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)

The human stromelysin 3 (STMY3) gene, a new member of the matrix metalloproteinase (MMP) gene family, may contribute to breast cancer cell invasion, and has been localized by in situ hybridization to the long arm of chromosome 22. As demonstrated using a panel of somatic cell hybrids, the STMY3 gene is in band 22q11.2, in close proximity to the BCR gene involved in chronic myeloid leukemia, but far from the (11;22) translocation breakpoint observed in Ewing sarcoma. This position differs from that reported on chromosomes 11 and 16 for the other MMP genes, suggesting that stromelysin 3 could be a member of a new MMP subfamily.
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PMID:Assignment of the human stromelysin 3 (STMY3) gene to the q11.2 region of chromosome 22. 163 18

The experience of 13 bone marrow processings is reported: 7 patients were affected by Acute Leukemias, 4 by Non Hodgkin's Lymphomas, 1 by Chronic Myelogenous Leukemia in complete remission after induction chemotherapy, 1 by Ewing's Sarcoma. Gravity sedimentation technique with 6% hydroxyethyl starch was used in all cases. A mean value of 0.754 x 10(8)/kg body weight mononuclear cells was harvested after sedimentation, with a mean recovery of 74.554%. Mean CFU-GM value was 0.543 x 10(4)/kg body weight. Only one evaluable patient, affected by ANLL, underwent Autologous Bone Marrow Transplantation and a full engraftment was noted on day +14. Results are discussed and further studies are proposed to clarify the relationship between the in vitro CFU-GM growth and the bone marrow engraftment.
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PMID:Bone marrow processing with a gravity sedimentation technique: experience of 13 cases. 169 88

Using a database comprising 13,266 cytogenetically abnormal neoplasms, the geographic heterogeneity of neoplasia-associated chromosomal abnormalities was investigated by comparing the frequencies of characteristic aberrations in consecutive series of patients with the same diagnosis. Significant frequency differences between geographic areas were found for the aberrations +8, i(17q), +19, and an additional Ph1 chromosome in chronic myeloid leukemia (CML); -5, 5q-, and +8 in acute nonlymphocytic leukemia (ANLL); t(8;21) in ANLL-M2; t(15;17) in ANLL-M3; 5q- and -7 in myelodysplastic syndromes (MDS); t(9;22) and +21 in acute lymphocytic leukemia (ALL); t(14;18) in follicular lymphoma; -8 and -22/22q- in meningioma; and structural abnormalities of 12q in pleomorphic adenoma of the salivary glands (PAS). No geographic incidence variation was detected for -7 and +21 in ANLL; +8 in MDS; 6q- and +8 in ALL; +12 in chronic lymphocytic leukemia; 6q- in non-Hodgkin's lymphoma (NHL); t(8;14) in Burkitt's lymphoma; t(11;22) in Ewing's sarcoma; i(12p) in germ cell tumors; 1p- in neuroblastoma; structural abnormalities of 3q, 8q, and 9p in PAS; or 3p- in renal cell carcinoma. Intraregional frequency similarities between cytogenetically identical abnormalities in related tumor types were also analyzed. No significant correlations were found regarding the incidence of 5q- in ANLL and MDS, 6q- in ALL and NHL, -7 in ANLL and MDS, +8 in ANLL and CML, +8 in ANLL and MDS, +8 in ALL and ANLL, or +21 in ALL and ANLL. The findings indicate that some geographic heterogeneity of tumor-associated aberrations exists both in hematologic neoplasms and in solid tumors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Geographic heterogeneity of neoplasia-associated chromosome aberrations. 195 98

Somatic cell hybrids, obtained after fusion of translocation (11;22)-positive Ewing sarcoma cells and Chinese hamster fibroblasts, were assayed for the presence of immunoglobulin C lambda, Philadelphia chromosome breakpoint cluster region, and c-sis oncogene sequences. It was found that c-sis was translocated from chromosome 22 to chromosome 11 in the Ewing sarcoma cells used, indicating that the breakpoint must be proximal to this locus. Moreover, we found that the chromosome 22-linked C lambda and breakpoint cluster region sequences are not translocated. This result confirms an earlier cytogenetic observation that the Ewing sarcoma-associated breakpoint in chromosome 22 is distal to those observed in translocation (8;22)-positive Burkitt lymphoma and in Philadelphia chromosome-positive chronic myeloid leukemia.
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PMID:Translocation of oncogene c-sis from chromosome 22 to chromosome 11 in a Ewing sarcoma-derived cell line. 298 95

