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)

Thrombin is known to stimulate platelet protein tyrosine kinase (PTK). We studied thrombin-induced tyrosine-specific protein phosphorylation in normal platelets and those from patients with chronic myelogenous leukemia (CML) and other myeloproliferative disorders (MPD) using immunoblotting with antiphosphotyrosine (anti-P-Tyr) antibody. In resting platelets, two major phosphotyrosyl (P-Tyr) proteins with molecular masses of 120 kDa (p120) and 60 kDa (p60) were consistently detected both in normal subjects and in CML and other MPD patients. In addition to these P-Tyr proteins, a 36 kDa protein (p36) was predominantly phosphorylated only in CML platelets, using antilipocortin II antibody, we identified this p36 protein as lipocortin. Thrombin enhanced the tyrosine phosphorylation of p120 and p60, not only in normal platelets, but also in CML platelets, although the response was more delayed and the duration was shorter in CML platelets than those in normal platelets. Interestingly, decreased thrombin-induced aggregation was associated with a transient stimulation of p36 phosphorylation in CML platelets. These results suggest that the tyrosine phosphorylation of p36, which was probably identical to lipocortin, inhibits thrombin-induced platelet aggregation through anti-phospholipase A2 (anti-PLA2) activity.
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PMID:Alterations in thrombin-induced protein tyrosine phosphorylation of platelets from patients with chronic myelogenous leukemia. 138 29

The relationship between activation of the N-RAS gene and the leukemic progression of undifferentiated chronic myeloproliferative disease (UCMPD) was investigated in a 71-year-old male. Hematologically, it was difficult to differentiate the UCMPD from chronic myelogenous leukemia. Chromosomal analysis revealed no Philadelphia chromosome (Ph1-), and DNA analysis revealed no BCR rearrangement (BCR-) either at the beginning or in the terminal stages of the disease. We performed a tumorigenicity assay, using NIH3T3 cells, and molecular analysis, using the polymerase chain reaction (PCR) and direct sequencing. The DNA of leukemic cells at the beginning of the leukemic progression did not show any abnormalities, but at the terminal stage of the disease the DNA showed a point mutation in codon 12 (GGT----GCT) of the N-RAS gene. Interestingly, a codon 13 mutation (GGT----GTT) was also detected by tumorigenicity assay. These observations suggest that the activated N-RAS gene contributes to the hematologic progression of UCMPD.
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PMID:N-RAS activation in the terminal stage of undifferentiated chronic myeloproliferative disease. 139 9

Megakaryoblastic termination of myeloproliferative disorders is rare. The morphology of megakaryoblastic transformation can be subtle and is often mistaken for myeloid or lymphoid proliferations. Previously reported observations suggest a relatively poor prognosis for this category of patients, making precise diagnosis imperative. A multifaceted approach using morphology, ultrastructure, cytochemistry, and immunological membrane analysis may be helpful. We present two cases of myeloproliferative disorder with aggressive megakaryoblastic phases (myelofibrosis with agnogenic myeloid metaplasia and chronic myeloid leukemia with blast crisis). The clinical course is described and the results of the morphological, cytochemical, ultrastructural, and cytogenetic studies of both cases are presented. In addition, immunochemical studies (flow cytometry) and platelet function studies (aggregation, beta-thromboglobulin, and platelet factor IV release) were done for one of these patients.
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PMID:Megakaryoblastic termination of myeloproliferative disorders. 142 63

We report a case of idiopathic hypereosinophilia syndrome (H.E.S.) with a pronounced myeloproliferative disorder, which during the course of the illness has exceeded more than one "blastic crisis". This again proposes the difficult relationship between H.E.S. and myeloproliferative syndromes (M.S.), and is indicative of why some cases of H.E.S. are differentially diagnosed as chronic myeloid leukemia (C.M.L.) with an eosinophilic component.
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PMID:Idiopathic hypereosinophilic syndrome and "eosinophilic leukemia". 148 95

Clinical trials have shown that interferon (IFN) have myelosuppressive effects that can help reduce the uncontrolled clonal growth of hematopoietic cells in myeloproliferative disease. There are at least four diseases that are considered to be myeloproliferative disorders: chronic myelogenous leukemia, myelofibrosis polycythemia vera and idiopathic thrombocythemia. Recombinant IFN alpha has shown promise in inducing haematological and cytogenetic remission in some patients with chronic myelogenous leukemia. The exact role of IFN in prolonging the life of CML patients, however, remains to be determined in larger studies of longer duration. Preliminary evidence suggests that in myelofibrosis it may be more efficacious in the cellular than in fibrotic or osteosclerotic phase. IFN alpha has been reported to be of value in controlling excess platelet production in chronic myelogenous leukemia and idiopathic thrombocythemia as well as in reducing of red cell mas in polycythemia vera.
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PMID:[Use of interferon in the treatment of chronic myeloproliferative disorders]. 148 70

