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

Clonal analysis of FACS-purified primitive hematopoietic stem cells and of their progeny as assessed by the progenitors obtained from long-term cultures requires PCR-based approaches, mainly because of the low number of cells available. We have developed a non-radioactive androgen receptor (AR) assay which allows a simple and quantitative evaluation of the clonality of hematopoietic cells and progenitors. In this approach 5' AR primer is labelled by fluorescein and the amplified product is run on a sequencing gel which allows evaluation of the intensity of the fluorescent peaks generated. A computer software then analyzes the reduction of the intensity of the peaks on HpaII-digested samples. In order to determine the feasibility of the technique, we analyzed the clonality of leukemic cells from a patient with an acute-phase CMML which showed a typical clonal pattern of her leukemic DNA sample (WBC = 300 x 10(9)/I) using phosphoglycerate kinase (PGK) analysis. The same sample was then analyzed with either radioactive- or fluorescein-labelled AR primers, showing a typical clonal pattern (complete disappearance of one allele after HpaII digestion). A short-term clonogenic assay was then set up on methylcellulose and clonogenic progenitors were individually analyzed. All 24 colonies tested showed a typical clonal pattern with the disappearance of the same allele on each sample after HpaII digestion, indicating that they all derived from the same leukemic stem cell. Using this approach we then analyzed 94 patients with several hematologic malignancies and quantification of their fluorescent peaks. Fifty-four percent of the patients were clearly heterozygous (ie, a difference of > or = 2 CAG repeats was present between the two copies of the gene) and could be analyzed in an automatic sequencer using the fluorescent primers. Bone marrow mononuclear cells from all patients with acute myeloid leukemia (AML) showed a clonal or oligoclonal pattern at diagnosis whereas a polyclonal pattern was seen when remission was obtained. Similarly, out of 21 patients with a diagnosis of myelodysplastic syndrome (MDS), a clonal pattern was demonstrated in 10 whereas an oligoclonal or non-clonal pattern was shown in 11. These results show that this non-radioactive and safe technology can now be used on a large scale to evaluate the clonality of highly purified hematopoietic stem cells and their progenitors in hematopoietic malignancies and this might allow new insights into the targets of clonal amplification.
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PMID:Quantitative non-radioactive clonality analysis of human leukemic cells and progenitors using the human androgen receptor (AR) gene. 765 27

Myeloproliferative disorders and myelodysplastic syndromes arise in multipotent progenitors and may be associated with chromosomal deletions that can be detected in peripheral blood granulocytes. We present here seven patients with myeloproliferative disorders or myelodysplastic syndromes in whom a deletion of the long arm of chromosome 20 was detectable by G-banding and/or fluorescence in situ hybridization in most or all bone marrow metaphases. However, in each case, microsatellite polymerase chain reaction (PCR) using 15 primer pairs spanning the common deleted region on 20q showed that the deletion was absent from most peripheral blood granulocytes. The human androgen receptor clonality assay was used to show that the vast majority of peripheral blood granulocytes were clonal in all four female patients. This represents the first demonstration that the 20q deletion can arise as a second event in patients with pre-existing clonal granulopoiesis. Microsatellite PCR analysis of whole bone marrow from two patients was consistent with cytogenetic studies, a result that suggests that cytogenetic analysis was not merely selecting for a minor subclone of cells carrying the deletion. Furthermore, in one patient, the deletion was present in both erythroid and granulocyte/monocyte colonies. This implies that the absence of the deletion in most peripheral blood granulocytes did not reflect lineage restriction of the progenitors carrying the deletion but may instead result from other selective influences such as preferential retention/destruction within the bone marrow of granulocytes carrying the deletion.
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PMID:Detection of chromosome 20q deletions in bone marrow metaphases but not peripheral blood granulocytes in patients with myeloproliferative disorders or myelodysplastic syndromes. 860 48

An acquired deletion of the long arm of chromosome 20 is a recurrent abnormality in myeloproliferative disorders, particularly polycythemia vera and myelodysplastic syndromes. The association of 20q deletions with myeloid "stem cell" disorders suggests that the deletions mark the site of one or more genes, loss or inactivation of which plays a role in the regulation of normal hematopoietic progenitors. We have recently performed a detailed molecular analysis of 20q deletions in peripheral blood (PB) granulocytes and defined a commonly deleted region of 16 to 21 centimorgan (cM). To further reduce the size of the common deleted region we have searched for small deletions or mitotic recombination events, neither of which would be detected by conventional cytogenetics. We have studied 48 patients with polycythemia vera and four patients with idiopathic myelofibrosis. In each case, cytogenetic analysis had either failed or had shown no abnormalities of chromosome 20. Seventeen microsatellite markers that span the common deleted region were used to search for loss of heterozygosity in granulocyte DNA. No instance of microsatellite instability was observed in a total of 880 comparisons of granulocyte and T-cell DNA. Granulocyte DNA from four patients exhibited allele loss on 20q. In each case the allele loss was caused by an interstitial deletion because heterozygosity at distal markers was retained and because quantitative Southern blotting demonstrated hemizygosity. Loss of heterozygosity in PB granulocytes would be masked by the presence of significant numbers of normal granulocytes not derived from the malignant clone. Therefore, the human androgen receptor assay (HUMARA) was used to determine granulocyte clonality. In 21 of 27 informative female patients the majority of the granulocytes were clonally derived. In 5 patients the granulocytes appeared polyclonal and in 1 patient unilateral X inactivation was observed in both granulocytes and T cells. These results show that, in the vast majority of patients presented here, the failure to detect loss of heterozygosity cannot be attributed to the presence of normal polyclonal granulocytes. Our results therefore show that allele loss on chromosome 20q in polycythemia vera does not commonly involve mitotic recombination or chromosome loss and that microsatellite instability is a rare event in this disorder.
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PMID:Interstitial deletion constitutes the major mechanism for loss of heterozygosity on chromosome 20q in polycythemia vera. 883 64

