Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In order to ascertain the frequency and distribution of isochromosomes in neoplasia, we surveyed the cytogenetic data from 20,007 tumors with clonal chromosome aberrations reported in the literature. Tumor types for which at least 50 cases with acquired aberrations and 10 cases with isochromosomes had been reported were selected, yielding a total of 18,160 neoplasms. Of these, 1,792 cases (9.9%) displayed a total of 2,014 isochromosomes. The 9 most common isochromosomes (detected in at least 50 cases) were, in decreasing order of frequency, i(17q), i(8q), i(1q), i(12p), i(6p), i(7q), i(9q), i(5p), and i(21q). The frequency of isochromosomes varied among the different tumor types, with the highest incidence in germ cell neoplasms (60%) and the lowest in chronic myeloproliferative disorders (2.3%). Also, the spectrum of isochromosomes differed among the neoplasms. The most common isochromosomes in the different tumor types were i(11q), i(17q), and i(21q) in acute myeloid leukemia; i(9q), i(17q), and i(22q) in chronic myeloid leukemia; i(17q) in chronic myeloproliferative disorders; i(X)(q13), i(17q), and i(21q) in myelodysplastic syndromes; i(7q), i(9q), and i(17q) in acute lymphoblastic leukemia; i(1q), i(7q), i(8q), and i(17q) in chronic lymphoproliferative disorders; i(1q), i(6p), i(9p), i(17q), and i(21q) in Hodgkin's disease; i(1q), i(6p), and i(17q) in non-Hodgkin's lymphoma; i(1q), i(8q), and i(17q) in adenocarcinoma; i(1q), i(3q), i(5p), and i(8q) in squamous cell carcinoma; i(5p), i(8q), and i(11q) in transitional cell carcinoma; i(1q), i(7q), and i(17q) in Wilms' tumor; i(1q), i(12p), and i(17q) in germ cell neoplasms; i(1p), i(1q), i(6p), and i(17q) in sarcoma; i(5p), i(6p), i(7p), and i(21q) in mesothelioma; i(1q), i(6p), and i(17q) in malignant neurogenic neoplasms; i(1q), i(6p), and i(17q) in retinoblastoma; and i(1q), i(6p), and i(8q) in malignant melanoma.
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PMID:Isochromosomes in neoplasia. 752 35

Murine monoclonal antibody (mAb) 7C11 binds to the same cell surface epitope as anti-APO-1 and anti-Fas and reacts specifically with cells transfected with a cDNA encoding the human Fas antigen. Furthermore, incubation with 7C11 causes death of hematopoietic cell lines that express APO-1/Fas but not APO-1/Fas-negative cell lines. 7C11 therefore recognizes the human APO-1/Fas (CD95) antigen, a 40 to 50 kDa cell surface glycoprotein that can trigger apoptosis or programmed cell death. Expression of APO-1/Fas antigen by normal and neoplastic hematopoietic cells was determined by flow cytometry using 7C11. APO-1/Fas is expressed by approximately 30 to 40% of resting peripheral blood T cells, B cells, and monocytes and by approximately 5% of resting NK cells and thymocytes. It was not detected on granulocytes, erythrocytes, or platelets. Approximately 80 to 90% of activated T cells, B cells, and thymocytes express APO-1/Fas, as do the majority of activated NK cells. Perturbation of APO-1/Fas by 7C11 does not affect the viability of resting lymphocytes or monocytes. In contrast, activated T cells and NK cells undergo apoptosis within 3 hours of exposure to 7C11. Other mAb that stimulate T cells or NK cells do not cause rapid induction of programmed cell death. APO-1/Fas antigen is expressed by many cell lines of lymphoid and myeloid lineage. However, this antigen was detected on neoplastic cells from only one of 69 patients with acute myeloid leukemia, acute lymphoblastic leukemia, chronic myelogenous leukemia, chronic lymphocytic leukemia, or multiple myeloma. Only 3 out of 25 tumor samples from patients with non-Hodgkin's lymphoma were found to express APO-1/Fas. All three of these lymphomas harbored the bcl-2-Ig fusion gene associated with the chromosomal translocation t (14;18). Conversely, only 27% of lymphomas that possessed the bcl-2-Ig gene were found to express the APO-1/Fas antigen. Like normal activated lymphocytes, leukemia and lymphoma cells that expressed APO-1/Fas antigen were found to undergo apoptosis in vitro after incubation with 7C11. The APO-1/Fas antigen appears to regulate the growth of normal hematopoietic cells, and the marked upregulation of this antigen on activated normal lymphocytes contrasts sharply with the absence of APO-1/Fas on neoplastic cells of hematopoietic lineage. Defects in the apoptotic signal delivered through this antigen might contribute to the pathogenesis of hematopoietic neoplasms. Thus, the gene encoding APO-1/Fas can be considered a novel type of tumor suppressor gene, just as bcl-2 can be considered a cellular proto-oncogene.
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PMID:Functional consequences of APO-1/Fas (CD95) antigen expression by normal and neoplastic hematopoietic cells. 753 60