A number of clinically significant human diseases are associated with rearrangements of chromosome #22. These include the t(9;22) of chronic myelogenous leukemia (CML), the t(8;22) of Burkitt's lymphoma (BL), the t(11;22)(q23;q11) constitutional rearrangement and the t(11;22) of Ewing's sarcoma (ES) and neuroepithelioma (NE). All of these translocations have breakpoints in 22q11. Using a molecular cytogenetic approach and various cloned portions of the lambda light chain gene as probe, we have assigned a linear order within 22q11 to these breakpoints. Using chromosomal in situ hybridization we have determined that the 22q11 breakpoint in BL2, a t(8;22) Burkitt's lymphoma is proximal to the breakpoint of the t(9;22) of CML. We have demonstrated that the 22q11 breakpoint of PA682, another t(8;22) BL cell line, interrupts the lambda light chain locus. Using a combination of variable and constant region probes and PA682 cells, we have shown that the lambda light chain locus is oriented such that V lambda is proximal to C lambda in 22q11. Our results for the constitutional t(11;22) indicate that the 22q11 breakpoint is distal to that of BL, proximal both to that of CML and ES and, in addition, it interrupts the C lambda gene cluster. Our studies of the 22q11 breakpoint of the t(11;22) of ES and NE suggest that they are the most distal of the breakpoints we studied on chromosome #22.
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PMID:Translocation breakpoint mapping: molecular and cytogenetic studies of chromosome 22. 345 63

Current therapy for children with cancer includes a variety of invasive procedures many of which require repeated venous access over a considerable period of time. Such procedures are poorly tolerated by children and by their veins. Recently it has become possible to undertake the majority of such procedures by means of permanent indwelling silastic catheters improving the quality of life of the children and their parents and increasing the scope of therapeutic intervention. In the period July '83 - August '84 we have used 46 of these catheters in 45 children with malignant disease, 12 with acute myeloid leukaemia, 12 with neuroblastoma, 7 with B cell leukaemia-lymphoma, 6 with rhabdomyosarcomas, 2 with Ewing's Sarcoma, 2 with Wilms' tumor and 1 case each of Hodgkin's disease, teratocarcinoma, osteosarcoma and juvenile chronic myeloid leukaemia. The children's ages ranged from 2 months to 14 years; 22 were male and 23 female. The catheters were inserted under general anaesthesia (duration 20-40 minutes) usually without difficulty, except for a single patient in whom no suitable vein could be found. No complications connected with the placement of the catheter were observed. Subsequent management of the catheter was initially complicated and time-consuming, but was subsequently simplified so that acceptance by parents, children and nursing staff was eventually excellent. The duration of use of 46 catheters ranges from 7 to 350+ days; 24 catheters are presently in use at 30-350+ days from insertion. Eight children died as a result of disease progression and two of sepsis with the catheter in place.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Advantages of a permanent venous access in children treated for cancer. Preliminary results]. 383 38

Serial blood and marrow specimens from eight adult recipients of sex-mismatched transplants (BMT) for chronic myeloid leukemia (CML, n = 3), Ewing sarcoma (n = 1), acute myeloid leukemia (AML) in second remission (n = 1), acute lymphatic leukemia (ALL, n = 1) and multiple myeloma (n = 2) were analyzed by the simultaneous immunophenotypic CD3, CD4, CD8, CD20, CD34, CD10 and genotypic analysis (for X and Y chromosomes). This combined technique of moAb/APAAP staining for cell surface and cytoplasmic antigens and fluorescence in situ hybridization (FISH) for the detection of sex chromosomes allowed the qualitative and quantitative evaluation of mixed chimerism and/or relapse. Using the same slides for moAb/APAAP and FISH allowed the simultaneous identification of the cell lineage, the lymphocyte subpopulation and the genotype (XX or YX) in every blood or BM specimen analyzed. A mixed chimerism in the T cell (CD4, CD8+: median 26% host cells, range 5-44%) and in the myelomonocytic cell population (CD14+ median 16% host cells, range 5-50%) was observed at day +7 after BMT. By days +14 to +18 this mixed chimerism was reduced to 18% host T cells (range 5-50%) and 7% host myelomonocytic cells (range 0-20%). Beyond days +21 to +28 a stable donor chimerism for T cells, myelomonocytic cells and granulocytes was observed in seven of eight patients. Still 0.5-1% host cells of different lineages were detectable in five from the eight patients at later time points (> day + 100). In three patients with CML these cells were CD13 or CD13, CD34 positive and in one was CD4, CD8 positive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of mixed chimerism and leukemic relapse after allogeneic bone marrow transplantation in subpopulations of leucocytes by fluorescent in situ hybridization in combination with the simultaneous immunophenotypic analysis of interphase cells. 774 54

