UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis and processing of feline leukemia virus (FeLV) polypeptides were studied in a chronically infected feline thymus tumor cell line, F-422, which produces the Rickard strain of FeLV. Immune precipitation with antiserum to FeLV p30 and subsequent sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) were used to isolate intracellular FeLV p30 and possible precursor polypeptides. SDS-PAGE of immune precipitates from cells pulse-labeled for 2.5 min with [35S]methionin revealed the presence of a 60,000-dalton precursor polypeptide (Pp60) as well as a 30,000-dalton polypeptide. When cells were grown in the presence of the proline analogue L-azetidine-2-carboxylic acid, a 70,000-dalton precursor polypeptide (Pp70) was found in addition to Pp60 after a 2.5-min pulse. The cleavage of Pp60 could be partially inhibited by the general protease inhibitor phenyl methyl sulfonyl fluoride (PMSF). This partial inhibition was found to occur only if PMSF was present during pulse-labeling. Intracellular Pp70 and Pp60 and FeLV virion p70, p30, p15, p11, and p10 were subjected to tryptic peptide analysis. The results of this tryptic peptide analysis demonstrated that intracellular Pp70 and virion p70 were identical and that both contained the tryptic peptides of FeLV p30, p15, p11, and p10. Pp60 contained the tryptic peptides of FeLV P30, P15, and P10, but lacked the tryptic peptides of P11. The results of pactamycin gene ordering experiments indicated that the small structural proteins of FeLV are ordered p11-p15-p10-p30. The data indicate that the small structural proteins of FeLV are synthesized as part of a 70,000-dalton precursor. A cleavage scheme for the generation of FeLV p70, p30, p15, p11, and p10 from precursor polypeptides is proposed.
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PMID:Analysis of intracellular feline leukemia virus proteins II. Generation of feline leukemia virus structural proteins from precursor polypeptides. 19 17

A case of pure monocytic, 'Schilling-Type' leukaemia in a 9-year-old boy is described. The leukaemic cells resembled monocytes and were abundantly present in blood and bone marrow. They were strongly alpha-naphthyl-acetate-esterase positive, contained fine PAS-positive granules and did not stain by Sudan B. They were negative for surface bound and intracytoplasmic IgG, but had a high density of membrane Fc-receptors and showed phagocytosis. The surface glycoprotein pattern resembled that of monocytes, but was clearly different from those of lymphocytic and myelocytic cells or those of acute lymphocytic leukaemia cells. The karyotype of bone marrow cells was 44,X, -15, -21, +mar,del(2)(p11), with the missing Y-chromosome located in the marker chromosome. Especially the surface glycoprotein and membrane receptor analyses aided in the accurate classification of the monocytic origin of the leukaemic cells.
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PMID:A case of pure monocytic leukaemia in a child - characterization of cellular morphology, membrane markers, surface glycoproteins and karyotype. 28 80

The presence of human T-cell leukemia virus (HTLV-1) in patients with adult T-cell leukemia (ATL) was investigated by Southern blotting and in situ hybridization. In all seven patients, HTLV-1 provirus was detected. A large and variable number of labeled restriction fragments were observed, indicating multiple integrations. Two of the patients analyzed by in situ hybridization had two, while the third patient had three, sites of viral integration on six different chromosomes, suggesting random integration. A single site of integration was shared by two patients, which was on chromosome 10 at bands p11-->p15. One of these sites was on an apparently normal chromosome 10 and the other was on a derivative chromosome 10,t(10;14)(p12;q32). The interleukin 2 receptor (IL2R) has previously been localized to this region (10p14-->p15). The alpha-chain of the IL2R is continuously expressed on affected T-cells in this disease. Southern blotting with pIL2R showed the presence of a novel 3.5 kb fragment in five out of the seven patients. This novel fragment has not been previously reported. No direct correlation was found between the novel 3.5 kb fragment, present in patients both cytogenetically normal and abnormal, and viral integration in the 10p11-->p15 region in two patients. Therefore, it is suggested that the presence of the 3.5 kb fragment and the numerous chromosomal breaks associated with this disease may not be direct results of viral integration.
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PMID:Chromosomal localization of HTLV-1 viral integration sites using in situ hybridization: detection of a novel IL2R fragment. 135 40

