Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined karyotypes and their prognostic significance in a series of 122 patients with chronic myeloid leukemia in blast crisis. Of 73 patients cytogenetically examined at the onset of blast crisis 63% had developed secondary cytogenetic abnormalities in addition to the Philadelphia chromosome. These newly emerging abnormalities included a double Philadelphia chromosome in 20 patients, a trisomy 8 in 17, and an isochromosome 17q in 11 patients. Development of such additional karyotypic abnormalities was significantly associated with a shorter median survival and less response to cytoreductive treatment and was significantly more common in nonlymphoid blast crisis than in the lymphoid-type blast crisis. Thus, assessment of karyotypes at the onset of chronic myeloid leukemia blast crisis appears to be of prognostic significance for both remission duration and survival.
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PMID:Karyotype abnormalities and their clinical significance in blast crisis of chronic myeloid leukemia. 942 14

Expression of nine oncogenes was investigated in cell samples from fifteen patients with Philadelphia chromosome (Ph)-positive chronic granulocytic leukemia (CGL) both at diagnosis and at the onset of accelerated phase (AP) of the disease. The bcr-abl fusion gene, the H-ras gene and the c-myb gene were universally expressed. In comparison with the chronic phase (CP) of the disease, an increase in the levels of bcr-abl-, c-myb- and H-ras-related transcripts was found in three, two and three AP samples, respectively. Elevation of the bcr-abl-related message was associated with duplication of the Ph chromosome and amplification of the bcr-abl fusion gene in one AP sample. No CP samples were positive for c-myc or c-sis expression. On the contrary, c-myc and c-sis were expressed in three and four AP samples, respectively. The presence of c-myc-related transcript was associated with trisomy 8 with or without amplification of the c-myc oncogene in leukemia cells of two patients with CGL in AP. No changes of oncogene expression were found in four AP samples. However, we observed deletions of chromosome 13 and 17 or i(17q) in three of them, suggesting that tumor suppressor gene alterations may also be responsible for the development of AP of CGL. Our data indicate that heterogeneous alterations in oncogenes and tumor suppressor genes accompany the evolution of CGL-CP to the AP of the disease.
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PMID:Changes in oncogene expression implicated in evolution of chronic granulocytic leukemia from its chronic phase to acceleration. 971 61

The biological progression of chronic myeloid leukaemia is often associated with secondary cytogenetic abnormalities but the molecular mechanisms underlying this progression are poorly understood. This study explores the association of c-myc gene amplification with the progression of chronic myeloid leukaemia in fourteen individuals. Three of these cases showed amplification of c-myc during the course of their disease. Cytogenetic and molecular analysis of serial samples from some patients suggested the successive expansion of distinct clones of malignant cells. Our findings also suggest that trisomy 8 and locus amplification could represent alternative mechanisms for increasing c-myc gene dosage.
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PMID:c-myc locus amplification and the acquisition of trisomy 8 in the evolution of chronic myeloid leukaemia. 976 50

Clinical, morphological, cytogenetic and molecular (fluorescence in situ hybridization and RT-PCR) data were analyzed in twelve Philadelphia negative chronic myeloid leukemias (Ph-negative CMLs). Four patients were classified as BCR-positive. A standard b2a2 or b3a2 transcript was found, and the BCR-ABL hybrid gene was located on the 22q11 band in three cases and on the 1p35 band in one case with a t(1;9)(p35;q34). All were classified as typical chronic granulocytic leukemia (CGL) according to the French-American-British (FAB) morphological guidelines. Responses to therapy were evaluated by FISH in the four patients, and proved to be poorer than in Ph-positive CMLs. Eight BCR-negative patients were identified. They could be characterized by an older age, a less proliferative form of disease than the BCR-positive patients, and a frequent (six out of eight) abnormal karyotype. The FAB classification identified four CGLs and four atypical CMLs (aCML). A normal karyotype was more frequent in the patients classified as CGL whereas all the aCMLs had a chromosomal abnormality. Three patients had chromatin clumping and this morphologic feature was associated with trisomy 8 in two. No correlation between the cytogenetic, morphologic and the clinical data were found. Five patients had poor tolerance to therapy with a frequent occurrence of bone marrow failure and hemorragic syndrome, whereas three patients responded to a standard treatment of CML. Our study reinforces previous data on Ph-negative BCR-positive CMLs and emphasizes the difficulty in correlating clinical, morphologic, cytogenetic data in Ph-negative BCR-negative CMLs. However, our data also argue in favor of the existence of true Ph-negative BCR-negative CMLs and suggest that some of them can respond to a standard treatment of CML.
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PMID:Clinical, morphological, cytogenetic and molecular aspects of a series of Ph-negative chronic myeloid leukemias. 976 19

