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:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, several malignant cell types have been reported to express colony-stimulating factor-1 (CSF-1) transcripts; however, the clinical significance of CSF-1 in malignancy has not been investigated. Using a CSF-1 radioimmunoassay, we surveyed concentrations of biologically active CSF-1 in the peripheral blood of 316 patients with malignant and premalignant hematologic disorders; 75 had a myelodysplastic syndrome (MDS), 12 acute myelogenous leukemia (AML), 7 chronic myelogenous leukemia, 21 chronic lymphocytic leukemia (CLL), 106 non-Hodgkin's lymphoma (NHL; of low-, intermediate- and high-grade malignancy), 46 Hodgkin's disease (HD), 46 multiple myeloma (MM), and 3 monoclonal gammopathy of undetermined significance. Controls were 64 healthy subjects. The CSF-1 concentration was correlated with the type of disease, status of the disease, treatment status, and hematologic parameters. CSF-1 concentration was significantly elevated in 83.5% of the patients with active disease, and for each active disease group it was significantly greater (P less than .0001) than in the control. Thus, the high circulating CSF-1 concentration was not associated with a particular malignant phenotype or MDS subtype, but did correlate with the disease activity of both NHL and HD, and the tumor burden in MM, AML, and CLL. There was no correlation of the CSF-1 level with total counts of monocytes or neutrophils in patients with MDS or other malignancies. The cellular basis for the elevated circulating CSF-1 was not investigated. However, the results are consistent with the possibility that the premalignant or malignant cells themselves produce CSF-1 or regulate its production by normal cells.
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PMID:Increased circulating colony-stimulating factor-1 in patients with preleukemia, leukemia, and lymphoid malignancies. 201 2

Despite major advances in supportive care, neutropenic infections and thrombopenic bleedings remain major lethal treatment- and disease-related complications in patients with malignancy. Moreover, complications of platelet (Plt) and erythrocyte transfusion therapy have become a cause of great concern and shortages of homologous blood products are a constant problem. Suggestions that the application of recombinant human hemopoietins may provide an alternative treatment modality in this patient population is currently being evaluated in clinical trials. Erythropoietin (EPO) has been shown to be effective in the treatment of anemia in patients with bone marrow, infiltrating low-grade non-Hodgkin's lymphoma, multiple myeloma, and in some patients with myelodysplastic syndrome. Preliminary data suggest that subcutaneous administration of EPO results in a higher slope of increasing erythropoietic parameters compared to intravenous administration. Protective effects on normal erythropoiesis have been attributed to EPO in patients receiving chemotherapy. The finding of EPO receptors on megakaryocytes supports the clinical observation of increased Plt production associated with decreased bleeding and transfusion frequencies in a substantial number of patients receiving EPO. Clinical trials with granulocyte-macrophage (GM-CSF) and granulocyte colony stimulating factor (G-CSF) have reached phase III trials. Both factors show high efficacy to shorten or improve neutropenia related to chemotherapy, bone marrow transplant, or underlying disease. Mechanisms responsible for mucosa protection and improved healing of mucositis observed with both factors remain undetermined yet phase I/II evaluation of IL-3 shows multilineage hemopoietic responses including myeloid, erythroid, and megakaryocyte lineages. Possible anti-cancer effects of hemopoietins achieved by direct action or by increased chemotherapy intensity are currently under investigation.
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PMID:Hemopoietins in clinical oncology. 204 61

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

Chromosomal studies were performed on 114 blood samples and 117 bone marrow samples, taken systematically over a period of 4 months after bone marrow transplantation (BMT) in 42 children grafted for acute lymphoblastic leukaemia (ALL) (n = 20), acute myeloid leukaemia (AML) (n = 16), non-Hodgkin's lymphoma (NHL) (n = 2) and myelodysplastic syndrome (MDS) (n = 4). In some cases, follow-up investigations were performed. In the first 4 months following BMT, mixed chimerism was frequently observed in blood of AML (25%), ALL (30%), NHL (100%) cases and in bone marrow samples of ALL (35%). The presence and relative number of a patient's own metaphases found shortly after transplantation was not related to leukaemia relapse and probably represents residual non-malignant haematopoietic precursor cells of the host. In only one child grafted for MDS with 45,XY, -7 karyotype was the marker clone still detectable in bone marrow at day +437 post-BMT. This patient shows no recurrence of the MDS and has a sustained haematological recovery at the time of writing, i.e. 4.5 years post-BMT. In 11 other patients, various structural chromosomal abnormalities (not related to the original leukaemia) were found in both peripheral blood and bone marrow. In three different patients structural anomalies were also found in bone marrow and blood samples from donor-derived cells. This indicates that, besides irradiation, there are other as yet unidentified factors (e.g. drugs), which are capable of inducing chromosomal anomalies in the post-BMT period.
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PMID:Chromosomal studies after bone marrow transplantation for leukaemia in children. 207 Jan 42

