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)

We studied the long-term in vivo effects of recombinant granulocyte-macrophage colony stimulating factor (rhGM-CSF) on granulocyte functions in nine patients with myelodysplastic syndrome (MDS). The treatment schedule consisted of a 14 d course of rhGM-CSF (250 micrograms/m2/d s.c.) for patients with refractory anaemia (RA) and refractory anaemia with ringed sideroblasts (RARS), while patients with refractory anaemia with excess of blasts (RAEB) and refractory anaemia with excess blasts in transformation (RAEBt) received a 14 d combination course of rhGM-CSF (250 micrograms/m2 s.c.) and low dose cytosine arabinoside (20 mg/m2 s.c.). rhGM-CSF increased the mean neutrophil count from 3.9 x 10(9)/l to 44 x 10(9)/l. Significant increases of myeloperoxidase content in granulocytes occurred during treatment (P = 0.003). Phagocytosis and killing of Staph. aureus by granulocytes was markedly enhanced during treatment. Microbicidal capacity normalized in four out of six patients during GM-CSF therapy. However, chemotaxis in response to zymosan-activated serum (ZAS) and f-Met-Leu-Phe (f-MLP), was further impaired on the last day of treatment, which was associated with a marked increase in the expression of the granulocyte adhesion receptors CD11a (P = 0.01), CD11b (P = 0.002), CD11c (P = 0.00015) and CD18 (P = 0.0014). GM-CSF therapy did not cause significant changes in hexose monophosphate (HMP)-shunt activity, chemiluminescence, nor superoxide production. The present results show that in vivo administration of GM-CSF is able to repair at least in part the neutrophil anomalies in patients with myelodysplastic syndrome (MDS), which might be useful in modulating host response to infections. However, increased adherence and impaired chemotaxis may explain some toxicities observed during treatment with GM-CSF.
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PMID:In vivo administration of granulocyte-macrophage colony stimulating factor enhances neutrophil function in patients with myelodysplastic syndromes. 195 74

Abnormalities of chromosome 7 are among the most frequent cytogenetic aberrations found in MDS, including de novo cases and cases secondary to chemo- and/or radiotherapy. Since MET is located on 7q and as Cooper et al (1984) showed that MET proto-oncogene could be activated by a chemical carcinogen, we tried to evaluate whether it could be implicated in some cases of MDS. With specific probes for MET we analysed the DNA of 88 MDS patients (81 de novo and seven secondary cases). In 17 of them the RNA was also studied. We found no rearrangement or aberrant expression of MET in any samples studied. Our results, however, do not rule out point mutations or rearrangement of other regions of MET or adjacent DNA regions.
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PMID:Absence of rearrangement of proto-oncogene MET in 88 cases of myelodysplastic syndromes (MDS). 280 76

We examined synthesis of the cellular phosphoprotein p53 in fresh bone marrow or peripheral blood cells from normal donors and from patients with leukemia, preleukemia, or other hematopoietic disorders. Lysates of cells labeled with [35S]methionine were immunoprecipitated with monoclonal antibodies to p53, and the immunoprecipitates were analyzed by NaDodSO4/polyacrylamide gel electrophoresis and autoradiography. Bone marrow or peripheral blood cells from 8 of 33 patients with hematopoietic disorders showed increased p53, seven of the eight occurring in cells of patients with preleukemia or acute myelogenous leukemia. Increased p53 synthesis was not associated with p53 gene amplification, as shown by Southern blot analysis. Synthesis of p53 was not increased in any of nine normal human bone marrow samples or eight normal human peripheral blood granulocyte, macrophage, and lymphocyte samples. The hematopoietic cells of patients in remission or with chronic forms of leukemia did not generally synthesize elevated levels of p53. In addition, we found negligible p53 mRNA and protein expression in a variety of human myeloid leukemia lines blocked at different stages of differentiation. Southern blot analysis showed that, except for the HL-60 cells, the p53 gene of the myeloid cell lines was intact. In view of recent evidence implicating p53 in transformation of cultured cells, our results using fresh leukemia cells suggest that p53 may contribute to the phenotype of certain leukemias in vivo.
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PMID:Increased expression of p53 protein in human leukemia cells. 301 45

