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)

Rauscher leukemia virus RNA-directed DNA polymerase has been purified to near homogeneity (greater than 90% pure) using affinity chromatography on polycytidylate-agarose with over 85% recovery of input enzymatic activity. The purified enzyme has a molecular weight of approximately 70,000 and appears to consist of a single polypeptide chain. The enzyme is free of DNase, but has RNase H activity. Analysis of the requirements for optimal rates of DNA synthesis by this enzyme using synthetic and natural template-primers has revealed template-specific variations in such requirements. During these studies it was observed that DNA synthesis catalyzed by Rauscher leukemia virus DNA polymerase is inhibited by the addition of inorganic phosphate. An analysis of the mechanism of phosphate inhibition was carried out using the synthetic template-primer poly(A)-(dT)10. It appears that by some mechanism, possibly involving the substrate binding site of the enzyme, phosphate ions inhibit DNA synthesis with a more acute effect on the rate of chain growth than on that of initiation. The extension of these studies to DNA synthesis catalyzed by a variety of mammalian type C viral reverse transcriptases revealed that low levels ( less than or equal to 2 mM) of inorganic phosphate strongly inhibited DNA synthesis. The susceptibility to phosphate inhibition appears unique to mammalian type C viral enzymes since the type B viral enzyme, Escherichia coli DNA polymerase I, avian myeloblastosis virus and Mason Pfizer monkey tumor virus reverse transcriptase and cellular DNA polymerases alpha and gamma are not inhibited by inorganic phosphate. This phenomenon of phosphate inhibition of various DNA polymerases, therefore, provides a new basis for the differentiation of the sources and nature of these enzymes.
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PMID:Purification and properties of Rauscher leukemia virus DNA polymerase and selective inhibition of mammalian viral reverse transcriptase by inorganic phosphate. 6 68

Genome-length complementary DNA (cDNA) transcripts were synthesized in vitro by using purified virions of avian myeloblastosis virus. Moloney murine leukemia virus, and clone 124 mouse sarcoma virus. The size of the genomelenth cDNA transcripts was measured on either alkaline sucrose gradients or alkaline agarose gels. The longest cDNA transcripts synthesized by using avian myeloblastosis virus, Moloney murine leukemia virus, and clone 124 mouse sarcoma virus were 7, 9 and 6 kilobases (kb), respectively. The in vitro system used was capable of synthesizing double-stranded DNA, but the plus strands (same polarity as the viral RNA) were only 0.5 to 1.5 kb long. Lone Moloney murine leukemia virus cDNA transcripts were used as templates to synthesize the second plus strand. Essentially two strategies were employed as follows. (i) The 3' ends of the cDNA transcripts were extended by addition of 50 to 100 dAMP residues by terminal deoxynucleotidyl transferase. The (dA)n-tailed cDNA transcripts were used as templates along with an oligomer of dT as primer and Escherichia coli DNA polymerase to synthesize the plus strands. (ii) DNase-digested calf thymus DNA was used to prime the synthesis of plus strands on long cDNA with E. coli DNA polymerase I. In both cases, the synthesis of the plus strands was monitored by increased resistance of the cDNA templates to single-strand-specific S1 nuclease. The double-stranded DNA was fractionated on neutral sucrose gradients. Analysis of the double-stranded DNA synthesized by using oligo(dT) primer showed the plus strands to be about 5 to 6 kb long, whereas the plus strands synthesized by using DNase-digested calf thymus DNA primers were only 0.3 to 0.5 kb long. Double-stranded DNA synthesized by either method has an average size of 6 x 10(6) daltons. Double-stranded DNA was also synthesized by using cDNA transcripts as templates without the addition of any primers. In this case, the plus strands were covalently linked to the template strand and were not representative of the whole parent strand.
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PMID:Genome organization of RNA tumor viruses. I. In vitro synthesis of full-genome-length single-stranded and double-stranded viral DNA transcripts. 20 13