DNA from 161 patients with various forms of hematologic malignancies were investigated for mutations in exons 1 and 2 of the N-RAS, K-RAS and Ha-RAS gene by direct sequencing of DNA amplified in vitro by the polymerase chain reaction. Mutations involving either codons 11, 12, or 13 of the N-RAS gene were identified in 18 of the 161 patients. The relative frequencies of N-RAS gene mutations in these hematologic disorders was as follows: acute myelogenous leukemia (AML), 15%; acute lymphoblastic leukemia (ALL), 14%; myelodysplastic syndromes, 24%; and myeloid and lymphoid blast crisis of chronic myelogenous leukemia (CML), 3%. No correlation was observed between the presence of mutations and cytologic features or immunophenotype of these malignancies. Mutations involving codons 12 or 13 were equally prevalent, with a glycine to aspartic acid substitution being the most frequently encountered change. A single T-ALL case had a codon 11 mutation resulting in substitution of alanine with threonine. We failed to find mutations in exons 1 and 2 of the K-RAS or Ha-RAS genes in any case except a single AML with a mutation in codon 61 of the K-RAS gene. Also, no mutations were identified in chronic phase of CML, chronic lymphocytic leukemia. Ph1 positive ALL, non-Hodgkin's lymphoma, Hodgkin's disease, or multiple myeloma. These results indicate that RAS mutations, especially those involving exon 1 of the N-RAS gene, are frequent only in a subset of hematologic malignancies.
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PMID:The pattern of mutational involvement of RAS genes in human hematologic malignancies determined by DNA amplification and direct sequencing. 218 88

The risk of second cancers (SCs) was assessed in 744 patients with Hodgkin's disease (HD) admitted to The Netherlands Cancer Institute from 1966 to 1983. Sixty-nine SCs were observed one month or more after start of first treatment. These included 14 cases of lung cancer, nine cases of non-Hodgkin's lymphoma (NHL), 16 cases of leukemia, and six cases of the myelodysplastic syndrome (MDS). The median interval between the diagnosis of HD and that of second lung cancer, NHL, and leukemia was 8.1, 13.3, and 5.7 years, respectively. The overall relative risks (RR) (observed/expected [O/E] ratios) of developing lung cancer, NHL, and leukemia were 4.9 (95% confidence limit [CL], 2.7 to 8.2), 31.0 (95% CL, 14.2 to 58.9) and 45.7 (95% CL, 26.1 to 74.2), respectively. At 15 years the cumulative risk of developing an SC amounted to 20.6% +/- 2.9%. The 15-year estimates of lung cancer, NHL, and leukemia were 6.2% +/- 1.9%, 5.9% +/- 2.1% and 6.3% +/- 1.7%, respectively. Increased lung cancer risk following HD has not frequently been clearly demonstrated before; that we were able to demonstrate such risk may be due to the completeness of follow-up over long periods that could be achieved in this study. Excess lung cancer risk was only noted in treatment regimens with radiotherapy (RT); also, all lung cancers arose in irradiation fields. Excess risk of leukemia was only found in treatment regimens involving chemotherapy (CT). For NHL, combined modality treatment was shown to be the most important risk factor. Risk of lung cancer and NHL increased with time since diagnosis. A time-dependent covariate analysis (Cox model) performed on leukemia and MDS showed an increasing risk with intensity of CT, age (greater than 40 years), and a splenectomy.
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PMID:Increased risk of lung cancer, non-Hodgkin's lymphoma, and leukemia following Hodgkin's disease. 275 47