Therapy-related acute myelogenous leukemia and myelodysplastic syndrome (t-AML/MDS) are being reported with increasing frequency as a complication of ABMT for Hodgkin's disease and non-Hodgkin's lymphoma. At present there is no method available to predict who is at risk or is destined to develop this nearly universally fatal disorder. We therefore investigated whether clonal growth of cells is predictive of the development of t-AML/MDS. In a patient who developed secondary AML/MDS 18 months after ABMT, X-linked clonality analysis at the human androgen receptor locus was performed on serial banked samples, and documented transition from polyclonal to clonal hematopoiesis. Clonal cells could be identified 6 months after transplant (1 year prior to the diagnosis of t-AML/MDS), at a time when there was no morphologic or clinical evidence of disease. Clonality analysis can be predictive of the development of t-AML/MDS after ABMT and may offer important insights into associated risk factors and strategies to minimize the risk of t-AML/MDS.
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PMID:Prediction of therapy-related acute myelogenous leukemia (AML) and myelodysplastic syndrome (MDS) after autologous bone marrow transplant (ABMT) for lymphoma. 929 68

Clonality analysis using the polymorphism of X-linked genes, such as the phosphoglycerate kinase (PGK), hypoxanthine phosphoribosyl transferase (HPRT) genes and CAG repeat of the human androgen receptor (HU-MARA) gene and the hypervariable DXS255 gene have been widely used in the assessment of many hematologic diseases. Monoclonal hematopoiesis was clearly demonstrated in myelodysplastic syndromes (MDS), myeloproliferative disorders (MPD) and leukemia by the X-inactivation analysis. Previous studies also found a higher incidence of monoclonality in aplastic anemia and 'clonal remission' in acute leukemia. However, recent studies have shown that clonal hematopoiesis in aplastic anemia or remission of leukemia is rarer than previously thought when skewed X-inactivation was extensively ruled out by comparison with T-lymphocytes as an internal control. However, a polyclonal pattern obtained by X-inactivation cannot exclude the possibility of a small clonal cell population presenting in aplastic anemia. However, recent studies have demonstrated that residual polyclonal (possibly normal) hematopoietic progenitor cells can be detected in the bone marrow of MDS and MPD patients whose peripheral blood granulocytes showed a monoclonal pattern. This may suggest a novel approach to treatment of these diseases.
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PMID:Clonality in hematopoietic disorders. 947 67

Recent studies have documented an increased risk of therapy-related myelodysplastic syndrome or acute myelogenous leukemia (t-MDS/AML) after autologous bone marrow transplant (ABMT) for non-Hodgkin's lymphoma (NHL). To develop methods to identify patients at risk for this complication, we have investigated the predictive value of clonal bone marrow (BM) hematopoiesis for the development of t-MDS/AML, as defined by an X-inactivation based clonality assay at the human androgen receptor locus (HUMARA), in a group of patients undergoing ABMT for NHL from a single institution (Dana-Farber Cancer Institute, Boston, MA). One hundred four female patients were analyzed. At the time of ABMT, the prevalence of polyclonal hematopoiesis was 77% (80/104), of skewed X-inactivation pattern (XIP) was 20% (21/104), and of clonal hematopoiesis was 3% (3/104). To determine the predictive value of clonality for the development of t-MDS/AML, a subgroup of 78 patients with at least 18 months follow-up was analyzed. As defined by the HUMARA assay, 53 of 78 patients had persistent polyclonal hematopoiesis, 15 of 78 had skewed XIP, and 10 of 78 (13.5%) either had clonal hematopoiesis at the time of ABMT or developed clonal hematopoiesis after ABMT. t-MDS/AML developed in 2 of 53 patients with polyclonal hematopoiesis and in 4 of 10 with clonal hematopoiesis. We conclude that a significant proportion of patients have clonal hematopoiesis at the time of ABMT and that clonal hematopoiesis, as detected by the HUMARA assay, is predictive of the development of t-MDS/AML (P = .004).
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PMID:Predictive value of clonality assays in patients with non-Hodgkin's lymphoma undergoing autologous bone marrow transplant: a single institution study. 961 44