Seventy-three BMT procedures (42 allogeneic-BMT, 30 autologous-BMT, 1 syngeneic transplant) were undertaken at the Shariati Hospital in Tehran between March 1991 and November 1993. Allogeneic-BMT was performed for thalassaemia major (n = 23), AML in complete remission (n = 3), severe aplastic anaemia (n = 7), CML (n = 7), dyskeratosis congenita (n = 2) and Fanconi anaemia (n = 1). Conditioning regimens comprised busulphan (BU) plus cyclophosphamide (CY) or CY only. Thirty-two (78%) of the 43 patients remain alive 1-34 months after BMT. Twelve patients died: the causes of death were haemorrhagic cystitis (n = 1), CMV pneumonitis (n = 1), GVHD (n = 3), infection (n = 3), rejection (n = 1), VOD (n = 2) and hepatitis (n = 1). Autologous-BMT was performed for patients with AML in CR (n = 16), ALL in CR (n = 9), lymphoma in relapse (n = 3), Ewing sarcoma (n = 1) and multiple myeloma (n = 1). The median age was 18 years. Conditioning regimens were Ara C plus CY, etoposide plus CY and high-dose melphalan. Sixteen (54%) of the 30 patients survive, 14 in continuous complete remission. The causes of death were relapse (AML (n = 7), ALL (n = 4), lymphoma (n = 1)), VOD (n = 1) and infection (n = 1).
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PMID:Bone marrow transplantation in Iran. 792 Mar 8

A gene family encompassing a minimum of four genes or pseudogenes for gamma-glutamyl transferase (GGT; EC 2.3.2.2) is present on chromosome 22q11. We have previously isolated a cDNA related to GGT but clearly not belonging to its gene family. The chromosomal location of this related gene, GGTLA1, has been determined by both isotopic and fluorescence in situ hybridization to metaphase cells and by Southern blot analysis of somatic cell hybrid DNAs. We show that GGTLA1 is part of a distinct gene family, which has at least four members (GGTLA1, GGTLA2, GGTLA3, GGTLA4). At least two loci are located on chromosome 22 within band q11 and proximal to the chronic myelogenous leukemia (CML) breakpoint in BCR (breakpoint cluster region gene). At least one other member is located more distally between the breakpoints found in Ewings sarcoma and CML. Some of the GGT and GGTLA family members are located on NotI restriction enzyme fragments of a similar size. Combined results indicate that a segment of human chromosome 22q11 has undergone large-scale amplification events relatively recently in evolution.
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PMID:Localization of a gamma-glutamyl-transferase-related gene family on chromosome 22. 809 16

Serial peripheral blood specimen from eight adult patients after sex-mismatched bone marrow transplantation (BMT) for Chronic Myeloid Leukemia (CML) (N = 3). Ewing sarcoma (N = 1), Acute Myeloid Leukemia (AML) in second remission (N = 1), Acute Lymphoid Leukemia (ALL) (N = 1), of multiple myeloma (N = 2) were analyzed by the simultaneous immunophenotypic (moAbs/ APAAP-staining) and genotypic analysis (for X and Y chromosomes) of interphase cells to characterize mixed chimerism, residual host cells, and leukemic relapse. Although a stable donor chimerism for T cells, myelomonocytic cells, and granulocytes was developed in seven of the eight patients at Days +21 to +28 post BMT, 0.5 to 1% host cells of different lineages remained continuously in five of the eight patients post BMT (> day 100). In two patients, one with common ALL and the other with multiple myeloma and long-term stable mixed chimerism, a tumor cell relapse was detected first in a sample at Day +176 and confirmed at Day +294. These malignant cells were genotypically of host origin and presented phenotypes identical to those at diagnosis. In the three patients with CML, residual host cells were identified as CD13 (Patient 3) of CD13/CD34 (Patient 4) positive and in one case as CD4/CD8 positive (Patient 7). Since no exclusive antigenic marker is available for this discrimination in these CML patients, normal host hematopoiesis can interfere with the identification of residual disease. Therefore, the identification of the bcr-abl transcripts by a two-step reverse transcriptase-polymerase chain reaction (RT-PCR) was included in this analysis. Patient 3 was bcr-abl positive at [Days +21, +28, +35, and +311, but negative at Days +121 and +400; Patient 4 was bcr-abl positive at only Day +166 post BMT. These results are interpreted as signaling a continuing risk of relapse. In Patient 7, the bcr-abl RT-PCR was negative at Days +142, +166, and +237. Thus, the combination of the simultaneous immunophenotypic and genotypic analysis and the bcr-abl detection by RT-PCR clearly improves the discrimination between malignant cells and normal residual host cells.
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PMID:Qualitative assessment of mixed chimerism after allogeneic bone marrow transplantation with regard to leukemic relapse. 893 46

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