Allogeneic peripheral blood progenitor cells (PBPCs) were transplanted after immunoselection of CD34+ cells. Two patient groups were studied: group I patients received immunoselected blood CD34+ cells and unmanipulated marrow cells from the same donor. Group II patients were given immunoselected blood and bone marrow (BM) CD34+ cells. One to 6 weeks before bone marrow transplantation (BMT), PBPCs from HLA-identical and MLC- sibling donors were mobilized with granulocyte colony-stimulating factor (G-CSF) (5 micrograms/kg twice daily subcutaneously) for 5 days. Aphereses were performed at days 4 and 5 of G-CSF application. CD34+ cells were separated from the pooled PBPC concentrates by immunoadsorption onto avidin with the biotinylated anti-CD34 monoclonal antibody 12.8 and then stored in liquid nitrogen. BM was procured on the day of transplantation. Patients were conditioned with either busulfan (16 mg/kg) or total body irradiation (12 Gy) followed by cyclophosphamide (120 mg/kg). Cyclosporin A and short methotrexate were used for graft-versus-host disease (GVHD) prophylaxis. After transplantation, all patients received 5 micrograms G-CSF/kg/d from day 1 until greater than 500 neutrophils/microL were reached and 150 U erythropoietin/kg/d from day 7 until erythrocyte transfusion independence for 7 days. Group I consisted of patients with acute myeloid leukemia (AML) (n = 2), chronic myeloid leukemia (CML) (n = 2), and T-gamma-lymphoproliferative syndrome and BM aplasia (n = 1). The patients received a mean of 3.3 x 10(6) CD34+ and 3.7 x 10(5) CD3+ cells/kg body weight of PBPC origin and 4.5 x 10(6) CD34+ and 172 x 10(5) cells/kg body weight of BM origin. Group II consisted of five patients (two AML, two CML, one non-Hodgkin's lymphoma). They received a mean of 3.3 x 10(6) CD34+ and 3.2 x 10(5) CD3+ cells/kg from PBPC and 1.4 x 10(6) CD34+ and 0.6 x 10(5) CD3+ cells from BM. A matched historical control group (n = 12) transplanted with a mean of 5.2 x 10(6) CD34+ and 156 x 10(5) CD3+ cells/kg from BM alone was assembled for comparison. In group I, the median time to neutrophil recovery to > 100, > 500, and > 1,000/microL was 12, 15, and 17 days, respectively. Patients from group II reached these neutrophil levels at days 13, 15 and 17 post BMT. Neutrophil recovery in the control patient group occurred at days 17, 18, and 20 respectively. Group I patients were given platelet transfusions within 18 days and red blood cells within 10 days, whereas for group II patients, these time points were 26 and 17 days, respectively. These same transfusions could be ceased within 38 and 24 days, respectively, in control patients. The addition of about 2% more peripheral blood CD3+ cells (group I patients) did not result in higher grades of acute GVHD (median grade II) as compared with the controls (median grade II). Four of five group II patients showed no signs of acute GVHD. These data suggest that the addition of immunoselected allogeneic CD34+ progenitor cells to BM cells may accelerate hematopoietic recovery.
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PMID:Combined transplantation of allogeneic bone marrow and CD34+ blood cells. 754 59