To study the genomic abnormality underlying the acute transformation of chronic myeloid leukemia (CML), 15 CML patients in blast crisis (BC), 3 in accelerated phase (AP), and 20 in chronic phase (CP) were analyzed by conventional cytogenetics, comparative genomic hybridization (CGH), and dual-color chromosomal painting. Philadelphia (Ph) chromosome was identified in every case studied. Only 5 among 20 CP patients had additional abnormalities while 13 of 18 patients with disease progression (BC + AP) showed extra numerical and/or structural chromosomal aberrations. Cytogenetically, the most common chromosome gains during BC and AP were double or triple Ph chromosomes (5 of 14 cases) and trisomy 8 (5 of 14 cases). Trisomies 7 and 17 (1 of 14 cases each) were also observed. CGH analysis detected genetic imbalances in eight cases. Gains of chromosome 20 (3 cases) and 17q (2 cases) were observed, respectively. The recurrent chromosome loss was the deletion of the short arm of chromosome 17, seen in one case with i(17)(q10) and one case with an unbalanced translocation (1;17). In one case, a very complex chromosomal rearrangement, del(3),del(6),der(6)t(17;3;6),der(17)t(6;17), was seen. A novel finding of this work is the involvement of chromosome 1(q12-21qter) in CML disease progression. Overrepresentation of 1(q12-21qter) region was detected by CGH in one case which had a derivative chromosome 17. This abnormal chromosome was later confirmed by fluorescence in situ hybridization (FISH) painting to be a fusion between chromosome 1 and 17 to form the der(17)t(1;17) (q12-21;p11). Two other cases showed the same region being involved in translocations, t(1;10)(q12-21;q26) and t(1;11)(q12-21;p15). It is possible that one or more genes residing on chromosome 1q12-21 may be important in the acute transformation of CML. In conclusion, we find that the combined use of CGH, chromosome painting, and classic cytogenetic analysis allows a better evaluation of the genomic aberration involved in CML blastic transformation, and offers new directions for its further molecular investigations.
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PMID:Chromosomal aberrations during progression of chronic myeloid leukemia identified by cytogenetic and molecular cytogenetic tools: implication of 1q12-21. 997 17

The molecular basis for blast transformation of chronic myeloid leukemia (CML) remains poorly understood. Cytogenetic alterations associated with CML blast crisis have previously been extensively studied by conventional G-banding analysis. However the complexity of some chromosome abnormalities or poor chromosome morphology or both has exceeded the resolution of G-banding analysis in a significant proportion of CML cases, and complex chromosome rearrangements have remained unidentified. In this study, comparative genomic hybridization (CGH) was used to elucidate genome imbalances in chronic phase or blast crisis samples or both from 12 CML patients. CGH and G-banding results were compared, and discrepancies were further clarified by using multipaint chromosome analysis and locus-specific DNA probes. No imbalances were detected in the 4 early disease phase samples studied. Eleven blast crisis samples were analyzed by G-banding and CGH, and the commonest genomic abnormality detected was overrepresentation of the long arm of chromosome 8, which was detected in 5 patients. This overrepresentation was attributable to trisomy 8 in 4 patients, whereas amplification of the entire long arm of chromosome 8 was detected in 1 patient. The formation of isochromosomes of the long arm of chromosome 8 was observed as a mechanism for gene amplification in this patient. Additional material originating from chromosome 8 was also observed intercalated into three marker chromosomes in peripheral blood metaphase spreads from this patient. These markers may further define areas on chromosome 8 that harbor oncogenes implicated in transformation of chronic myeloid leukemia.
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PMID:Comparative analysis of G-banding, chromosome painting, locus-specific fluorescence in situ hybridization, and comparative genomic hybridization in chronic myeloid leukemia blast crisis. 1032 84

We have analysed pre-transplant cytogenetic findings in 418 patients with CML in pre-blastic phase who underwent allogeneic BMT between February 1981 and January 1998. Five different patient groups were identified: A = Philadelphia (Ph)+; B = Ph-, BCR-ABL+; C = variant Ph (VPh); D = Ph chromosome plus at least one of: trisomy 8, +Ph, chromosome 17 abnormalities and E = other abnormalities in addition to the Ph chromosome. There were two principal conclusions. Firstly, Ph- patients showed a better outcome, and VPh patients a worse outcome, than those with a standard Ph, both in terms of leukaemia-free survival (LFS) (76.9%, 22.1% and 31.9%) and the risk of treatment failure relative to those with a standard Ph (relative risks of 0.49 and 1.92, respectively). One contributing factor may be relapse: no Ph- patients relapsed, whereas all other groups showed similar probabilities of relapse at 5 years (range 33.0-44. 0%). Secondly, those with the additional changes of +8, +Ph and i(17q) did not show a worse outcome than those with no additional changes (5 year survival of 44.7% vs 51.8%; 5 year LFS of 40.6% vs 31.9%), whereas those with other additional changes may fare worst of all (40.4% and 16.0%, respectively). Bone Marrow Transplantation (2000) 25, 143-146.
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PMID:Cytogenetic status pre-transplant as a predictor of outcome post bone marrow transplantation for chronic myelogenous leukaemia. 1067 71

