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      Multi-stage Friend murine erythroleukemia: molecular insights into oncogenic cooperation

      review-article
      1 , 2 ,
      Retrovirology
      BioMed Central

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          Abstract

          The Friend virus SFFV (Spleen Focus Forming Virus) provokes an acute erythroblastosis in susceptible strains of mice that progresses to overt erythroleukemia by a multi-step process. For virologists, the Friend virus-induced disease has provided deep insights into the host mechanisms influencing susceptibility to retroviral infection and viremia. These insights have contributed to the understanding of HIV and other human retroviral infections. For cell biologists and oncologists, this leukemia has been a powerful experimental model to identify critical oncogenes involved in a multi-stage process, to understand the contribution of host genes to cancer development, and to investigate the mechanisms leading to cell growth autonomy. This model also provided an example of oncogenic reversion since Friend tumor cells can reinitiate their erythroid differentiation program when exposed in vitro to some chemical inducers. This review highlights recent findings demonstrating that the leukemic progression depends on the cooperation of at least two oncogenic events, one interfering with differentiation and one conferring a proliferative advantage. The Friend model of leukemia progression recapitulates the two phases of human acute myeloid leukemia (AML). Coupling of insights from studies on the Friend erythroleukemia with knowledge on AML might allow a better understanding of the molecular mechanisms involved in the evolution of leukemia in mice and men.

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          Human T-cell leukaemia virus type 1 (HTLV-1) infectivity and cellular transformation.

          It has been 30 years since a 'new' leukaemia termed adult T-cell leukaemia (ATL) was described in Japan, and more than 25 years since the isolation of the retrovirus, human T-cell leukaemia virus type 1 (HTLV-1), that causes this disease. We discuss HTLV-1 infectivity and how the HTLV-1 Tax oncoprotein initiates transformation by creating a cellular environment favouring aneuploidy and clastogenic DNA damage. We also explore the contribution of a newly discovered protein and RNA on the HTLV-1 minus strand, HTLV-1 basic leucine zipper factor (HBZ), to the maintenance of virus-induced leukaemia.
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            Targeted disruption of the PU.1 gene results in multiple hematopoietic abnormalities.

            PU.1 is a member of the ets family of transcription factors and is expressed exclusively in cells of the hematopoietic lineage. Mice homozygous for a disruption in the PU.1 DNA binding domain are born alive but die of severe septicemia within 48 h. The analysis of these neonates revealed a lack of mature macrophages, neutrophils, B cells and T cells, although erythrocytes and megakaryocytes were present. The absence of lymphoid commitment and development in null mice was not absolute, since mice maintained on antibiotics began to develop normal appearing T cells 3-5 days after birth. In contrast, mature B cells remained undetectable in these older mice. Within the myeloid lineage, despite a lack of macrophages in the older antibiotic-treated animals, a few cells with the characteristics of neutrophils began to appear by day 3. While the PU.1 protein appears not to be essential for myeloid and lymphoid lineage commitment, it is absolutely required for the normal differentiation of B cells and macrophages.
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              HIV-1 Vif protein binds the editing enzyme APOBEC3G and induces its degradation.

              The viral infectivity factor (Vif) encoded by HIV-1 neutralizes a potent antiviral pathway that occurs in human T lymphocytes and several leukemic T-cell lines termed nonpermissive, but not in other cells termed permissive. In the absence of Vif, this antiviral pathway efficiently inactivates HIV-1. It was recently reported that APOBEC3G (also known as CEM-15), a cytidine deaminase nucleic acid-editing enzyme, confers this antiviral phenotype on permissive cells. Here we describe evidence that Vif binds APOBEC3G and induces its rapid degradation, thus eliminating it from cells and preventing its incorporation into HIV-1 virions. Studies of Vif mutants imply that it contains two domains, one that binds APOBEC3G and another with a conserved SLQ(Y/F)LA motif that mediates APOBEC3G degradation by a proteasome-dependent pathway. These results provide promising approaches for drug discovery.
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                Author and article information

                Journal
                Retrovirology
                Retrovirology
                BioMed Central
                1742-4690
                2008
                4 November 2008
                : 5
                : 99
                Affiliations
                [1 ]Inserm U830, 26 rue d'Ulm, 75248 Paris cedex 05, France
                [2 ]Institut Curie, 26 rue d'Ulm, 75248 Paris cedex 05, France
                Article
                1742-4690-5-99
                10.1186/1742-4690-5-99
                2585586
                18983647
                11adbc86-c369-453e-ad35-d67d14a3460c
                Copyright © 2008 Moreau-Gachelin; licensee BioMed Central Ltd.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 2 October 2008
                : 4 November 2008
                Categories
                Review

                Microbiology & Virology
                Microbiology & Virology

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