Microangiopathic disease and diffuse alveolar haemorrhage (DAH) are uncommon serious complications of bone marrow transplantation (BMT), but an association between these two conditions has not been previously recognised. We report 4 patients in whom these two complications occurred after allogeneic BMT for haematological malignancy. The patients were 16-39 years of age, and received transplants for acute myeloid leukemia, chronic myeloid leukemia and non-Hodgkin's lymphoma (n = 2). Donors were HLA-identical siblings (n = 3), and a matched unrelated volunteer. The patient with AML was receiving a second transplant for relapse 3 years after her first BMT, and was prepared with busulphan and melphalan; other patients received total body irradiation and cyclophosphamide. Microangiopathy occurred 20-48 days after BMT, and was associated with renal impairment in all cases, and mental confusion in 3. Cyclosporin levels were in the toxic range in 2 cases. DAH occurred 18-55 days after BMT, in 3 cases 2-7 days after the onset of microangiopathy, but preceding it by 14 days in the other case. Patients were treated with fresh frozen plasma, plasma exchange, supplemental oxygen and ventilation in 2 cases. Two patients died of progressive respiratory failure, while 2 patients recovered with evidence of continuing microangiopathic disease, and died of myocardial infarction or fungal infection. We report an association between microangiopathic disease and DAH in these BMT patients, and suggest that damage to the pulmonary vascular endothelium may be the common pathophysiological event, although no specific causative factor could be identified.
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PMID:Diffuse alveolar haemorrhage associated with microangiopathy after allogeneic bone marrow transplantation. 758 Oct 82

The cyclin-dependent kinase 4-inhibitor (CDK41; p16; or MTS1) gene has been proposed as a candidate for a tumor-suppressor gene located in chromosome 9p21, a frequently deleted region in a wide spectrum of human cancers, including leukemias. Recent studies disclosed that it was frequently deleted or mutated in a variety of primary human cancers, including acute lymphoblastic leukemia. The purpose of this study is to figure out the precise manners and frequencies of p16 gene inactivation in diverse hematopoietic tumor types and thus to clarify its significance in development of human hematopoietic malignancies. A total of 410 tumor specimens from patients with primary hematopoietic malignancies were examined for deletions of the p16 gene as well as the neighboring p15 gene and the nearby interferon alpha gene by Southern blot analysis. Tumor-specific mutations or small deletions of the p16 gene were also studied in 74 patients using single-strand conformation polymorphism analysis and direct sequencing. Loss of the p16 gene was most frequently observed among the three genes examined and was found in 59 of the 410 patients: 2 of 134 with acute myelocytic leukemia, 41 of 105 with acute lymphocytic leukemia, 2 of 15 with chronic lymphocytic leukemia, 5 of 14 with adult T-cell leukemia, 4 of 33 with non-Hodgkin's lymphoma, 3 of 8 with mixed-lineage leukemia, and 2 of 61 with chronic myelocytic leukemia. In 16 of the 59 patients, the p16 deletions occurred due to rearrangements within the small region between the p15 exon 2 and the p16 exon 2. Tumor-specific mutations or small deletions of the p16 gene were not detected in the 74 patients examined, including 12 of 14 patients with hemizygous deletions of the gene. Loss of the p16 gene is frequent in and highly specific to lymphoid malignancies (54 of 183 [30%] in lymphoid tumor v2 of 219 [1%] in myeloid tumors; P < .0001). The deletion analyses strongly suggest that the p16 gene is a tumor-suppressor gene located in chromosome 9p21 that is involved in development of human lymphoid tumors. Gene deletions but not minute mutations should be the predominant mechanism of p16 gene inactivation in these types of tumors.
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PMID:Loss of the cyclin-dependent kinase 4-inhibitor (p16; MTS1) gene is frequent in and highly specific to lymphoid tumors in primary human hematopoietic malignancies. 763 63