Although it is well recognized that granulocytic sarcoma can cause localized lymphadenopathy, widespread nodal involvement by acute myelocytic leukemia (AML), clinically mimicking non-Hodgkin's lymphoma, has only been previously described twice. We report the clinicopathological, immunological, and cytochemical features of two patients who had widespread, prominent lymphadenopathy secondary to AML as well as concurrent marrow leukemia (M1 and M2). For one patient the lymphadenopathy was the predominant abnormality prompting him to seek medical attention, while the second patient had symptoms of infection following a 9-month history of myelodysplasia. The disease in both patients was aggressive; one patient survived only 1 week and the other survived only 5 weeks after diagnosis. In both cases the granulocytic sarcoma was confirmed by cytochemistry studies (naphthol ASD-chloroacetate esterase on tissue sections and myeloperoxidase on imprint smears), and electron microscopy, including morphology (both cases) or ultrastructural localization of myeloperoxidase (case 2). Non-specific esterase activity was not detected in either patient's blasts, although serum lysozyme was elevated in both cases. Immunological studies revealed reactivity of both patients' cells with panleukocyte, MY4, MY7, OKM-1, and Leu-M1 monoclonal antibodies and with alpha-1-antitrypsin and muramidase antibodies. The cells of one of these patients also reacted with anti-S-100 protein. Although the cytochemical studies indicated that both cases exhibited only myeloid differentiation, the immunological markers suggested that the tumor cells possessed some features of monocytes, perhaps explaining their propensity for widespread tumor formation. Morphological, immunological, cytochemical, and ultrastructural methods of diagnosing granulocytic sarcoma are presented.
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PMID:Acute myelocytic leukemia manifested by prominent generalized lymphadenopathy: report of two cases with immunological, ultrastructural, and cytochemical studies. 345 62

Bone marrow biopsies and smears were examined from 70 patients with acquired immunodeficiency syndrome (AIDS) or AIDS related conditions: 32 patients with AIDS; 9, at risk, group patients with B-cell lymphoma; 22 patients with AIDS related complex (ARC) and 7, at risk, group patients with idiopathic thrombocytopenic purpura (ITP). The first three groups showed similarity with respect to frequency of nonspecific findings: hypo and hypercellularity, marrow damage, lymphoid aggregates, histiocytosis, plasmacytosis and features of myelodysplasia. AFB and fungal organisms were present in the biopsies of 17 per cent of AIDS and 18 per cent of ARC patients. The organisms were associated with bone marrow granulomas or histiocytosis, peripheral lymphopenia and anemia. Only one out of 9 biopsies in patients with previous diagnoses of lymphoma showed involvement of the marrow. One case each of Hodgkin's disease and non-Hodgkin's lymphoma were discovered incidentally among the 22 biopsies from ARC patients without a previous diagnosis of lymphoma. Except for those presenting with ITP alone, bone marrow changes are similar in patients with AIDS and AIDS related conditions.
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PMID:A comparison of bone marrow findings in patients with acquired immunodeficiency syndrome (AIDS) and AIDS related conditions. 349 63

Bone marrow biopsies of patients with a myelodysplastic syndrome (MDS) may, in the absence of an increased number of blasts in the bone marrow smears, contain small clusters of immature precursors. The presence of these cell nests, previously described as "abnormal localized immature precursors" or ALIP, bears a strong prognostic value predisposing patients to early death with an increased risk to develop myeloid leukaemia. In order to describe and delineate this histological characteristic more precisely, we compared bone biopsies of patients with MDS, used in these previous studies, with bone marrow biopsies performed for staging procedures in patients with Hodgkin's disease, non-Hodgkin's lymphoma and carcinoma. From this comparison we conclude that immature precursors are readily differentiated from proerythroblasts, myeloblasts and small-sized megakaryocytes, and that they most probably represent precursors of the myelo-monocytic-erythroid series. A clearcut increase in their number, mostly resulting in the formation of small clusters, is only found in biopsies from patients with MDS.
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PMID:The histological characterization of ALIP in the myelodysplastic syndromes. 376 79

The c-mos and c-myc proto-oncogenes have been assigned to bands q22 and q24, respectively, of human chromosome No. 8. A gain of chromosome No. 8 is the most common abnormality observed in myeloproliferative diseases. By using probes specific for the c-mos and c-myc genes, we have analysed the genomic DNA from peripheral blood and bone marrow samples from 15 patients with various malignant myeloid diseases, including leukemia and myelodysplasia, and from one patient with non-Hodgkin's lymphoma, all of whom have trisomy for chromosome No. 8. Except for one patient, the c-mos and c-myc genes were found in restriction fragments of germline size. In one patient with myelodysplasia, one c-myc allele was rearranged in a Hind III fragment, the other allele being normal. Thus, trisomy 8 associated with human hematologic neoplasia is generally not related to gross rearrangements of the c-mos or c-myc genes.
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PMID:Trisomy 8 in human hematologic neoplasia and the c-myc and c-mos oncogenes. 407 53


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