Translocation (6;9)(p23;q34) is a cytogenetic aberration that can be found in specific subtypes of both acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). This translocation is associated with an unfavourable prognosis. Recently, the genes involved in the t(6;9) were isolated and characterized. Breakpoints in both the dek gene on chromosome 6 and the can gene on chromosome 9 appear to occur in defined regions, which allows us to diagnose this type of leukemia at the molecular level. Moreover, because of the translocation a chimeric dek-can mRNA is formed which, as we show here, is an additional target for diagnosis via cDNA-preparation and the polymerase chain reaction (PCR). We studied 17 patients whose blood cells and/or bone marrow cells showed a t(6;9) with karyotypic analysis. Fourteen patients suffered from AML, one patient had a refractory anemia with excess of blasts in transformation (RAEBt), one patient had an acute myelofibrosis (AMF), and one patient a chronic myeloid leukemia (CML). In nine cases studies at the DNA and RNA levels were possible while in seven cases only the DNA could be analyzed. In one case only RNA was available. Conventional Southern blot analysis showed the presence of rearrangements of both the dek gene and the can gene. In both genes, breakpoints cluster in one intron in the patients investigated. The presence of a consistent chimeric dek-can product after cDNA preparation followed by the PCR was demonstrated. We conclude from our data that the t(6;9) is found in myeloproliferative disorders with typical clinical characteristics. This translocation results in highly consistent abnormalities at the molecular level.
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PMID:The translocation (6;9) (p23;q34) shows consistent rearrangement of two genes and defines a myeloproliferative disorder with specific clinical features. 158 43

A new case of t(3;17)(q26;q22) was observed in a Philadelphia-positive (Ph+) chronic myelogenous leukemia in acceleration 1 month before occurrence of the blastic phase. Abnormal megakaryocytopoiesis and thrombopenia were noted, but blast cells did not express platelet markers. The same translocation was previously reported in three myeloproliferative disorders in acceleration or in the process of becoming acute. Translocations or inversions of chromosome 3 with breakpoint involving the band 3q26 were specifically associated with megakaryoblastic acute phase or abnormal megakaryocytopoiesis. This report confirms that the t(3;17)(q26;q22) is a specific nonrandom chromosomal abnormality associated with the acute nonlymphoblastic phase of myeloproliferative disorders and megakaryocytopoiesis dysfunction.
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PMID:New case of t(3;17)(q26;q22) as an additional change in a Philadelphia-positive chronic myelogenous leukemia in acceleration. 159 13

Diagnosing chronic myeloproliferative disorders (CMPD) can be difficult because of overlap and possible transitions between the different conditions and their similarity to reactive myeloproliferations. DNA analysis was applied to improve differentiation of CMPDs. All subtypes of CMPD analyzed, including chronic myeloid leukemia, agnogenic myeloid metaplasia, polycythemia vera, and essential thrombocythemia, had in common that granulocytes and bone marrow cells were clonal in origin, as shown by X chromosome-linked DNA polymorphism in conjunction with methylation patterns (n = 32). Reactive myeloproliferations, by contrast, showed polyclonal inactivation patterns. Clonality could not distinguish CMPD from cases of myelodysplastic syndrome because the latter (n = 7) also exhibited clonal hematopoiesis. Because of their clonal origin, peripheral granulocytes were used in all cases (n = 201) to detect bcr gene rearrangement. Despite possible morphologic overlap between different types of CMPD, bcr gene rearrangement was specific for chronic myeloid leukemia and could be applied to differentiate chronic myeloid leukemia from other CMPDs in cases of equivocal morphologic diagnosis. Chronic myeloproliferative disorders represent clonal hemopoietic diseases that probably have specific underlying genetic defects. Thus DNA analysis can aid substantially in the differential diagnosis of CMPD.
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PMID:DNA analysis to aid in the diagnosis of chronic myeloproliferative disorders. 161 25

An immunohistochemical and morphometric study was performed on routinely processed trephine biopsies of the bone marrow in 30 normal individuals and in 90 patients with various subtypes of chronic myeloproliferative disorder. Using a new monoclonal antibody (PG-M1) directed against a formalin-resistant epitope on macrophages and by employment of the Prussian blue reaction, quantitation of this cell population was feasible. Morphometric analysis revealed that the number of iron-laden macrophages represented only a fraction of the total number of histiocytic reticular cells. As could be expected, in polycythaemia rubra vera, no haemosiderin deposits were detectable, but the content of macrophages slightly exceeded that of the normal bone marrow. In chronic myeloid leukaemia 9 of 30 patients showed a significant increase in PG-M1-positive reticular cell elements. These were consistent with pseudo-Gaucher cells, sea-blue histiocytes and intermediate cell types. Primary (idiopathic) myelofibrosis-osteomyelosclerosis was characterized by a significant increase in macrophages (25 of 30 patients). Involvement of macrophages in the complex mechanisms generating bone marrow fibrosis and angiogenesis and in bone remodelling (osteosclerosis) may be responsible for this finding.
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PMID:Macrophages in normal human bone marrow and in chronic myeloproliferative disorders: an immunohistochemical and morphometric study by a new monoclonal antibody (PG-M1) on trephine biopsies. 163 47

Sixty-three bone marrow (BM) biopsy paraffin sections from patients with platelet counts of 1000 x 10(9)/1 or greater were examined to determine the incidence of megakaryocytic emperipolesis for the various myeloproliferative disorders (MPDs) and for reactive thrombocytosis. Of those cases classified as specific MPDs, 77% of primary thrombocythemia (PT) specimens, 100% of the polycythemia vera (PV) specimens, a single idiopathic myelofibrosis (IMF) specimen, and 17% of the chronic granulocytic leukemia (CGL) specimens demonstrated emperipolesis within megakaryocytes. Two of three cases grouped as MPDs but not further classified also demonstrated emperipolesis. Of the cases of reactive thrombocytosis (RT), 75% showed the presence of emperipolesis. Our results indicate that, with the exception of CGL, emperipolesis can be found in the BM megakaryocytes of the great majority of patients who have extreme thrombocytosis. The underlying cause, whether myeloproliferative or reactive, does not apparently influence the incidence of the phenomenon.
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PMID:The frequency and significance of megakaryocytic emperipolesis in myeloproliferative and reactive states. 163 81


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