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)

Premature chromosome condensation (PCC) has previously been observed in tissue culture and is believed to arise from asynchronous mitotic activity in multinucleated cells in which the affected nucleus is in interphase and at least one nucleus is in metaphase. Such cells have been noted following fusion induced by virus infection, spontaneously, and after treatment with cytochalasin B. The phenomenon has also been observed in malignant pleural effusions, but has not previously been described as a feature of hematologic disease. In this study, we report the observations of PCC in seven patients. Six of these patients had either acute myeloblastic leukemia or acute myelomonoblastic leukemia in association with the features of erythroleukemia, i.e., leukoerythroblastic reaction in the blood, and erythroid multinuclearity, "megaloblastoid" changes, and PAS-positive staining of erythroid precursor cells in the bone marrow. In all patients, erythroid multinuclearity has been noted. However, not all patients with erythroleukemia exhibit PCC. In this series, three additional patients have had similar bone marrow morphologic changes without PCC. The finding of PCC in erythroleukemia may have important implications as to etiology of this disorder.
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PMID:Premature chromosome condensation in human leukemia. 106 46

Friend virus infection of susceptible mice led rapidly to fulminant erythroleukemia and death. Subcutaneous implantation of leukemia spleen bits into splenectomized normal animals led to their early death from Friend leukemia. In contrast, bits of leukemic spleen implanted sc into splenectomized leukemic mice prolonged the survival of these animals. Concomitant with this survival was a reversal of the virus-induced immunosuppression and an increase in the levels of circulating, neutralizing, antivirus activity. This marked difference in response to leukemic spleen implants by leukemic as compared to normal mice reflected previous contact of the former with Friend Virus. Our studies indicated that the Friend virus-infected mouse mounted a resistance to the virus infection, which under certain conditions is capable of reversing the disease process.
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PMID:The spleen in Friend leukemia. I. Prolonged survival of leukemic mice after autoimplantation of spleen tissue. 106 38

We have reviewed erythroid cell differentiation from two points of view: 1) differences between fetal and adult human red cells with particular reference to alterations which can occur in the normal pattern of erythroid cell development during the course of leukemia; 2) beochemical events which occur during erythroid cell maturation, as a model system for the study of the control of gene expression. During the course of many leukemias there is the synthesis of red cells containing fetal hemoglobin. In most cases this phenomenon is limited to a small population or clone of red cells and probably represents a nonspecific response of the bone marrow to a hematologic stress. However, in juvenile chronic myeloid leukemia and, in rare cases of erythroleukemia, there is a major reversion to fetal erythropoiesis, with progressive increase in fetal hemoglobin levels and synthesis of red cells which contain not only fetal hemoglobin but have a true fetal pattern of protein synthesis affecting proteins other than Hb F, namely Hb A2, carbonic anhydrase and the membrane antigens i and I. In this case, the fetal erythropoiesis may be a more specific manifestation of the leukemic process and may be related to the phenomenon of fetal protein synthesis (alpha-fetoprotein of carcinoembryonic antigen) observed in other types of neoplasia. Further information on the etiology and pathogenesis of abnormal cell proliferation and differentiation in the leukemias can be obtained by the study of experimental systems permitting the investigation of the regulation of gene expression in differentiating mammalian cells. Maturing erythroid cells provide a promising system for such investigations for many reasons: differentiating erythroid cells can be obtained relatively free of other cell types; a large amount of a well characterized product, hemoglobin, is synthesized; techniques are now available that permit isolation of erythroid precursors at different stages of differentiation (5-8); and finally, highly sensitive methods of measuring globin mRNA levels by DNA-RNA hybridization are currently available (13, 26, 27). We have used such techniques to measure levels of globin mRNA in separated populations of murine erythroid cells at different stages of maturation. These studies demonstrated a correlation between globin mRNA content and degree of morphological maturation. In the least well differentiated cells, however, there appeared to be a disproportionate amount of mRNA for the level of hemoglobin synthesis in these cells. These results suggest the presence of some translational control of globin mRNA in the early stages of erythroid development, although the major control of globin gene expression in this system seems to be at the transcriptional level...
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PMID:Erythroid cell differentiation. 107 Apr 57

Studies of Rauscher virus-induced erythroleukemia have demonstrated immunodepressive effects in the host and enhanced leukemogenesis with adjuvant administration. These observations led to the study of leukemic development in the NZB strain as a natural model of the experimentally adjuvant-stimulated animal. The results of such investigation would attribute the increased susceptibility of NZB mice to the possession of an enlarged population of pluripotent hemopoietic stem cells in active cell cycle. Studies with radiation chimeras have further shown that elevated endogenous spleen colony formation, the increased potential for autoimmunity, and for susceptibility to Rauscher viral leukemogenesis are all linked through the NZB hemopoietic system. It is concluded that the presence of an enlarged compartment of cyclically active stem cells may be an etiologic factor in the susceptibility to both virus-induced leukemia and the development of autoimmune disease.
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PMID:Tumor virus effects on immunocyte precursor cells. Hemopoietic stem cell behavior and leukemogenic susceptibility. 108 86

