Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0598766 (leukemogenesis)
4,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

32D C13(G) is an interleukin 3(IL3)-dependent non-tumorigenic murine hematopoietic cell line which undergoes terminal differentiation into granulocytes when exposed to granulocytic colony stimulating factor (G-CSF). Infections of 32D C13(G) cells with either Kirsten rat sarcoma virus or Balb murine sarcoma virus, both containing a v-ras oncogene, generates clones that can permanently grow in G-CSF without differentiation. 32D-Ki-ras cells show a heterogeneous morphology ranging from the promyelocytic to the myelocytic stage of differentiation, and express high levels of both myeloperoxidase (MPO) and lactoferrin (LF) mRNA. 32D-Ha-ras cells show a more immature phenotype and express MPO but no LF mRNA. The apparent differentiation block of both 32D Ki-ras and 32D Ha ras can be reversed by treatment with the chemical inducers retinoic acid, sodium butyrate or dimethylsulphoxide, which leads to terminal differentiation into granulocytes. When 32D-Ki-ras and 32D-Ha-ras cells are cultured in medium containing IL-3 they become adherent and express some monocyte-macrophage markers. Upon prolonged exposure to IL3, 32D-Ki-ras, but not 32D-Ha-ras, resume suspension growth. Both 32D-Ki-ras and 32D-Ha-ras rapidly die if grown in chemically defined medium in the absence of any growth factor and are non-tumorigenic in immunosuppressed mice. These findings indicate that ras activation may interfere with the normal response to growth and differentiation factors in cells of the granulocytic lineage. These alterations may represent a critical, although non-sufficient, step in leukemogenesis.
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PMID:Alteration of growth and differentiation factors response by Kirsten and Harvey sarcoma viruses in the IL-3-dependent murine hematopoietic cell line 32D C13(G). 246 24

Infection of HTLV-1 during childhood may be the most probable cause of leukemogenesis of ATL. The possibility of mother to child transmission of HTLV-1 was studied. Our epidemiological investigation disclosed that almost all mothers of HTLV-1 carrier children were positive for anti-HTLV-1 antibody and children born from carrier mothers showed statistically higher positive rate for anti-HTLV-1 antibody than control groups. A large number of HTLV-1 positive lymphocytes were detected in the milk from carrier mother, but not in the cord blood from newborn babies delivered from carrier mothers. We inoculated the fresh milk collected from carrier mothers into the oral cavity of a common marmoset to prove the oral infection. The marmoset was found to be seroconverted and viral antigen expression was detected in short term cultures of its peripheral T lymphocytes. These results suggest that we can prevent the transmission of HTLV-1 by prohibiting the breast-fed [corrected] by carrier mother. We have so far followed up 55 children born from carrier mothers but fed with compound milk only. None of the children in this group became a carrier of HTLV-1, whereas breast-fed group was found to have higher incidence of sero-positivity for HTLV-1. Therefore the trial prevention of HTLV-1 transmission is now undertaken in Nagasaki district.
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PMID:[Mother to child transmission of human T cell leukemia virus type-1]. 251 96

Infection of BALB/c mice with the Friend leukemia complex (FLC) or its helper F-MuLV produced no major changes of IL 1 production and responsiveness but caused profound derangements of IL 2 homeostasis. IL 2 production by spleen cells was severely decreased from the early stages postinfection (pi). By Day 8 the effects of the two viral preparations were similar. Reminiscent of the kinetics of immunosuppression produced by the two viruses, subsequently the effects diverged: in the case of FLC, IL 2 accumulation became progressively lower, while F-MuLV-infected spleen cells produced approximately half the normal levels of IL 2 irrespective of time pi. At Day 8 pi unstimulated spleen cells absorbed enhanced amounts of IL 2, but failed to proliferate in response to it. Unfractionated and adherent spleen cells from infected mice (but not cell-free virus or culture fluids) inhibited the proliferative response of CTLL-2 cells to IL 2, suggesting a "suppressor" function for infected macrophages. Exogenous IL 2 failed to bring in vitro antigen or mitogen responsiveness of infected spleen cells to the levels seen with control cells and did not affect FLC-induced leukemogenesis in vivo.
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PMID:Interleukins 1 and 2 production and responsiveness in the early stages of retroviral infections of mice. 253 65