f-Met-Leu-Phe-stimulated luminol-enhanced chemiluminescence was found to be repeatedly defective in some MDS patients. This defect was not attributed to myeloperoxidase deficiency, nor to a defect in NADPH oxidase function, because PMA chemiluminescence was found to be normal in these individuals. An arbitrary value of 7 mV (half the mean control value) was chosen to subdivide the group: MDS patients with values < 7 mV had a mean f-Met-Leu-Phe chemiluminescence response of 2.5 +/- 0.5 compared to MDS patients with values > 7 mV who had a mean response of 15.6 +/- 1.6 mV, P < 0.01 (healthy controls 14 +/- 2 mV). The characteristics of the f-Met-Leu-Phe receptor and initial calcium flux results suggested that the receptor itself was normal in number and function in low f-Met-Leu-Phe responders. The rate of superoxide generation, which is calcium-dependent, was also found to be in the normal range in low f-Met-Leu-Phe responders, although total superoxide production was reduced in some of these patients. When MDS neutrophils with a low f-Met-Leu-Phe response were stimulated with PMA, chemiluminescence was normal, suggesting normal activity of the NADPH-oxidase complex. Furthermore, myeloperoxidase activity was reduced in only three out of the 11 low f-Met-Leu-Phe responders. Following priming with GM-CSF, f-Met-Leu-Phe chemiluminescence was 27 +/- 1.6 mV in low f-Met-Leu-Phe responders compared to controls (87.7 +/- 11 mV, P < 0.005). Thus, although responses were improved, they were not as marked as in control neutrophils. These data suggest that a subgroup of MDS patients have a low f-Met-Leu-Phe chemiluminescence response which is not due to a defect in the f-Met-Leu-Phe receptor or oxidase activity, and in the majority of cases MPO activity is normal. Initial patient survival data suggest that these patients may have an increased risk of infective mortality. It is proposed that defective f-Met-Leu-Phe chemiluminescence results from a putative defect in cell-signalling mechanism upstream of PKC, and GM-CSF priming only partially improves responsiveness.
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PMID:Identification of a subgroup of myelodysplastic patients with a neutrophil stimulation-signalling defect. 791 69

Hepatocyte growth factor (HGF), also known as scatter factor (SF), is produced by mesenchymal cells, including bone marrow (BM) stromal cells, and has mitogenic and motogenic effects on a variety of cell types. Recently, a role has been assigned to HGF/SF and its receptor, c-MET, in both normal and malignant hemopoiesis. We investigated the function of HGF/SF on hemopoietic mononuclear cells (MNC) from patients with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS) with circulating blasts. In contrast to results with normal MNC, HGF/SF alone stimulated the proliferation and colony formation of MNC from these patients. MNC from some (4/13) of the AML patients also produced HGF/SF (0.1-0.2 ng/ml/day), while we could not detect HGF/SF in cultures from normal MNC. Furthermore, it appeared that HGF/SF induced migration of leukemic cells in Boyden using KG1a cells as a model for leukemic blasts. The membranes dividing the two compartments of the Boyden chambers were coated with fibronectin. HGF/SF significantly promoted migration in 3/5 samples of MDS patients and in 5/7 samples of AML patients. Supernatant of human BM stromal cells, which is chemoattractive for normal human hemopoietic progenitor cells, also promoted migration of MNC from 4/5 MDS patients and 6/7 AML patients. Since HGF/SF is one of the growth factors produced by BM stromal cells, a neutralizing antibody directed against HGF/SF was added to the BM stroma supernatant, which reduced migration significantly in 2/3 MDS and in 3/6 AML responders to BM stroma supernatant. In conclusion, HGF/SF promotes proliferation and migration of hemopoietic cells from AML and MDS patients in vitro and may therefore contribute to the malignant potential of these cells.
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PMID:Hepatocyte growth factor/scatter factor (HGF/SF) affects proliferation and migration of myeloid leukemic cells. 969 73