Exposure of NIH Swiss mouse embryo fibroblasts (MEF) to infectious Friend virus (FV) complex [containing defective spleen focus-forming virus (SFFV) and endogenous NB-tropic leukemia-inducing helper virus (LLV-F)] resulted in the productive infection of these cells by both SFFV and LLV-F. Stocks of SFFV derived after extensive growth in this Swiss MEF cell culture system are fully leukemogenic in adult mice for the induction of erythroleukemia and spleen foci. In addition, in vitro-derived LLV-F, when isolated free of SFFV, is fully leukemogenic for the induction of lymphatic leukemia when inoculated into susceptible newborn BALB/c mice. The host range of in vitro-derived FV complex (i.e., FV-TC) for focus formation in vivo is NB-tropic. Unlike in vivo-derived FV complex, FV-TC does not suppress the responsiveness of murine thymocytes to concanavalin A (Con A) in vitro. Rather, FV-TC acts as a mitogen to nonspecifically stimulate the proliferation of BALB/c thymocytes. The mitogenicity of in vitro-derived FV complex is directly associated with the presence of type-C virus particles, is a heat-labile and UV-sensitive property of the virus, and may be primarily due to LLV since equivalent amounts of LLV with or without SFFV present are equally mitogenic. One in vivo passage of FV-TC resulted in the total loss of this mitogenic property with the reappearance of full immunosuppressive properties. This result demonstrates a clear association between in vivo growth of FV and its ability to suppress mouse thymocytes, and suggests that FV complex (SFFV-LLV) is not inherently immunosuppressive for these cells. While the mechanism of this interconversion between immunostimulatory and fully suppressive virus is unknown, both virus markers appear to be dependent upon the presence of infectious FV.
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PMID:Continuous replication of Friend virus complex (spleen focus-forming virus-lymphatic leukemia-inducing virus) in mouse embryo fibroblasts. Retention of leukemogenicity and loss of immunosuppressive properties. 117 91

ME26 virus, which was generated by inserting the coding region of the acute avian leukemia-inducing virus E26 into a murine retrovirus vector, encodes a 135-kDa gag-myb-ets fusion protein. Amphotropic murine leukemia virus pseudotypes of ME26 virus induce a high incidence of erythroleukemia 2 to 4 months after injection into newborn NFS/N mice. Spleen cells from the majority of these mice proliferate to high levels in the presence of the erythroid hormone erythropoietin (Epo) and can easily be established as permanent Epo-dependent cell lines. The cell lines contain multiple copies of ME26 viral DNA and express viral message and protein. An Epo receptor mRNA of normal size can be detected in these cells, and binding studies reveal a single class of lower-affinity Epo receptor with an affinity for Epo that is in the range of that previously reported for erythroid cells. The ME26 virus-induced Epo-dependent cell lines, however, appear more immature than previously described erythroid cell lines and more closely resemble early hematopoietic precursor cells, suggesting that the virus may be activating the Epo receptor in hematopoietic cells that do not normally express it. Consistent with this idea, we are able to infect an interleukin-3-dependent myeloid cell line, FDC-P2, with ME26 virus and convert it to Epo dependence. The ME26 virus-infected FDC-P2 cells, even before growth on Epo, showed a large increase in the amount of Epo receptor mRNA. However, no ME26 viral integrations can be detected adjacent to the Epo receptor gene, indicating that the virus is not activating the Epo receptor gene by promoter/enhancer insertion. Our results are more consistent with the hypothesis that the gag-myb-ets-encoded viral fusion protein, which is known to bind DNA, is directly or indirectly activating the expression of the Epo receptor gene in these cells.
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PMID:Induction of erythropoietin responsiveness in murine hematopoietic cells by the gag-myb-ets-containing ME26 virus. 130 43

Induction of erythroleukemia in mice by the replication-defective spleen focus-forming virus (SFFV) relies on the presence of a helper virus to deliver the SFFV genome to erythroid target cells. Pseudotyping studies with different ecotropic murine leukemia viruses (MuLV) have shown that SFFV pseudotyped with Akv, the endogenous ecotropic virus of AKR mice, inefficiently gives rise to virus-induced erythroid bursts (vBFU-E) in vitro and fails to cause erythroleukemia in mice when compared to SFFV pseudotyped with Friend or Moloney MuLV. In order to locate the region(s) of the Akv genome responsible for its inability to act as a helper for SFFV, six different Moloney MuLV chimeras containing Akv envelope sequence substitutions were constructed. Virions with the chimeric envelopes were used to pseudotype SFFV and the complexes were analyzed for their ability to induce vBFU-E in vitro and erythroleukemia in mice. SFFV preparations pseudotyped with three of the constructs containing chimeric envelope genes efficiently gave rise to vBFU-E as did SFFV pseudotyped with Moloney MuLV. SFFV pseudotypes generated from the other three constructs, which all share a common 304-bp region located near the center of the Akv gp70 coding region, and Akv gave rise to very few vBFU-E. However, all SFFV preparations, with the exception of SFFV pseudotyped with Akv, induced erythroleukemia in mice. The results suggest that specific sequences present in the envelope gene of Akv are responsible for the inefficiency of the virus to infect erythroid target cells for SFFV, but additional Akv sequences outside those used in this study affect the ability of the Akv/SFFV virus complex to cause erythroleukemia in mice.
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PMID:Sequences present in a small region of the AKV virus envelope gene determine the efficiency with which pseudotyped spleen focus-forming virus infects erythroid target cells. 130 73

