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References

  • Altavilla, G., Trabanelli, C., Merlin, M., Caputo, A., Lanfredi, M., Barbanti-Brodano, G. & Corallini, A. (1999) Morphological, histochemical, immunohistochemical and ultrastructural characterization of tumors and dysplastic and neoplastic lesions arising in BK virus/Tat transgenic mice. American Journal of Pathology, 154, 12311244.
  • Angel, P. & Karin, M. (1991) The role of June, Fos and the AP1 complex in cell-proliferation and transformation. Biochemical and Biophyisical Acta, 1072, 129157.
  • Borgatti, P., Zauli, G., Colamussi, M.L., Gibellini, D., Previati, M., Cantley, L. & Capitani, S. (1997) Extracellular HIV-1 Tat protein activates phosphatidylinositol 3- and Akt/PKB kinases in CD4+ T lymphoblastoid Jurkat cells. European Journal of Immunology, 27, 28052811.
  • Cahill, M.A., Jancknecht, R. & Nordheim, A. (1995) Signal uptake by c-Fos serum response element. In: Inducible gene expression, Vol. 1, (ed. by E.D.Baeuerle) pp. 3972. Birkhauser, Boston.
  • Cullen, B.R. (1993) Does HIV-1 Tat induce a change in viral initiation rights ? Cell, 73, 417420.
  • Demarchi, F., D'Adda Di Fagagna, A., Falaschi, A. & Giacca, M. (1996) Activation of transcription factor NF-κB by the Tat protein of human immunodeficiency virus type 1. Journal of Virology, 70, 44274437.
  • Deschamps, J., Meijlink, F. & Verma, I.M. (1985) Identification of a transcriptional enhancer element upstream from the proto-oncogene fos. Science, 230, 11741177.
  • Dingwall, C., Ernberg, I., Gait, M.J., Green, S.M., Heaphy, S., Karn, J., Lowe, A.D., Singh, M., Skinner, M.A. & Valerio, R. (1989) HIV-1 tat protein binds transactivation-response region (TAR) in vitro. Proceedings of the National Academy of Sciences of the United States of America, 86, 69256929.
  • Ensoli, B., Buonaguro, L., Barillari, G., Fiorelli, V., Gendelman, R., Morgan, R.A., Wingfield, P. & Gallo, R.C. (1993) Release, uptake and effects of extracellular human immunodeficiency virus type 1 Tat protein on cell growth and viral transactivation. Journal of Virology, 67, 277287.
  • Feng, S. & Holland, E.C. (1988) HIV-1 tat trans-activation requires the loop sequence within TAR. Nature, 334, 165167.
  • Frankel, A.D. & Pabo, C.O. (1988) Cellular uptake of the Tat protein from human immunodeficiency virus. Cell, 55, 11891193.
  • Gallo, R.C. (1999) Tat as one key to HIV-induced immune pathogenesis and Tat toxoid as an important component of a vaccine. Proceedings of the National Academy of Sciences of the United States of America, 96, 83248327.
  • Gibellini, D., Caputo, A., Celeghini, C., Bassini, A., La Placa, M., Capitani, S. & Zauli, G. (1995) Tat-expressing Jurkat cells show an increased resistance to different apoptotic stimuli, including acute human immunodeficiency virus-type 1 (HIV-1) infection. British Journal of Haematology, 89, 2433.
  • Gibellini, D., Caputo, A., Capitani, S., La Placa, M. & Zauli, G. (1997) Upregulation of c-fos in activated T lymphoid and monocytic cells by human immunodeficiency virus 1 Tat protein. Blood, 89, 16541664.
  • Gibellini, D., Bassini, A., Pierpaoli, S., Bertolaso, L., Milani, D., La Placa, M. & Zauli, G. (1998) Extracellular HIV-1 Tat protein induces the rapid Ser133 phosphorylation and activation of CREB transcription factor in both Jurkat lymphoblastoid T cells and primary PBMC. Journal of Immunology, 160, 38913898.
  • Ginty, D.D., Bonni, A. & Greenberg, M.E. (1994) Nerve growth factor activates a Ras-dependent protein kinase that stimulates c-fos transcription via phosphorylation of CREB. Cell, 77, 713725.
  • Gorman, C.M., Moffat, L.F. & Howard, B.H. (1982) Recombinant genomes which express chloramphenicol acetyltransferase in mammalian cells. Molecular and Cell Biology, 9, 1982.
  • Jones, K.A. & Peterlin, B.M. (1994) Control of RNA initiation and elongation at the HIV-1 promoter. Annual Review of Biochemistry, 63, 717743.
  • Karin, M., Liu, Z. & Zandi, E. (1997) AP-1 function and regulation. Current Opinion in Cell Biology, 9, 240246.
