UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Diagnosis of leukemia and lymphoma has been made by morphological, cytochemical, and immunophenotypical methods. Recently molecular biological approaches have been introduced to clarify the cellular lineage of the tumor cells and to demonstrate the monoclonality. Southern blot analysis using immunoglobulin (Ig) and T cell receptor (TcR) genes revealed the presence of monoclonal components in some cases of angioimmunoblastic lymphadenopathy (AILD), in which demonstration of monoclonality was difficult by conventional methods. In preB-ALL, many cases had rearranged IgH and TcR genes simultaneously. These "dual genotype" cases were found to be of accidental involvement of TcR gene in the process of making effective IgH gene rearrangements by the precise analysis of rearranged IgH gene structures. The rearranged TcR gene which was detected in initial lymphoblastic lymphoma cells, was observed in relapsed blasts after lineage conversion to myeloid leukemia, which indicates the same clonal origin. Diagnosis and detection of minimal residual disease by the polymerase chain reaction (PCR) are now recognized as sensitive methods. PCR using oligonucleotides common to each VH and JH gene detects the rearranged IgH gene sensitively. PCR using primers located on the translocation boundary, such as bcr and abl in CML, is very useful in the diagnosis and pursuit of the disease course. PCR study also can be applied to the detection of alteration of some particular genes such as tumor suppressor genes.
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PMID:[Molecular diagnosis of leukemia and lymphoma]. 176 82

In vitro amplification of genomic or cDNA sequences by polymerase chain reaction (PCR) is one of the most powerful tools in recent molecular biology. More than 10(5) copies of DNA sequence ranging from 50 bp to 7 kb can be synthesized in a couple of hours. Ever since its development, PCR has attracted much attention because this strategy would allow the detection of minimal residual disease (MRD) at a very low level. The first successful application of this ultra-sensitive technique was the detection of residual tumor cells carrying a 14;18 translocation in follicular lymphoma. The abnormal transcripts caused by 9;22 translocation in chronic myelocytic leukemia (CML) was also exploited for the amplification to detect the MRD. These techniques have successfully shown the detection of one leukemic cell in 100,000 normal cells. Besides leukemic specific sequences caused by chromosome and gene translocations, unique sequences caused by rearrangements in IgH or TCR gamma, delta chain genes have been used as clonal markers for tumor cells. By targetting these sequences for PCR amplification, almost all ALL patients can be analyzed for MRD. The successive measurement of MRD might contribute to improvement of treatments for leukemic patients.
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PMID:[The detection of minimal residual disease in leukemia by in vitro DNA amplification]. 177 67

We report on a 69-year-old man who developed Ph-positive CML 6 years after the onset of B-cell CLL. When CML was diagnosed, both malignant cell populations were detected in bone marrow and peripheral blood. Peripheral leukocytes were fractionated by Ficoll-Hypaque density gradient, and cytogenetic and molecular studies were performed on mononuclear cell and granulocyte-enriched populations. Mononuclear cells were stimulated with either PHA or PWM. In PHA-treated cultures 76% of the metaphases were Ph-negative, while after PWM stimulation 87% were Ph-positive. A bcr rearrangement was observed in DNA from the granulocyte-enriched fraction, but not in mononuclear cells. On the contrary the IgH locus resulted in monoclonally rearranged DNA, only in peripheral blood mononuclear cells. These results indicate that the two neoplastic populations originated independently.
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PMID:Chronic myelogenous leukemia in the course of chronic lymphocytic leukemia: evidence for an independent clonal origin. 203 Jun 9

We sequentially analyzed the immunoglobulin heavy chain variable (IgH V) region gene of leukemia cells obtained from a chronic myeloid leukemia (CML) patient who had three episodes of B-lymphoid crisis after bone marrow transplantation. Southern blot analysis using the JH probe showed different rearranged bands at each crisis, although the same rearranged bands of the BCR gene were observed. We amplified and sequenced the IgH V region gene of the leukemia cells by reverse transcriptase polymerase chain reaction (RT-PCR) using the primers corresponding to the consensus 5'VH and mu constant regions. The dominant leukemia clone at each crisis had a unique VH-D-JH rearrangement; VH4A (V79)-DLR2-J5 (clone-1), VH4B (DP70)-DK4-J6 (clone-2) and VH4A (V79)-DN4-J6 (clone-3) at the first, second and third crises, respectively. Further analysis by PCR amplification using the consensus 5'VH and clone-specific primers revealed that clone-1 underwent VH4-->VH3 replacement at the second crisis, and that clone-3 was already in existence at the first crisis. Moreover, the DN4-J6 joining clone, in which the sequence was the same as that of clone-3, was identified at the first and third crises by PCR amplification using primers corresponding to the region upstream of the DN4 segment and DN4-J6 boundary of clone-3. These observations suggest that multiple clones were generated from the progenitor cells of blast crisis, which were transformed at a very early stage of B-lymphocyte ontogeny, by continuing rearrangement mechanisms of the IgH genes, and that the dominant clone at each crisis was undergoing change.
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PMID:Continuing immunoglobulin heavy chain gene rearrangements in chronic myeloid leukemia with recurrent B-lymphoid blast crises after bone marrow transplantation. 786 62