The occurrence of circulating immune complexes was investigated in 467 serum samples from 230 leukemia patients using the [(125)I]Clq-binding test. There was an increased serum [(125)I]Clq-binding activity in 40% of patients with acute myeloid leukemia, 23% with acute lymphatic leukemia, 46% in blastic crisis of chronic myeloid leukemia, 12% with chronic lymphatic leukemia, and 13% with chronic myeloid leukemia. In 48 patients, serum was also tested for soluble immune complexes by the Raji cell radioassay; the correlation between results of the two tests was significant. The Clq-binding material had properties identical with those of immune complexes. It sedimented as 14-28s material on sucrose density gradient. It contained IgG which could be dissociated at acid pH. Its Clq-binding properties could be removed after passage through anti-IgG immuno-absorbant or after a mild reduction-alkylation treatment, but were not sensitive to deoxyribonuclease treatment. Circulating immune complexes were found most commonly during the blastic stage of leukemia.Remission took place in 75.4% of patients with no detectable circulating immune complexes at the onset of acute leukemia, but in only 32.7% of those with detected complexes during this period. Median survival times of the former group of patients were more than 18 mo in acute myeloid leukemia and acute lymphatic leukemia and more than 8(1/2) mo in blastic crisis of chronic myeloid leukemia. The corresponding median survival times in the latter patient group were 64, 135, and 90 days. These findings were unrelated to prognostic features already known.
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PMID:Clinical relevance of circulating immune complexes in human leukemia. Association in acute leukemia of the presence of immune complexes with unfavorable prognosis. 26 30

Normal murine spleen cells were sensitized to syngeneic myeloid leukemia cells by RNA extracted from the lymph nodes and spleens of Hartley guinea pigs immunized with the murine leukemia cells. Sensitization mediated by RNA was an active process that required physiologic temperature and at least a 10-minute incubation. RNA extracted from unimmunized guinea pigs of guinea pigs immunized with normal spleen cells failed to sensitize the mouse spleen cells. Sensitization was specifically directed toward leukemia cells, whereas the spleen cells remained unreactive toward normal spleen or bone marrow cells. The sensitizing moiety was RNA itself inasmuch as it was inactivated by RNase and not by DNase or pronase. Preparations whose RNA patterns on sucrose density centrifugation gave evidence of degradation of the RNA did not sensitize normal spleen cells. These studies demonstrate that xenogeneic immune RNA can specifically sensitize normal spleen cells to syngeneic myeloid leukemia cells.
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PMID:Sensitization in vitro to murine myeloblastic leukemia cells by xenogeneic immune RNA. 28 68

Sera from 134 selected patients with various types of cancer were tested for soluble antigen-antibody complexes by the C1q binding method. Sera from 85 healthy blood bank donors served as normal controls. C1q binding activity (C1q BA) values above the 95th percentile for healthy subjects were found in 83% of sera from patients with neoplastic diseases. The incidence of abnormal C1q BA values among patients with malignant melanoma was 83%, with breast cancer 74%, with colon cancer 75%, with lung cancer 88%, with leukemia and lymphoma 85%, and with miscellaneous tumors 94%. High C1q BA values were found most frequently in sera of patients who had been diagnosed relatively recently (within 5 mo) and who had evident residual disease after surgical treatment. Recurrence or progression of tumor growth occurred significantly more frequently in lung cancer patients with high C1q BA. DNA was not detected in cancer patients' sera and treatment with DNase did not decrease in C1q BA. C1q BA in sera could not be explained by the presence of antiglobulin antibodies. Sucrose density gradient ultracentrifugation studies of the serum C1q BA in 4 cancer patients showed that the major binding activity was found between 19S and 7S.
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PMID:The C1q binding test for soluble immune complexes: clinical correlations obtained in patients with cancer. 32 5

An increase in the DNAase 1 activity in the serum and an increase in the DNAase inhibitor activity in the spleen in the development of virus Friend leukemia were demonstrated. Increased activity of the inhibitor in the spleen was also revealed after intravenous injection of exogenous DNAase 1 into mice. A potential role of serum DNAase 1 in the development of experimental leukemia is discussed.
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PMID:[Possible role of DNAse I in the development of experimental leukemia]. 49 83

Plasma deoxyribonuclease (E.C.3.1.4.5.) activity was measured in patients suffering from acute non-lymphoblastic leukemia, in blastic phase and in remission, and in DBA2 mice, normal and bearing L1210 leukemia. No difference in enzymic activity could be observed between normal and leukemic states in human beings and mice.
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PMID:Comparison of plasma deoxyribonuclease activity between normal and leukemic states in man and mice. 52 35