The hematopoietic disregulation in adult mice induced by the malignant histiocytosis sarcoma virus (MHSV) and the Harvey murine sarcoma virus (Ha-MuSV), which both possess c-Ha-ras-related oncogenic sequences, was investigated. Spleen focus formation induced by MHSV and Ha-MuSV was not restricted by the Fv-2 resistance locus in congenic DDD and C57BL/6 mice, unlike leukemogenesis induced by Friend virus, Rauscher virus, and the myeloproliferative sarcoma virus (MPSV). C57BL/6 mice were much more resistant to MHSV and Ha-MuSV-induced spleen focus formation than DDD mice regardless of their Fv-2 state. Infection of DDD mice with MHSV caused a systemic histiocytic neoplasia, best described as murine malignant histiocytosis. Transformed histiocytic cells proliferated excessively in the bone marrow, spleen, and lymph nodes and, in the final stages of the disease, in all major parenchymal organs. The Ha-MuSV caused a strikingly different benign histiocytic tumor in DDD mice and, unlike MHSV, did not induce a rapid, progressive splenomegaly in C57BL/6 mice. Infection of DDD mice with MHSV induced a rapid and synchronized depletion of early and late erythroid precursor cell pools. In MHSV-infected C57BL/6 mice comparable changes were observed with dissimilar kinetics. Macrophage colony-forming cells of MHSV-infected mice were increased in number and proliferated independently of stimulating growth factors. The disease induced by MHSV in mice can thus serve as a model for malignant histiocytosis in humans.
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PMID:Murine retrovirus-induced malignant histiocytosis, an experimental model for the disease in humans. 282 12

Infection of mice with Moloney murine leukemia virus (M-MuLV) as well as with a nonpathogenic variant, Mo+PyF101 M-MuLV, was studied. Mo+PyF101 M-MuLV differs from wild-type M-MuLV by the addition of enhancer sequences from polyomavirus in the long terminal repeat. Previous experiments indicated that Mo+PyF101 establishes infection in animals, even though it does not induce disease. In vivo infection studies with particular attention to the thymus were performed, since the thymus is the target organ for M-MuLV leukemogenesis. Mice inoculated at birth with wild-type M-MuLV developed maximal levels of thymic infection by 2 to 3 weeks. Animals inoculated with Mo+PyF101 M-MuLV showed considerably less thymic infection at early times (2 to 4 weeks); nevertheless, by 5 to 6 weeks infection equivalent to wild-type M-MuLV-inoculated animals developed. Therefore the nonpathogenicity of Mo+PyF101 M-MuLV did not simply reflect a lack of thymotropism. Furthermore, thymic infection by itself may not be sufficient to induce leukemia. The relative deficit of Mo+PyF101 M-MuLV thymic infection at early versus late times did not reflect a change in the nature of the cells in the thymus, since in vitro infection of primary thymocytes from 2- and 6-week-old animals was equally efficient. One possible explanation is that infected thymocytes normally arise from progenitor cells which were infected in the bone marrow or spleen, and the cells restricted for Mo+PyF101 M-MuLV are located in those organs. Comparison of wild-type and Mo+PyF101 M-MuLV also allowed identification of important preleukemic changes in the thymus of wild-type M-MuLV-inoculated mice. Flow cytometry with monoclonal antibodies specific for thymocyte subpopulations was used. Staining of cells for Thy-1 or Thy-1.2 antigens indicated a shift toward low or negative cells. A concomitant increase in cells positive for antigen Pgp-1 was also observed. This is consistent with an increase in the relative frequency of immature blastlike cells. Importantly, thymuses from mice inoculated with Mo+PyF101 M-MuLV did not show these shifts in thymocyte subpopulations.
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PMID:Effects of nonleukemogenic and wild-type Moloney murine leukemia virus on lymphoid cells in vivo: identification of a preleukemic shift in thymocyte subpopulations. 349 May 80

A helper-independent Friend leukemia virus was used to infect bone marrow cultures. This virus induces myeloblastic leukemia in mice after a long latency period. Infection of the bone marrow cultures resulted in the in vitro production of myeloblastic leukemogenesis after a long latency period. Three steps were observed in the evolution of the infected cultures, and permanent cell lines were derived at each step. This allowed us to individualize three successive events in the course of the myeloblastic transformation: (i) an abnormal responsiveness to the physiological hormone granulo-macrophagic colony-stimulating factor, (ii) the acquisition of growth autonomy, and (iii) the acquisition of in vivo tumorigenicity.
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PMID:Multistep virus-induced leukemogenesis in vitro: description of a model specifying three steps within the myeloblastic malignant process. 658 94