A female patient received a renal transplantation from an unrelated cadaver donor, and five years later developed myelodysplastic syndrome (MDS) with immunological abnormalities. Chromosomal analysis showed trisomy 8 in bone marrow cells. FISH analysis indicated that trisomy 8 was present in 4% of CD19 + cells, suggesting that the MDS clone involved B lymphocytes. Polymerase chain reaction of the human androgen receptor gene indicated B cell clonality (54%) and granulocyte clonality (63%). There have been no previous reports of secondary MDS following renal transplantation in which the MDS clone involved the B cell lineage. The abnormal MDS B cell clone may have caused the immunological abnormalities.
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PMID:Myelodysplastic syndrome with B cell clonality in a patient five years after renal transplantation. 971 69

We previously reported that the hypermethylation of the p15INK4B gene promoter was frequently observed in myelodysplastic syndromes (MDS), and that it may be associated with disease progression. An unanswered question is whether p15INK4B gene methylation is restricted to undifferentiated blastic cells, or whether differentiated cells such as granulocytes or erythrocytes of MDS origin also harbor this epigenetic alteration. In this study, we analyzed the methylation status of the p15INK4B gene in MDS by the methylation-specific PCR (MSP) method, which is more sensitive than Southern blotting. The bone marrow mononuclear cells (BM-MNCs) of 23 MDS patients were analyzed, and six of them showed p15INK4B methylation. Progenitor assay with methylcellulose medium was also performed in all patients. In two of the six patients with p15INK4B-methylated BM-MNCs, erythroid and/or non-erythroid colonies formed were subjected to molecular analysis. Colonies with and without p15INK4B methylation were detected in both patients. Furthermore, X-chromosome inactivation (XCI) pattern of each colony was simultaneously determined by MSP-based human androgen receptor gene analysis (HUMARA-MSP), and all p15INK4B-methylated colonies showed the same XCI pattern, which was dominant among the colonies, while p15INK4B-unmethylated colonies showed both patterns of XCI, in each of the two patients. We then examined the methylation status of the p15INK4B gene of granulocyte (PB-PMN) fractions from 10 patients with available peripheral blood cells. In all four patients with p15INK4B-methylated BM-MNCs, their PB-PMNs showed p15INK4B methylation. These results suggest that p15INK4B methylation in hematopoietic cells in MDS patients is restricted to the MDS clone but not necessarily to blast cells.
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PMID:Methylation status of the p15INK4B gene in hematopoietic progenitors and peripheral blood cells in myelodysplastic syndromes. 1076 43

The clonality of peripheral blood cells was assessed in eight female patients with myelodysplastic syndrome (MDS) by means of the human androgen receptor gene-based assay (HUMARA). The patients were in complete remission for a median follow-up time of 83 months after intensive chemotherapy. X-chromosome inactivation patterns (XCIPs) indicated polyclonal haemopoiesis in five patients. Two patients had skewed lyonization (i.e. unbalanced XCIPs in both granulocytes and T cells) and one patient presented monoclonal granulocytes together with polyclonal T cells. We conclude that long-term remission in MDS following intensive chemotherapy is usually associated with polyclonal haemopoiesis.
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PMID:Long-term remission after intensive chemotherapy in advanced myelodysplastic syndromes is generally associated with restoration of polyclonal haemopoiesis. 1105 75

It is well known that some patients with monopathic thrombocytopenia in myelodysplastic syndrome (MDS) show clinico-hematologic features resembling chronic idiopathic thrombocytopenic purpura (ITP). This study examined the monoclonal nature of ITP to obtain a further insight into patients with borderline ITP and monopathic thrombocytopenia in MDS, using polymorphic trinucleotide CAG repeats in the X-linked human androgen receptor (HUMARA) gene. In this study, we separated peripheral neutrophils and mononuclear cells (MNCs) from 18 patients with chronic ITP, and analyzed them in comparison with those from normal or MDS female subjects by PCR-based HUMARA assay. All normal controls showed a polyclonal pattern of the HUMARA gene, whereas some MDS patients had monoclonality in MNC and/or neutrophils. Among ITP patients, two had a nonrandom inactivation pattern of the HUMARA gene in neutrophils, which was considered to be derived from hematopoietic cells of clonal origin, whereas no ITP patient had MNC of clonal nature. Two ITP patients with a monoclonal pattern in the neutrophil fraction were refractory to ordinary treatment. This approach may provide further information in patients with borderline hematologic disorders between chronic ITP and refractory thrombocytopenia of MDS.
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PMID:Monoclonal constitution of neutrophils detected by PCR-based human androgen receptor gene assay in a subset of idiopathic thrombocytopenic purpura patients. 1212 51


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