We describe the clinical, haematological and cytogenetic features of three patients who had acute myelogenous leukaemia (AML) with complex bone marrow karyotypes when first cytogenetically examined. Induction chemotherapy led to remission from the acute leukaemia. However, neither clinically nor morphologically did this remission mean a return to normal haematopoiesis. The two patients who displayed myelodysplastic features before and when AML was diagnosed, again developed myelodysplasia, and the third patient, who had a long history of polycythaemia vera, returned to this myeloproliferative condition. Nor was cytogenetic normalization achieved; instead, abnormal cell clones were found in which all but one of the karyotypic aberrations present at acute leukaemia diagnosis had disappeared. The solitary anomalies that were detected in these reemerging clones must correspond to the primary cytogenetic aberrations of the patients pre-leukaemic diseases. They were del(5) (q11q33) and del(17) (p11) in the two myelodysplastic cases, and der(18)t(9;18) (p11;p11) in the patient with long-standing polycythaemia vera. The other, secondary, aberrations were probably the leukaemogenic changes, and with the eradication or reduction of the subclones containing them, the leukaemic phenotype disappeared. The three cases add cytogenetic evidence to the growing understanding that the remission obtained in some AMLs is actually a return to a preleukaemic, myeloproliferative or myelodysplastic, syndrome.
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PMID:Re-emergence in remission of primary clone in acute myelogenous leukaemias with multiple chromosomal aberrations at diagnosis. 141 15

The standard methods for classifying acute leukaemias now include morphology, cytochemistry and membrane markers. Major advances in immunology, in particular the development of monoclonal antibodies (McAb) with lineage specificity, have provided objective positive criteria for the diagnosis of acute lymphoblastic leukaemia (ALL). The FAB group has recognised the importance of McAb for the classification of some forms of acute myeloid leukaemia (AML), such as megakaryoblastic leukaemia, AML-M7, in which reactivity with McAb against platelet glycoproteins is a requirement for diagnosis. More recently the group has defined a type of myeloblastic leukaemia with minimal differentiation, AML-MO, in which myeloid cytochemistry is negative and the diagnosis is made by the expression of myeloid antigens and negative lymphoid markers in the blast cells. However, new problems have emerged with the wider use of McAb which now need to be addressed: the most important is the precise evaluation criteria for biphenotypic leukaemia for which we have proposed a scoring system in order to recognise the genuine cases which constitute a distinct disease entity. The role of karyotyping in the classification of acute leukaemia is gradually being defined (MIC proposals) and some forms of acute leukaemia can only be diagnosed by chromosome translocations, e.g. Ph+ ALL, resulting from t(9;22) and t(4;11) in infant ALL. Several translocations can also be demonstrated by molecular techniques. Cases with t(8;16) (p11;p13) are characterised by myelomonocytic features, erythrophagocytosis and fibrinolysis and represent a type of AML which can be defined primarily by its cytogenetic abnormality.
Leukemia 1992
PMID:The classification of acute leukaemia. 157 5

The p11 band of the short arm of chromosome 9 is involved in various cytogenetic alterations occurring in several malignant diseases. Using probes isolated from the 9p11 band in the study of a case of alpha-heavy-chain disease (MAL) with t(9;14)(p11;q32), we studied the DNA from seven malignant cell samples, including four cases of acute lymphoblastic leukemia with tdic(9;12)(p11;p12). Using pulsed-field electrophoresis analysis we demonstrated that the breakpoints were 3-300 kb distant from the original MAL breakpoint without clustering within the subset of leukemias with the tdic(9;12).
Leukemia 1991 Jun
PMID:Heterogeneity of the breakpoint localization in malignant cells with a 9p11 chromosomal abnormality. 190 69

A recent report demonstrated that t(8;16) (p11;p13) may be linked to acute monocytic leukaemia (AMoL) of differentiated subtype (M5b) with active haemophagocytosis by leukaemic cells. Only two cases of neonatal AMoL with t(8;16) (p11;p13) have been reported; M5b with haemophogocytosis and M5a. We report a case of neonatal AMoL (M5b) with t(8;16)(p11;p13), but haemophagocytosis by the leukaemic cells was not detected.
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PMID:Translocation t(8;16)(p11;p13) in neonatal acute monocytic leukaemia. 204 2