Infection of human or murine cells with murine leukemia viruses rapidly increases the expression of a number of genes that belong to the immunoglobulin superfamily and are involved in T-lymphocyte activation, including the class I major histocompatibility complex antigens. We have reported recently that the long terminal repeat (LTR) of Moloney murine leukemia virus encodes a trans activator which induces transcription and expression of class I major histocompatibility complex genes and certain cytokine genes. The portion of the LTR responsible for trans activation was mapped by deletions to lie within the U3 region. We demonstrate here that a transcript is initiated within the U3 region and that its presence correlates with the trans-activating activity. Analysis of the LTR region reveals a potential internal promoter element for RNA polymerase III transcription within the U3 region. Studies with polymerase inhibitors suggest that this LTR transcript, designated let (LTR-encoded trans activator), is a product of RNA polymerase III. The mechanisms whereby RNA leukemia viruses cause lymphoid neoplasia after a long latent period have been extensively studied but are only partially understood. The region of the LTR identified here as being important in trans activation has recently been shown to be a critical determinant of the leukemogenicity and latency of Moloney murine leukemia virus. These findings suggest a novel mechanism of retrovirus-induced activation of cellular gene expression, potentially contributing to leukemogenesis.
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PMID:A transcript from the long terminal repeats of a murine retrovirus associated with trans activation of cellular genes. 747 25

Type C RNA leukemia viruses cause lymphoid neoplasia after an extended latent period by an unknown mechanism. Infection of human or murine cells with murine leukemia viruses rapidly increases the expression of genes belonging to the immunoglobulin superfamily and involved in T-lymphocyte activation, including the class I major histocompatibility complex antigens. We report here that the long terminal repeat (LTR) of Moloney murine leukemia virus encodes a novel trans-activator, which induces transcription and expression of class I major histocompatibility complex genes. The portion of the LTR responsible for trans-activation lies within the U3 region and can be excised from the LTR while maintaining its activity. Analysis of the U3 region of the LTR and its flanking sequences suggests that functional or regulatory elements for the trans-activity exist between nucleotides 32 and 219 of the LTR sequences. The region of the LTR identified here as important in trans-activation has been shown recently to be a critical determinant of leukemogenicity and latency of Moloney murine leukemia virus. These findings suggest a novel mechanism of retrovirus-induced activation of cellular gene expression, potentially contributing to leukemogenesis.
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PMID:The long terminal repeats of a murine retrovirus encode a trans-activator for cellular genes. 805 Oct 46

Mixed retroviral infections frequently exhibit pseudotyping, in which the genome of one virus is packaged in a virion containing SU proteins encoded by another virus. Infection of mice by Moloney murine leukemia virus (M-MuLV), which induces lymphocytic leukemia, results in a mixed viral infection composed of the inoculated ecotropic M-MuLV and polytropic MuLVs generated by recombination of M-MuLV with endogenous retroviral sequences. In this report, we describe pseudotyping which occurred among the polytropic and ecotropic MuLVs in M-MuLV-infected mice. Infectious center assays of polytropic MuLVs released from splenocytes or thymocytes of infected mice revealed that polytropic MuLVs were extensively pseudotyped within ecotropic virions. Late in the preleukemic stage, a dramatic change in the extent of pseudotyping occurred in thymuses. Starting at about 5 weeks, there was an abrupt increase in the number of thymocytes that released nonpseudotyped polytropic viruses. A parallel increase in thymocytes that released ecotropic M-MuLV packaged within polytropic virions was also observed. Analyses of the clonality of preleukemic thymuses and thymomas suggested that the change in pseudotyping characteristics was not the result of the emergence of tumor cells. Examination of mice infected with M-MuLV, Friend erythroleukemia virus, and a Friend erythroleukemia virus-M-MuLV chimeric virus suggested that the appearance of polytropic virions late in the preleukemic stage correlated with the induction of lymphocytic leukemia. We discuss different ways in which pseudotypic mixing may facilitate leukemogenesis, including a model in which the kinetics of thymic infection, modulated by pseudotyping and viral interference, facilitates a stepwise mechanism of leukemogenesis.
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PMID:A multistep process of leukemogenesis in Moloney murine leukemia virus-infected mice that is modulated by retroviral pseudotyping and interference. 864 21

Infection of T-cells by human T-cell leukemia virus type 1 (HTLV-1) causes a lymphoproliferative malignancy known as adult T-cell leukemia (ATL). ATL is characterized by abnormal lymphocytes, called flower cells, which have cleaved and convoluted nuclei. Tax, encoded by the HTLV-1 pX region, is a critical nonstructural protein that plays a central role in leukemogenesis; however, the mechanisms of HTLV-1 oncogenesis have not been clarified fully. In this review, we summarize current thinking on how Tax may affect ATL leukemogenesis.
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PMID:Human T-cell leukemia virus type 1 Tax and cellular transformation. 1787 21


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