Trisomy 8 is the most common chromosomal aberration in myelocytic malignancies, occurring both as a sole change as well as in addition to other abnormalities. In spite of this, next to nothing is known about its pathogenetic importance or its molecular genetic consequences. Possible mechanisms involved in the transformation process include dosage effects of genes mapping to chromosome 8 and presence of specific mutations or cryptic fusion genes on the duplicated chromosome. In the latter case, +8 would be secondary to a cryptic primary rearrangement and not involved in leukemogenesis as such, but rather in tumor evolution. Although hidden genetic changes have been found in some trisomies, for example, mutations in KIT in acute myelocytic leukemia (AML) with +4 and in MET in hereditary papillary kidney carcinoma with trisomy 7, none associated with +8 have so far been discovered. To address this issue, we have investigated a total of 13 cases of AML, myelodysplastic syndromes, and chronic myeloproliferative disorders with trisomy 8 as the sole chromosomal anomaly. All cases were studied by combined binary ratio multicolor fluorescence in situ hybridization (FISH) and with FISH using locus-specific probes for both arms of chromosome 8, the subtelomeric regions of 8p and 8q, and the leukemia-associated genes FGFR1, MOZ, ETO, and MYC. No cryptic changes were detected, thus excluding the possibility of gross genetic rearrangements or aberrations involving these loci on chromosome 8.
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PMID:Trisomy 8 as the sole chromosomal aberration in myelocytic malignancies: a multicolor and locus-specific fluorescence in situ hybridization study. 1449 2

The relationship between mitochondria gene mutation and hematological malignancies has been focusing on as a key point in recent studies. This study was aimed to investigate whether in patients with myelodysplastic syndrome (MDS) exists mitochoudria cytochrome oxidase COI and COII gene mutations different from normal tissues and to analyze whether these mutations are "hot spot" mutations. Eighteen MDS patients aged from 20 to 70 years old were brought into this study, including 2 of RA, 3 of RCMD, 7 of RAEB, 5 of AML (transformation from MDS), and 1 of MDS/MPD. The total DNA was extracted both from bone marrow cells and buccal cells of the same patients. A pair of primers was designed to amplify a fragment with 528 base pair (7181 - 7709) by PCR technique, which contained high frequency mutation area of cytochrome oxidase COI and COII gene based on the literature reports. The PCR products were purified and sequenced as bidirection to confirm if there is any mutation. The results of sequence of COI and COII gene from MDS patient bone marrow cells were compared with both the standard sequence from GenBank and the sequence from MDS patient buccal cells. The results showed that 3 single nucleotide changes in 528 bp cytochrome oxidase gene fragment from 18 MDS patients were confirmed. They were 7674 T-->C, 7353 A-->G, and an insert mutation of G at 7702. The former two mutations caused isoleucine-->methionine, and methionine-->viline. The 7702G ins was only confirmed with marrow cells in a patient, and caused a frame shift, which suggested that the mutation might be related to MDS cells. It is concluded that some of "hot spots" of mtDNA mutation in cytochrome oxidase (COI, COII) gene from our MDS patients are failed to be confirmed, but 3 new mutations on this gene are found, which suggested that mitochondria DNA mutations in MDS patients still have much complexity and heterogeneity, mtDNA mutation may be a prophase or an accompany phenomenon of this disease.
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PMID:[Mutation of mitochondria cytochrome oxidase gene in patients with myelodysplastic syndrome]. 1871 66