The transformation of chronic myeloid leukemia (CML) from a chronic phase to an acute phase is frequently accompanied by additional chromosome changes. Extensive chromosome G-banded studies have revealed the secondary changes are nonrandom and frequently include trisomy 8, isochromosome 17q, trisomy 19, or an extra copy of the Philadelphia chromosome. In addition to these secondary chromosome changes, complex structural rearrangements often occur to form marker structures that remain unidentified by conventional G-banded analysis. The CML-derived cell line, K562, has been widely used in research since it was originally established in 1975. The K562 karyotype however, has remained incomplete, and marker structures have never been fully described. Recent advances in fluorescence in situ hybridization (FISH) technology have introduced the possibility of chromosome classification based on 24-color chromosome painting (M-FISH). In this study, we report a clarified karyotype for K562 obtained by a combination of the following molecular cytogenetic techniques: comparative genomic hybridization (CGH), FISH mapping using locus-specific probes, and M-FISH. Multicolor FISH has identified the marker structures in this cell line. The characteristic marker chromosome in K562 has been confirmed by this study to be a der(18)t(1;18). Multicolor FISH confirmed the identity of marker structures partially identified by G-banding as der(6)t(6;6),der(17)t(9;17),der(21)t(1;21),der(5)t(5;6). In addition M-FISH has revealed a deleted 20q and a complex small metacentric marker comprised of material from chromosomes 1, 6, and 20. A cryptic rearrangement was revealed between chromosomes 12 and 21 that produced a structure that looks like a normal chromosome 12 homologue by G-banding analysis. Finally, M-FISH detected regions from chromosome 13 intercalated into two acrocentric markers.
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PMID:Cytogenetics of the chronic myeloid leukemia-derived cell line K562: karyotype clarification by multicolor fluorescence in situ hybridization, comparative genomic hybridization, and locus-specific fluorescence in situ hybridization. 1073 82

Isochromosome 17q [i(17q)] is frequently observed in the blast crisis (BC) of chronic myelogenous leukemia (CML). It has been suggested that this chromosome abnormality is associated with special hematological characteristics of the BC, but the information on this subject is scarce. The clinical, hematological and cytogenetic features of patients with i(17q) were analyzed in a series of 121 patients with BC of Ph-positive CML. Twelve patients (10%) displayed an i(17q), representing the third commonest cytogenetic abnormality, after trisomy 8 and Ph chromosome duplication. In seven of the 12 patients the BC was preceded by an accelerated phase, and 10 had more than 10% blood basophils at BC diagnosis. The blast cells had a myeloid phenotype in the 12 patients. Five patients exhibited cytogenetic abnormalities in addition to i(17q), with trisomy 8 and duplication of the Ph chromosome being the alterations most frequently observed. Median survival of patients with i(17q) was 22 weeks, which was not significantly different from the survival of patients with myeloid BC in the overall series. These results are similar to the findings in 181 patients with i(17q) from 12 series of the literature, and confirm the special hematologic profile of BC of CML with this cytogenetic abnormality.
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PMID:Blast crisis of Ph-positive chronic myeloid leukemia with isochromosome 17q: report of 12 cases and review of the literature. 1081 50

The lineage involvement in stem cell disorders, such as chronic myeloid leukemia (CML) and myelodysplastic syndrome (MDS), remains unclear. To explore this issue, we used fluorescence in situ hybridization for cells sorted by fluorescence-activated cell sorting (FACS) from 12 patients with chronic-phase CML. Philadelphia chromosome (Ph) was found in pluripotent stem cells (CD34+Thy-1+), B cells (CD34+CD19+), and T/natural killer (NK) progenitor cells (CD34+CD7+) collected by FACS from bone marrow cells. B (CD19+), T (CD3+), and NK (CD3-CD56+) cells showed a marked decrease in Ph+ cells between progenitor cells and mature cells The Ph+ T and NK cells decreased to below background levels. These data suggest that Ph+ lymphocytes either do not differentiate or are eliminated during their maturation process Among 7 MDS patients associated with trisomy 8, sorted lymphocytes from peripheral blood did not have +8. CD34+ subpopulations from bone marrow including B,T/NK progenitors, and pluripotent progenitor cells also did not have +8. Trisomy 8 was identified from the level of multipotent colony-forming units (CD34+CD33+), and the lymphoid lineage was not involved. Thus, MDS with trisomy 8 conceivably arises from nonlymphoid progenitor cells, sparing T, B, or NK cells. Further studies using molecular cytogenetics may clarify the mechanism of leukemia happening at the level of stem cells.
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PMID:Molecular cytogenetics of stem cells: target cells of chromosome aberrations as revealed by the application of fluorescence in situ hybridization to fluorescence-activated cell sorting. 1118 86


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