The uptake of exogenous DNA by a series of murine mammary tumor cell lines was compared with DNA uptake by normal cells and other types of transformed cells. The mammary tumor cell lines all exhibited a decreased efficiency in the transport of DNase-resistant exogenous DNA into the nuclear fraction. None of the DNA facilitators tested were able to surmount this transport defect. Normal mouse mammary gland cells, mouse embryo cells, and normal kidney cells from various species efficiently transported exogenous DNA into the nucleus. Similarly, the transport defect was not exhibited by a series of transformed cell lines, including those of mouse origin and those transformed by C-type oncornaviruses. The only exception was a murine leukemia virus-producing mouse line that displayed decreased nuclear uptake of the DNA. The nature of the exogenous DNA was apparently not a factor, since identical results were obtained with simian virus 40 and mammalian cell DNA's. The inducing agents of the mammary tumor cells also did not appear to be a factor, since cell lines derived from tumors induced spontaneously or by viral, hormonal, or chemical carcinogens all behaved similarly.
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PMID:Altered intracellular transport of exogenous DNA by murine mammary tumor cell lines. 56 55

The sizes of non-covalently linked RNA subunits isolated from highly leukaemogenic Friend virus derived from the plasma (PV, plasma virus) of leukaemic mice were compared to the RNA subunits isolated from low leukaemogenic Friend virus grown in tissue culture (TCV, tissue culture virus). Histograms derived from electron microscope measurements showed that about one-half of the plasma virus RNA was 1.4 to 2.5 micron in length, corresponding to a mol. wt. range from 1.8 X 10(6) to 3.2 X 10(6) and the other half less than 1.4 micron. In contrast, approx. 50% of the TCV RNA was only 0.7 to 1.6 micron in length (mol. wt. 0.9 X 10(6) to 2.0 X 10(6)) and the remainder less than 0.7 micron in length regardless of whether the virus RNA was isolated from 3, 9, 36 or 72 h cultures. The histograms suggest size classes for both TCV and PV derived RNA subunits. Data obtained from sucrose gradient sedimentation of heat-denatured FLV RNA agreed with the electron microscope length measurements. The smaller sizes of the TCV RNA subunits are hypothetically related to the limited biological activity of Friend leukaemia virus produced from leukaemic cells in culture. Comparable results were obtained using two different RNA extraction procedures. Contamination of TCV nucleic acid preparations by cellular DNA was observed even when the virions were harvested from short term cultures and purified by isopycnic sucrose gradient centrifugation. Consequently, preparations of intact virus were treated with DNase prior to sucrose gradient purification of the virions.
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PMID:The sizes of RNA subunits isolated from high and low leukaemogenic Friend virus. 66 Jan 64

DNA was isolated from mouse brain after in vivo gamma-ray irradiation, treated with endonuclease S1 from Aspergillus oryzae if necessary, and analysed further by alkaline and neutral sucrose gradient centrifugation. In parallel, its template activity was determined by DNA polymerase (EC 2.7.7.7, enzyme A of Klenow from Escherichia coli) assay as described previously. Similar experiments were performed with cultured mouse leukaemia cells (L5178Y) irradiated in vitro at 0 degrees C. Irradiation induced single- and double-strand breaks in the DNA of the brain with a yield of 1.0 and 0.1 break per 10(12) dalton per rad (100 eV/break and 770 eV/break), respectively. The yield of single-strand breaks in the brain was lower than that found in the cultured cells, whereas the yield of double-strand breaks was found to be almost the same in both cases. Treatment of irradiated DNA with single-strand-specific S1 endonuclease gave rise to further breaks detected on neutral sucrose gradient analysis. The yield of these breaks was also higher in the brain compared to the cultured cells. The increase per unit dose in the template activity of the DNA from the brain was found to be five times as much as that found in the cultured cells. Then, the average number of deoxyribonucleotides incorporated per break was determined on DNA which had experienced different treatments. The value for the brain DNA irradiated in vivo was found to be five times as much as that found for DNA treated with pancreatic deoxyribonuclease and 10 times as much as those found for DNA from the cultured cells and isolated brain nuclei irradiated in vitro at 0 degrees C. Thus, in vivo irradiation seemed to induce gaps with 3'-OH terminals in addition to simple breaks with or without 3'-OH terminals found in the cultured cells. Radiation-induced single-strand breaks and 3'-OH terminals in the DNA of the brain were repaired following irradiation. Approx. 20--40% of the terminals or breaks induced were, however, remaining at 3 h or more after irradiation, depending on the dose administered.
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PMID:Induction and repair of strand breaks and 3'-hydroxy terminals in the DNA of mouse brain following gamma irradiation. 71 24

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