Methionine (Met) deprivation stress (MDS) is proposed in association with chemotherapy in the treatment of some cancers. A synergistic effect of this combination is generally acknowledged. However, little is known on the mechanism of the response to this therapeutic strategy. A model of B16 melanoma tumor in vivo was treated by MDS alone and in combination with chloroethylnitrosourea (CENU). It was applied recent developments in proton-NMR spectroscopy-based metabolomics for providing information on the metabolic response of tumors to MDS and combination with chemotherapy. MDS inhibited tumor growth during the deprivation period and growth resumption thereafter. The combination of MDS with CENU induced an effective time-dependent synergy on growth inhibition. Metabolite profiling during MDS showed a decreased Met content (P < 0.01) despite the preservation of the protein content, disorders in sulfur-containing amino acids, glutamine/proline, and phospholipid metabolism [increase of glycerophosphorylcholine (P < 0.01), decrease in phosphocholine (P < 0.05)]. The metabolic profile of MDS combined with CENU and ANOVA analysis revealed the implication of Met and phospholipid metabolism in the observed synergy, which may be interpreted as a Met-sparing metabolic reprogramming of tumors. It follows that combination therapy of MDS with CENU seems to intensify adaptive processes, which may set limitations to this therapeutic strategy.
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PMID:Combined methionine deprivation and chloroethylnitrosourea have time-dependent therapeutic synergy on melanoma tumors that NMR spectroscopy-based metabolomics explains by methionine and phospholipid metabolism reprogramming. 1983 24

Myelodysplastic syndromes (MDS) are hematopoietic disorders characterized by ineffective hematopoiesis and progression to acute leukemia. In patients ineligible for hematopoietic stem cell transplantation, azacitidine is the only treatment shown to prolong survival. However, with the availability of a growing compendium of cancer biomarkers and related drugs, analysis of relevant genetic alterations for individual MDS patients might become part of routine evaluation. Therefore and in order to cover the entire bone marrow microenvironment involved in the pathogenesis of MDS, SNP array analysis and targeted next generation sequencing (tNGS) for the mostly therapy relevant 46 onco- and tumor-suppressor genes were performed on bone marrow biopsies from 29 MDS patients. In addition to the detection of mutations known to be associated with MDS in NRAS, KRAS, MPL, NPM1, IDH1, PTPN11, APC and MET, single nucleotide variants so far unrelated to MDS in STK11 (n=1), KDR (n=3), ATM (n=1) and JAK3 (n=2) were identified. Moreover, a recurrent microdeletion was detected in Xq26.3 (n=2), causing loss of PHF6 expression, a potential tumor suppressor gene, and the miR-424, which is involved in the development of acute myeloid leukemia. Finally, combined genetic aberrations affecting the VEGF/VEGFR pathway were found in the majority of cases demonstrating the diversity of mutations affecting different nodes of a particular signaling network as an intrinsic feature in MDS patients. We conclude that combined SNP array analyses and tNGS can identify established and novel therapy relevant genomic aberrations in MDS patients and track them in a clinical setting for individual therapy selection.
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PMID:Detection of an activated JAK3 variant and a Xq26.3 microdeletion causing loss of PHF6 and miR-424 expression in myelodysplastic syndromes by combined targeted next generation sequencing and SNP array analysis. 2467 52

The aim of this study was to assess the possible influence of genetic polymorphisms in hOGG1, XRCC1, XRCC3, XPD, XPG and APE1 on the observed DNA damage in a group of Turkish myelodysplastic syndrome (MDS) patients. A total of 39 patients with myelodysplastic syndrome and 78 age-matched healthy control subjects were included in our study. Polymerase chain reaction/restriction fragment length polymorphism analysis was performed for the detection of DNA repair gene variants. No significant differences in DNA repair enzymes APE1, XRCC1 and XPG were found between MDS patients and controls. On the other hand, XRCC3, XPD and hOGG1 were associated with an increased risk of MDS (p=0.004, p=0.000, p=0.017, respectively). Specifically, Thr/Met genotype was more relevant in patients (p=0.026) in XRCC3; in hOGG1, Cys+ genotype was found higher in patients (p=0.017); and in XPD, Gln/Gln genotypes were found higher in the patient (p=0.001). In conclusion, XRCC3, XPD and hOGG1 genotypes are associated with an increased MDS risk, suggesting their possible involvement in the pathogenesis and biology of this disease.
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PMID:Investigation of DNA repair gene variants on myelodysplastic syndromes in a Turkish population. 2515 60


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