The Moloney murine leukemia virus causes thymic leukemias when injected into newborn mice. A major genetic determinant of the thymic disease specificity of the Moloney virus genetically maps to two protein binding sites in the Moloney virus enhancer, the leukemia virus factor b site and the adjacent core site. Point mutations introduced into either of these sites significantly shifts the disease specificity of the Moloney virus from thymic leukemia to erythroleukemia (N. A. Speck, B. Renjifo, E. Golemis, T. Frederickson, J. Hartley, and N. Hopkins, Genes Dev. 4:233-242, 1990). We have purified several polypeptides that bind to the core site in the Moloney virus enhancer. These proteins were purified from calf thymus nuclear extracts by selective pH denaturation, followed by chromatography on heparin-Sepharose, nonspecific double-stranded DNA-cellulose, and core oligonucleotide-coupled affinity columns. We have achieved greater than 13,000-fold purification of the core-binding factors (CBFs), with an overall yield of approximately 19%. Analysis of purified protein fractions by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis reveals more than 10 polypeptides. Each of the polypeptides was recovered from an SDS-polyacrylamide gel, and those in the molecular size range of 19 to 35 kDa were demonstrated to have core-binding activity. The purified CBFs were shown by DNase I footprint analyses to bind the core site in the Moloney virus enhancer specifically, and also to core motifs in the enhancers from a simian immunodeficiency virus, the immunoglobulin mu chain, and T-cell receptor gamma-chain genes.
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PMID:Purification of core-binding factor, a protein that binds the conserved core site in murine leukemia virus enhancers. 130 96

The receptor for gp70 envelope glycoprotein of murine ecotropic leukemia virus is essential for virus entry into the host cell and has been recently demonstrated to function as a cationic amino acid transporter. In the experiments reported herein, we compared the gene expression of the murine ecotropic retroviral receptor (ERR) and its human homolog (H13) in rapidly proliferating cells versus resting cells using four different systems. (i) The expression of ERR gene is enhanced during activation of T and B lymphocytes by concanavalin A and lipopolysaccharide, respectively. Similar enhancement is observed by adding phorbol 12-myristate 13-acetate (PMA) or calcium ionophore (A23187). These phenomena appear to involve protein kinase C; two PMA analogs, 4 alpha-phorbol and 4 alpha-PMA, lacking the ability to activate protein kinase C fail to induce elevated levels of gene expression, and the protein kinase C inhibitor, H7 [1-(5-isoquinolinylsulfonyl)-2-methylpiperazine dihydrochloride[, inhibits the enhancement induced by PMA. (ii) Friend murine leukemia virus induces rapid splenomegaly, and acute erythroleukemia in sensitive mice. Concomitantly with splenomegaly, ERR gene expression in spleen cells increases dramatically. (iii) The level of expression of the ERR or H13 gene in a variety of tumor cells is highly elevated compared with the level in noncancerous cells. (iv) H13 gene expression decreases upon terminal differentiation of the human promyelocytic leukemia cell line HL-60 into granulocytes or macrophages by dimethyl sulfoxide or PMA, respectively. These results suggest that ERR and H13 genes play an important role in cellular proliferation.
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PMID:Enhanced gene expression of the murine ecotropic retroviral receptor and its human homolog in proliferating cells. 131 7

Enhancer duplication in the long terminal repeat of feline leukemia virus (FeLV) was examined in primary cells from naturally FeLV-infected cats with various neoplastic and nonneoplastic diseases using the polymerase chain reaction. In all cases, a 170-bp band, corresponding to a standard exogenous FeLV with one copy of enhancer, was detected. Repeated enhancer sequences were found in all 8 cases of thymic-form lymphosarcoma, in some cases of lymphosarcoma of other forms (3/8) and myeloid tumors (2/3), and in only 1 of 6 cases with nonneoplastic diseases. The copy number of FeLV proviruses with a repeated enhancer seemed higher than that of those with one copy of enhancer in 3 cases of thymic form lymphosarcoma. In 5 cases of thymic form lymphosarcoma and in 1 case of erythroleukemia, coexistent FeLVs with double and triple enhancers of different sizes were found. Of the enhancer elements, only the SV40 core binding site was found in all the enhancer direct repeats of these FeLVs. All the provirus clones with single and duplicated enhancer sequences from a single tumor showed mutations or deletions characteristic to that tumor, indicating that enhancer repeats may arise in individual animals after infection with a single virus clone. The present findings indicate that FeLV with enhancer repeats generated in the cat is associated with the induction of neoplastic diseases in natural conditions.
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PMID:Detection of enhancer repeats in the long terminal repeats of feline leukemia viruses from cats with spontaneous neoplastic and nonneoplastic diseases. 132 98

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