The WT 1 gene has been isolated as a tumor suppressor gene of Wilms' tumor. Using reverse transcriptase-polymerase chain reaction (RT-PCR), relative levels of the WT 1 gene expression was examined in 87 patients with acute leukemia, 25 with chronic myelogenous leukemia (CML), and 24 with non-Hodgkin's lymphoma (NHL). Significant levels of the WT 1 gene were expressed in all leukemia patients, and for CML the levels increased as the clinical phase progressed. No point mutations were found in the WT 1 gene when samples from 15 acute leukemia patients were subjected to PCR single-strand conformation polymorphism analysis. In striking contrast to acute leukemia, the levels of WT1 gene expression for NHL were significantly low or even undetectable. The levels of WT 1 gene expression inversely correlated with the prognosis of acute leukemia. The quantification of the WT 1 gene expression made it possible to detect minimal residual disease (MRD) in acute leukemia regardless of the presence of absence of tumor-specific DNA markers. Simultaneous monitoring of MRD by RT-PCR using primers for specific DNA markers in four patients (two AML-M3 with PML/RAR-alpha, one AML-M2 with AML1/ETO, and one CML with bcr/abl) detected MRD comparable to that obtained from quantitation of WT 1 gene expression. In a patient with acute promyelocytic leukemia, the limits of leukemic cell detection by RT-PCR using either WT 1 or PML/RAR-alpha gene primers were 10(-3)-10(-4) and 10(-4) for bone marrow, and 10(-5) and 10(-4) for peripheral blood, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[WT 1 and leukemia]. 764 50

The Danish Thorotrast Study was recently reestablished and improved. The cohort has been reidentified and followed up, and now comprises 1003 Thorotrast-exposed patients. For all suspected haematological cases, cytological and histological material has been revised and malignant diseases have been reclassified. The numbers of cases of leukemia and other related haematological disorders were as follows: 16 acute myeloid leukemia (AML); 8 myelodysplastic syndrome (MDS); 1 acute lymphatic leukemia (ALL); 3 chronic myeloid leukemia (CML); 4 non-Hodgkin's lymphoma (NHL); 2 multiple myeloma (MM); 2 myelofibrosis (MF); 2 chronic lymphatic leukemia (CLL). Except for CLL, all cases might be Thorotrast-induced. (Expected number of leukemias: < 2.5.) The findings in the German, Japanese, Portuguese and Danish studies are very similar. Some of the characteristic features include a high incidence of AML with several erythroleukemias, many cases of MDS, and a relatively low incidence of CML. In several studies of leukemia induced by alkylating agents, erythroleukemia is also described as a prominent feature. The possibility exists that a phase of relative predominance of erythroid elements in the bone marrow may be a common and not an unusual feature in the pathogenesis of these secondary leukemias. The findings are also compared with histopathological data from a Danish control group of de novo leukemia patients and from atomic bomb survivors with radiation-induced leukemia. The relative frequency of AML is higher among the Thorotrast-exposed patients than among the Danish control group and the A-bomb survivors. In contrast, low relative frequencies are seen for ALL and CML in Thorotrast cases in comparison with de novo leukemia cases and A-bomb survivors. It can be concluded that differences in relative and absolute frequency of leukemias and myelodysplastic syndrome exist not only between the irradiated populations and the unexposed control group, but even between groups exposed to low-LET (linear energy transfer) and high-LET radiation.
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PMID:Pathoanatomical aspects of malignant haematological disorders among Danish patients exposed to thorium dioxide. 769 89