The very rapid development in the last few years of techniques based on use of the polymerase chain reaction (PCR) for characterizing molecular lesions in leukaemia and lymphoma now offers the opportunity for monitoring residual disease at a sensitivity of one malignant cell in 10(5) or 10(6) normal cells. Maximal specificity is presumably achieved when the DNA sequences amplified are truly leukaemia-specific, such as BCR/ABL in chronic myelogenous leukemia, RARA PML/RARA in t(15;17) acute myelogenous leukemia, DEK/CAN in t(6;9) AML, PBX1/E2A in t(1;19) acute lymphoblastic leukemia (ALL), or TAL-1 deletions in other T-ALLs. Comparable sensitivity may be achieved by using immunoglobulin heavy chain (IGH) and T-cell receptor (TCR) gene rearrangements if a clonospecific probe can be generated. However, the presence of similar sequences in IgH genes from normal B lymphocytes may decrease the specificity. For clinical purposes the crucial issues are the following. Can PCR techniques be used for confirmation of diagnosis and evaluation of extent of disease? Can PCR data obtained in remission provide information about the probability of cure or of relapse? Can techniques be developed to quantitate the PCR product and thereby increase its predictive value? These and other issues were addressed at the 4th Workshop of the Molecular Biology/BMT Study Group that took place in Bristol UK on 9-10 May 1992.
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PMID:Molecular evidence of minimal residual disease after treatment for leukaemia and lymphoma: an updated meeting report and review. 835 Jun 33

We have analyzed the immunological and genomic characteristics of the lymphoid blast cells present in secondary lymphoid leukemias following either a previous chronic myelogenous leukemia (CML) or myelodysplastic syndrome (MDS). Twenty-one of 107 secondary leukemias analyzed displayed a lymphoid phenotype (15 after a CML and 6 after a MDS). Most of the lymphoid blast crises of CML (73%) correspond to pure lymphoid transformation, all of them having a common acute lymphoblastic leukemia (ALL) phenotype (CD10+). By contrast, in all MDS cases, lymphoid blast cells coexisted with another myeloid component (hybrid leukemias) and showed an early B phenotype. IgH and TCR-gamma gene rearrangements were detected in the CML-lymphoid blast crisis (86% of cases) more frequently than in the MDS transformations (33%). The TCR-beta gene was in germ line configuration in all cases while TCR-delta gene rearrangements were detected in four cases, all of them corresponding to a previous diagnosis of CML. These results show the existence of both immunophenotypic and genomic differences between the lymphoid transformations of either CML or MDS, which could reflect differences at the stage of maturation of the target cell in these transformations.
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PMID:Acute lymphoid leukemias following either a previous chronic myelogenous leukemia or myelodysplastic syndrome: phenotypic and genomic differences. 804 98

In December 1993, a 76-year-old Japanese male presented with general fatigue. Peripheral blood (PB) examination indicated marked leukocytosis (WBC count, 19.8 x 10(4)/microliter; leukemic blast differential, 89.5%). Leukemic blasts were positive for CD33, and negative for lymphoid antigens, with 2% of the blasts being positive for myeloperoxidase staining. On admission, chromosome analysis of leukemic cells in PB showed 45, X,-Y, t (9;22) [12/15]/46, XY, t (9;22) [3/15]. Southern blot analysis of the DNA from PB showed a rearrangement at the M-BCR region and germline configurations of both TCR beta and IgH chain genes. The patient was diagnosed as Philadelphia-positive chronic myelogenous leukemia (CML) in blast crisis. We commenced treatment with daunorubicin (DNR; 20 mg/day x 1 IV) and daily prednisolone (PSL; 60 mg/day PO). Leukemic blasts disappeared rapidly from PB, while the promyelocytes showed a transient increase, peaked 7 days after the start of therapy, and then disappeared. Myelocytes and metamyelocytes also showed transient increases. Without a period of severe myelosuppression, the patient reverted to the chronic phase of CML and karyotypic analysis of bone marrow cells showed 45, X,-Y, t (9;22) [33/35]/46, XY, [2/35]. Consolidation chemotherapy with DNR and BHAC was started, but the patient's condition deteriorated due to bacterial infection and he died of hepatic failure on March 1994. In this case, reversion to the chronic phase of CML in blast crisis may be accomplished by the cytodifferentiating effects of small-dose DNR and oral PSL to the leukemic blasts.
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PMID:[Reversion to chronic phase of chronic myelogenous leukemia in blast crisis with small-dose daunorubicin and oral prednisolone]. 858 71