We report a case of erythroleukemia (EL;FAB M6), preceded by a myelodysplastic phase, in a 50-year-old male 8 years after treatment for Hodgkin's lymphoma. Cytogenetic analysis of bone marrow at time of diagnosis of EL revealed three cell lines: 1) 28 of 53 cells (53%) were hypodiploid, 43,XY,-5,-7,-12; 2) 23 of 53 cells (43%) were near-triploid, stemline 67-69,XY,+2,del(5)(q11.2),+del(5)(q11.2),+6,-7,+8,-9,-11,-12,+15,-16,der (17)t (17;?) (p11.2;?),-18,-20,-20,+22,+r, + mar (relative to a complete triploid cell); 3) 2 of 53 cells (4%) were normal 46,XY. The relative monosomies of 5, 7, and 12 in both abnormal lines suggest that the near-triploid line evolved from the hypodiploid line. A single hypodiploid cell with both del(5) and der(17) chromosomes that appeared identical to those in the near-triploid line suggests that polyploidization occurred after these structural rearrangements. While EL is not characterized by any well-defined structural abnormality, reported cases are frequently hypodiploid, with occasional cases of polyploidization, as in our patient, EL in adults without previous neoplasia or recognized mutagenic exposure has been shown to have loss or deletion of chromosomes 5 and 7, also characteristic of myelodysplastic syndromes and secondary leukemia. Our patient had a relative lack of chromosomes 5 and 7 in both abnormal clones, as well as a del(5)(q11) in the near-triploid line. This case of EL clearly demonstrates the evolution of a complex near-triploid line from a hypodiploid line, with chromosome abnormalities typical of both EL and secondary leukemia.
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PMID:Evolution of a near-triploid karyotype in a secondary erythroleukemia. 206 5

An animal model of acute myeloid leukemia (AML) has been developed in the Brown Norway (BN) rat and has successfully been introduced into the Lewis x BN F1 hybrid (LBN) and designated LBN AML. The original LBN AML is sensitive to the chemotherapeutic agent cyclophosphamide (CY). Recently, a CY-resistant cell line of LBN AML has been established. To characterize this animal model of human leukemia better, we analyzed and compared the chromosomal makeup of both the CY-sensitive and CY-resistant LBN AML lines. The CY-sensitive LBN AML cultures contained two cell lines--line I (88%): 41,XX,-1,-2,-9,del(12)(q16), + der(1)t(1;?8)(p13;q31), + der(2)t(2;9)(p11;q11); and line II (12%): 41,XX,-1,-2,-9,del(12),del(20)(q13) + der(1)t(1;?8)(p13;q31), + der(2)t(2;9)(p11;q11). The recently developed CY-resistant AML cells contained two cell lines--line I (88%): 41,XX,-1,-2,-9,del(3)(q36q42.1),del(4) (q42.2),?t(5;?)(q35;?),?t(8;?)(q24;?),del(12)(q16), + der(1)t(1;?8)(p13;q31), + der(2)t(2;9)(p11;q11); and line II (12%): 42,XX (probably represents host contamination). The new chromosomal aberrations in the CY-resistant line I [del(3)(q36q42.1),del(4)(q42.2),?t(5;?)(q35;?), and ?t(8;?)(q24;?)] suggest a possible interrelationship between these secondary karyotypic abnormalities and acquisition of resistance to the chemotherapeutic agent.
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PMID:Comparative cytogenetic analysis between cyclophosphamide-sensitive and -resistant lines of acute myeloid leukemia in the Lewis Brown Norway hybrid rat. 226 78

Sixty patients diagnosed of acute myeloblastic leukaemia (AML) on whom a chromosomal study was performed at diagnosis were evaluated. Their median age was 43 years (range: 8-89). Normal karyotype was present in 59% of the cases, it being abnormal in the remaining 41%. Chromosomal alterations appeared in 64% of the patients with M-4 morphology, in 43% of M-5, 40% of those with M-1, 33% of the M-2, and in 14% of the cases with M-3 morphology. The two patients with M-6 had abnormal karyotype. No correlations could be established between normal or abnormal karyotype and the clinical or laboratory data. Structural alterations were commonest amongst the patients with abnormal karyotype. Such alterations included t(8; 21), t(9; 22); t(7; 22), del 11q23, inv 16 (p13;q22), plus multiple major abnormalities in the M-6 patients. A strikingly low incidence of t(15; 17) was found in the acute promyelocytic leukaemia cases. Two chromosomal alterations not previously reported in AML were found in this series, namely, inv 13 (p11;q32) and t(21;1) (q22;q22). The finding of an abnormal karyotype had no unfavourable influence on the complete remission (CR) rate, which reached 65% of the patients with normal karyotype and 81% of those with abnormal karyotype. No differences were found in the duration of CR in this connection (80 and 77 weeks, respectively). Despite the lack of definite prognostic significance, the study of the karyotype appears as an important information in the diagnosis of AML.
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PMID:[Chromosomal changes in 60 patients with acute myeloblastic leukemia. Frequency, characteristics and prognostic significance]. 229 Nov 42

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