The status of hemopoietic stem cell transplantation in Australia from January 1, 1993 to December 31, 1993 is reported. A total of 523 hematopoietic stem cell transplants were carried out throughout Australia during this 12 month period: 296 autologous transplants, 223 allogeneic transplants, and 4 syngeneic transplants. These were carried out by transplant programs in 20 hospitals, and the total number of transplants represented a 9.4% increase on the total number performed in 1992 (n = 478). Of the 296 autologous transplants, 133 utilized blood stem cells only, 125 marrow stem cells only, and 38 both. The most common indications for autologous transplant were non-Hodgkin's lymphoma (n = 92), acute myeloid leukemia (n = 53), breast cancer (n = 37), Hodgkin's disease (n = 33), and myeloma (n = 25). The most common indication for allogeneic transplantation was chronic myeloid leukemia (n = 59), acute myeloid leukemia (n = 56), acute lymphoblastic leukemia (n = 43), and severe aplastic anaemia (n = 14). The number of allogenic transplants performed for individual diseases was comparable between 1992 and 1993, but increases in the number of autologous transplants for non-Hodgkin's lymphoma (26%), Hodgkin's disease (45%), breast cancer (48%), and myeloma (20%) were seen.
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PMID:Hematopoietic stem cell transplantation in Australia in 1993. 775

We looked for MDM2 gene amplification and over-expression by Southern and Northern blot analysis in 135 and 66 cases of haematological malignancies, including ALL, AML, CML in chronic phase, CLL, MDS, PLL, non-Hodgkin's lymphoma (NHL) and myeloma. No amplification of the gene was found. An over-expression of MDM2 RNA was seen in 9/66 (14%) patients tested, including 3/9 ALL, 3/24 AML, 2/4 myelomas, 1/1 PLL, but 0/2 CML, 0/2 NHL and 0/21 MDS. None of the patients over-expressing MDM2 had modifications of P53 gene transcript or p53 mutations. Most of the patients over-expressing MDM2 gene had poor prognostic features (including 'unfavourable' cytogenetic abnormalities), poor response to chemotherapy and short survival. Our findings suggest that over-expression of MDM2 is seen in a relatively small number of haematological malignancies, and is associated with poor prognosis.
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PMID:Over-expression of the MDM2 gene is found in some cases of haematological malignancies. 780 95

Metaphase DNA fluorescence in situ hybridization (metaphase-FISH) was performed on follow-up samples from 60 patients suffering from haemopoietic malignancies (acute and chronic myeloid leukaemia, acute lymphoblastic leukaemia, non-Hodgkin's lymphoma and myelodysplastic syndrome). All patients had clonal chromosomal trisomies or translocations at diagnosis, and were treated by bone marrow transplantation (BMT), chemotherapy (CT) or interferon-alpha therapy. Metaphase-FISH was performed during therapy-induced complete haematological remission (CR) (BMT and CT patients) using biotin-labelled whole chromosome paint probes. 28% of all patients in CR were shown by FISH to have abnormal metaphase cells, and 62% of this group suffered a clinical relapse. Of those with negative FISH results (72%), 12% relapsed. In three CML patients treated with BMT a small population of t(9;22)-positive cells was demonstrated. These cells disappeared during follow-up without causing a relapse. One ALL patient had abnormal cells a short time after start of therapy but was also later found FISH-negative. Furthermore, we demonstrated that metaphase-FISH is a suitable method for quantifying the proportion of abnormal cells in CML patients during interferon-alpha therapy. Metaphase-FISH was also employed to detect a local relapse in an ALL patient. Thus, metaphase-FISH was found reliable and sensitive for detection of minimal residual disease in patients with haemopoietic malignancies.
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PMID:Metaphase fluorescence in situ hybridization (FISH) in the follow-up of 60 patients with haemopoietic malignancies. 781 2


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