Virtually all murine plasmacytomas (MPCs) carry chromosomal translocations that juxtapose myc on chromosome 15 (chr 15) to one of the three immunoglobulin loci carrying chr 6, 12, or 16. Only some mouse strains are susceptible to MPC induction, however, with BALB/c as the outstanding example. Most other strains are resistant. Our earlier studies with reciprocal BALB/c<-->DBA/2 chimeras suggested that part of this susceptibility is determined at the level of the target cell itself (DBA/2 is MPC resistant). The probability of the Ig/myc translocation is one of the possibly relevant variables. Because MPC resistance is dominant over susceptibility, it is conceivable that the translocations prevail due to some deficiency of the Ig rearrangement or Ig-associated repair mechanisms in BALB/c cells. This could be determined at the level of the chromosomes that participate in the translocation or by genes on other chromosomes. Here, we show that the substitution of the BALB/c-derived chr 12, 6, and 15, which carry IgH, kappa, and myc, respectively, with their homologs derived from MPC-resistant mice, did not affect MPC susceptibility. The use of Robertsonian 4.12 and 6.15 chromosomes in this study has also provided us with the opportunity to assess the parental derivation of the chromosomes participating in the translocation. In contrast to the human chronic myeloid leukemia (CML)-associated BCR/ABL fusion transcript, where a strong bias was claimed that was attributed to imprinting, we have found that the parental chromosomes were randomly involved in the translocation. We have also shown that the translocations could be of uniparental or biparental origin.
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PMID:Ig/myc translocations of the plasmacytoma-prone BALB/c strain occur independently of the genetic and parental origin of the affected chromosomes 6, 12, and 15. 894 97

We have sought the presence of rearrangements of the immunoglobulin heavy chain gene locus in 13 patients with chronic myeloid leukemia (CML) in lymphoid blastic transformation (L-BT) using the polymerase chain reaction (PCR). The lymphoid nature of the transformation was confirmed by immunophenotyping and/or Southern blot hybridization with a J(H) probe. Clonal rearrangements were detected in 85% of cases and two or more rearrangements were visible in 64% of informative cases. The pattern of V(H) gene family utilization revealed an apparent reduction in V(H)4 family gene usage but otherwise reflected the known proportion of each gene family in the germline repertoire. In six cases the third complementary determining regions (CDR3) of the predominant blast crisis clone/s were sequenced revealing minimal evidence of somatic mutation. No clonal changes were detected in the chronic phase leukemia cells collected more than 6 months before the onset of L-BT in three of these patients. Of the other three patients studied in chronic phase from 1 to 6 months before L-BT, two showed clonal rearrangements which differed in size from those present at L-BT. In one patient a V(H)3 to V(H)5-D(H)-J(H) substitution had occurred at least 3 months prior to L-BT. In the other patient, however, the sequence of the rearrangement present 5 months prior to L-BT was unrelated to the rearrangements at the time of L-BT indicating a pattern of clonal succession. We conclude that: (1) IgH gene rearrangements are detectable in the majority of patients with L-BT using PCR and the lymphoid lineage of blastic CML is most readily confirmed using consensus primers to the framework 3 region; (2) somatic mutation is uncommon; and (3) B lymphoid clones distinct from those identified later may be detected before overt lymphoid BT. The identification of such 'abortive' clones is evidence for clonal instability before the onset of transformation and might have prognostic value.
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PMID:Clonal instability preceding lymphoid blastic transformation of chronic myeloid leukemia. 900 80

Chronic myeloid leukaemia (CML) develops when two genes, BCR on chromosome 22 and ABL on chromosome 9, recombine to form a hybrid BCR-ABL gene with leukaemogenic properties. The mechanism which underlies this recombination is unknown, but additional chromosome sites may be involved to form complex BCR-ABL rearrangements. The majority of breakpoints in BCR occur within a 5 kb major breakpoint cluster region, M-Bcr. Here, we show that the 3' part of M-Bcr recombined within, or immediately adjacent to, Alu elements at the additional sites in all five complex BCR-ABL rearrangements that have been examined so far. This is a new finding which suggests that Alu sequences have an affinity for the BCR-ABL recombination process in complex rearrangements, and provides additional evidence for the association of these elements with somatic rearrangements which cause human leukaemia. We further show that sequence motifs similar to IgH switch pentamers and consensus binding sites of the lymphoid-associated Translin protein are present on one or more participating strands at 3'M-Bcr recombination sites. Motifs similar to Translin-binding sites were also identified within the Alu consensus. Expressed sequences mapped close to the breakpoint sites on other chromosomes in three of the five cases examined.
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PMID:The BCR gene recombines preferentially with Alu elements in complex BCR-ABL translocations of chronic myeloid leukaemia. 953 79

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