptor gene probes. A rearrangement within the immunoglobulin joining region was detected in 2 cases, while the T-cell-receptor beta-chain gene was in germline configuration in all samples investigated. These data confirm recent reports indicating that immunoglobulin heavy chain gene rearrangements are not restricted to B-lineage neoplasms.
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PMID:Biallelic heavy chain immunoglobulin gene rearrangement in acute nonlymphocytic leukemia. 308 95

We report a case of acute leukaemia with the t(4;11) chromosomal translocation which, at initial diagnosis, had L-1 lymphoblasts that were positive for terminal deoxynucleotidyl transferase (TdT) and HLA-DR but negative for myeloid cytochemical markers. At last relapse the patient had mostly monocytoid blasts which were not TdT negative but were positive for HLA-DR, weakly positive for Sudan Black B (SB), periodic acid Schiff's (PAS), naphthol AS-D acetate esterase (NSE), chloroacetate esterase (CAE) and negative for acid phosphatase (AP) and nitroblue tetrazolium (NBT) reduction. Treatment with 12-o-tetradecanoylphorbol-13-acetate (TPA) in vitro induced differentiation to macrophage-like cells that were strongly positive for SB, PAS, NSE, AP, CAE and NBT reduction, indicating a latent monocyte-like phenotype. Thus the leukaemic cell clone or a precursor clone with the t(4;11) translocation manifested a lymphoid phenotype at initial diagnosis and a monocytoid phenotype at relapse. Immunoglobulin gene analysis of the monocytoid relapse blasts revealed rearrangements of the heavy chain gene alleles and germline light chain genes. Thus, the leukaemia clone with the t(4;11) chromosomal translocation could be a bipotential cell with heavy chain gene rearrangements occurring in a primitive cell which may retain the ability to differentiate along the myeloid-monocytoid lineage in response to the appropriate stimulus. Alternatively, these characteristics may result from a transformation associated event.
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PMID:Immunoglobulin chain gene rearrangements in a t(4;11) acute leukaemia with monocytoid blasts. 308 8

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