  • Kastan, M.B., Stone, K.D. & Civin, C.I. (1989) Nuclear oncoprotein expression as a function of lineage, differentiation stage, and proliferative status of normal human hematopoietic cells. Blood, 74, 15171524.
  • Kumar, A., Manna, S.K., Dhawan, S. & Aggarwal, B.B. (1998) HIV-1 protein Tat activates c-jun N terminal kinase and activator protein 1. Journal of Immunology, 158, 776781.
  • Lalli, E., Gibellini, D., Santi, S. & Facchini, A. (1992) In situ hybridization in suspension and flow cytometry as a tool for the study of gene expression. Analytical Biochemistry, 207, 298303.
  • Li, C.J., Friedman, D.J., Wang, C., Metelev, V. & Pardee, A.B. (1995) Induction of apoptosis in uninfected lymphocytes by HIV-1 Tat protein. Science, 268, 229231.
  • Li, C.J., Ueda, Y., Shi, B., Borodyansky, L., Huang, L., Li, Y.Z. & Pardee, A.B. (1997) Tat protein induces self-perpetuating permissivity for productive HIV-1 infection. Proceedings of the National Academy of Sciences of the United States of America, 94, 81168120.
  • Mann, D.A. & Frankel, A.D. (1991) Endocytosis and targeting of exogenous HIV-1 Tat protein. EMBO Journal, 10, 17331739.
  • Marciniak, R.A. & Sharp, P.A. (1991) HIV-1 tat protein promotes formation of more processive elongation complexes. EMBO Journal, 10, 41894196.
  • McCloskey, T.W., Ott, M., Tribble, E., Khan, S.A., Teichberg, S., Paul, M.O., Pahwa, S., Verdin, E. & Chirmule, N. (1997) Dual role of HIV Tat in regulation of apoptosis in T cells. Journal of Immunology, 158, 10141022.
  • Ott, M., Emiliani, S., Van Lint, C., Herbein, G., Lovett, J., Chirmule, N., McCloskey, T., Pahwa, S. & Verdin, E. (1997) Immune hyperactivation of HIV-1-infected T cells mediated by Tat and the CD28 pathway. Science, 275, 14811485.DOI: 10.1126/science.275.5305.1481
  • Sassone-Corsi, P., Lamph, W.W. & Verma, I.M. (1988) Regulation of proto-oncogene fos: a paradigm for early response genes. Cold Spring Harbour Symphosia, 53, 749760.
  • Secchiero, P., Zella, D., Curreli, S., Mirandola, P., Capitani, S., Gallo, R.C. & Zauli, G. (2000) Engagement of CD28 modulates CXC chemokine receptor 4 surface expression in both resting and CD3-stimulated CD4+ T cells. Journal of Immunology, 164, 40184024.
  • Van Straaten, F., Muller, R., Curran, T., Van Beveren, C. & Verma, I.M. (1983) Complete nucleotide sequence of human c-oncogene: deduced aminoacid sequence of the human c-fos protein. Proceedings of the National Academy of Sciences of theUnited States of America, 80, 31833187.
  • Vellutini, C., Horschowski, N., Philippon, V., Gambarelli, D., Nave, K.A. & Filippi, P. (1995) Development of lymphoid hyperplasia in transgenic mice expressing the HIV tat gene. AIDS Research and Human Retroviruses, 11, 2129.
  • Westendorp, M.O., Li-Weber, M.R.W., Frank, R.W. & Krammer, P.H. (1994) Human immunodeficiency virus type 1 Tat upregulates interleukin-2 secretion in activated T cells. Journal of Virology, 68, 41774185.
  • Westendorp, M.O., Frank, R., Ochsenbauer, C., Stricker, K., Dhein, J., Walczak, H., Debatin, K.M. & Krammer, P.H. (1995) Sensitization of T cells to CD95-mediated apoptosis by HIV-1 Tat and gp120. Nature, 375, 497500.
  • Zauli, G. & Gibellini, D. (1996) The human immunodeficiency virus type 1 (HIV-1) Tat protein and Bcl-2 gene expression. Leukemia and Lymphoma, 23, 551560.
  • Zauli, G., La Placa, M., Vignoli, M., Re, M.C., Gibellini, D., Furlini, G., Milani, D., Marchisio, M., Mazzoni, M. & Capitani, S. (1995) An autocrine loop of HIV type-1 Tat protein responsible for the improved survival/proliferation capacity of permanently Tat-transfected cells and required for optimal HIV-1 LTR transactivating activity. Journal of AIDS and Human Retrovirology, 10, 306316.
  • Zauli, G., Gibellini, D., Celeghini, C., Mischiati, C., Bassini, A., Capitani, S. & La Placa, M. (1996) Pleiotropic effects of immobilized versus soluble recombinant HIV-1 Tat protein on CD3-mediated activation induction of apoptosis and HIV-1 LTR transactivation in purified CD4+ T lymphocytes. Journal of Immunology, 157, 22162224.