GD2 ganglioside on human T-lymphotropic virus type I-infected T cells: possible activation of beta-1,4-N-acetylgalactosaminyltransferase gene by p40tax

K Furukawa; T Akagi; Y Nagata; Y Yamada; K Shimotohno; N K Cheung; H Shiku; K Furukawa

doi:10.1073/pnas.90.5.1972

. 1993 Mar 1;90(5):1972–1976. doi: 10.1073/pnas.90.5.1972

GD2 ganglioside on human T-lymphotropic virus type I-infected T cells: possible activation of beta-1,4-N-acetylgalactosaminyltransferase gene by p40tax.

K Furukawa ¹, T Akagi ¹, Y Nagata ¹, Y Yamada ¹, K Shimotohno ¹, N K Cheung ¹, H Shiku ¹, K Furukawa ¹

PMCID: PMC46002 PMID: 8095337

Abstract

Ganglioside expression on adult T-cell leukemia (ATL) and human T-cell lymphotropic virus type I (HTLV-I)-infected cells was determined by using a panel of monoclonal antibodies. ATL lines and HTLV-I-infected cells specifically expressed GD2. Leukemia cells from ATL patients generally expressed low levels of GD2 but the percentage of GD2+ cells increased up to 40-70% after in vitro culture in the presence of interleukin 2 for about a week. No other type of leukemia cells and normal peripheral T cells expressed GD2 during in vitro culture under the same conditions. The appearance of GD2 in the cultured ATL cells corresponded with the expression of p40tax, a product of the HTLV-I gene. Peripheral lymphocytes infected with a p40tax-expressing retroviral vector expressed high levels of GD2 in comparison with control lymphocytes containing the neomycin-resistance gene alone. The apparently increased levels of beta-1,4-N-acetylgalactosaminyltransferase (GM2/GD2 synthase) mRNA in these cells were demonstrated by reverse transcription-polymerase chain reaction analysis. Concordance between mRNA expression for the HTLV-I tax1/rex1 genes and the beta-1,4-N-acetylgalactosaminyltransferase gene was also observed in uncultured ATL cells. These results suggest that high GD2 expression was due to neosynthesis from precursor GD3 by increased expression of this enzyme induced by p40tax in vitro and in vivo.

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Selected References

These references are in PubMed. This may not be the complete list of references from this article.

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[OCR_00684] Adachi M., Hayami M., Kashiwagi N., Mizuta T., Ohta Y., Gill M. J., Matheson D. S., Tamaoki T., Shiozawa C., Hakomori S. Expression of Ley antigen in human immunodeficiency virus-infected human T cell lines and in peripheral lymphocytes of patients with acquired immune deficiency syndrome (AIDS) and AIDS-related complex (ARC). J Exp Med. 1988 Feb 1;167(2):323–331. doi: 10.1084/jem.167.2.323. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00750] Akagi T., Nyunoya H., Shimotohno K. Murine retroviral vectors expressing the tax1 gene of human T-cell leukemia virus type 1. Gene. 1991 Oct 15;106(2):255–259. doi: 10.1016/0378-1119(91)90207-r. [DOI] [PubMed] [Google Scholar]

[OCR_00808] Cheresh D. A., Pierschbacher M. D., Herzig M. A., Mujoo K. Disialogangliosides GD2 and GD3 are involved in the attachment of human melanoma and neuroblastoma cells to extracellular matrix proteins. J Cell Biol. 1986 Mar;102(3):688–696. doi: 10.1083/jcb.102.3.688. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00717] Cheung N. K., Saarinen U. M., Neely J. E., Landmeier B., Donovan D., Coccia P. F. Monoclonal antibodies to a glycolipid antigen on human neuroblastoma cells. Cancer Res. 1985 Jun;45(6):2642–2649. [PubMed] [Google Scholar]

[OCR_00785] Fujii M., Sassone-Corsi P., Verma I. M. c-fos promoter trans-activation by the tax1 protein of human T-cell leukemia virus type I. Proc Natl Acad Sci U S A. 1988 Nov;85(22):8526–8530. doi: 10.1073/pnas.85.22.8526. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00762] Furukawa K., Furukawa K., Shiku H. Alternatively spliced mRNA of the pX region of human T lymphotropic virus type I proviral genome. FEBS Lett. 1991 Dec 16;295(1-3):141–145. doi: 10.1016/0014-5793(91)81404-v. [DOI] [PubMed] [Google Scholar]

[OCR_00754] Gallo R., Wong-Staal F., Montagnier L., Haseltine W. A., Yoshida M. HIV/HTLV gene nomenclature. Nature. 1988 Jun 9;333(6173):504–504. doi: 10.1038/333504a0. [DOI] [PubMed] [Google Scholar]

[OCR_00708] Gotoh Y. I., Sugamura K., Hinuma Y. Healthy carriers of a human retrovirus, adult T-cell leukemia virus (ATLV): demonstration by clonal culture of ATLV-carrying T cells from peripheral blood. Proc Natl Acad Sci U S A. 1982 Aug;79(15):4780–4782. doi: 10.1073/pnas.79.15.4780. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00654] Hakomori S., Kannagi R. Glycosphingolipids as tumor-associated and differentiation markers. J Natl Cancer Inst. 1983 Aug;71(2):231–251. [PubMed] [Google Scholar]

[OCR_00770] Hersey P., Schibeci S. D., Townsend P., Burns C., Cheresh D. A. Potentiation of lymphocyte responses by monoclonal antibodies to the ganglioside GD3. Cancer Res. 1986 Dec;46(12 Pt 1):6083–6090. [PubMed] [Google Scholar]

[OCR_00732] Hirabayashi Y., Hamaoka A., Matsumoto M., Matsubara T., Tagawa M., Wakabayashi S., Taniguchi M. Syngeneic monoclonal antibody against melanoma antigen with interspecies cross-reactivity recognizes GM3, a prominent ganglioside of B16 melanoma. J Biol Chem. 1985 Oct 25;260(24):13328–13333. [PubMed] [Google Scholar]

[OCR_00694] Kuriyama M., Nomura K., Tara M., Matsubara H., Igata A. Glycosphingolipids of leukemic cells in adult T-cell leukemia-lymphoma. Biochim Biophys Acta. 1985 May 17;834(3):396–401. [PubMed] [Google Scholar]

[OCR_00742] Lee B., Tanaka Y., Tozawa H. Monoclonal antibody defining tax protein of human T-cell leukemia virus type-I. Tohoku J Exp Med. 1989 Jan;157(1):1–11. doi: 10.1620/tjem.157.1. [DOI] [PubMed] [Google Scholar]

[OCR_00678] Merritt W. D., Casper J. T., Lauer S. J., Reaman G. H. Expression of GD3 ganglioside in childhood T-cell lymphoblastic malignancies. Cancer Res. 1987 Mar 15;47(6):1724–1730. [PubMed] [Google Scholar]

[OCR_00779] Miyatake S., Seiki M., Malefijt R. D., Heike T., Fujisawa J., Takebe Y., Nishida J., Shlomai J., Yokota T., Yoshida M. Activation of T cell-derived lymphokine genes in T cells and fibroblasts: effects of human T cell leukemia virus type I p40x protein and bovine papilloma virus encoded E2 protein. Nucleic Acids Res. 1988 Jul 25;16(14A):6547–6566. doi: 10.1093/nar/16.14.6547. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00703] Miyoshi I., Kubonishi I., Yoshimoto S., Akagi T., Ohtsuki Y., Shiraishi Y., Nagata K., Hinuma Y. Type C virus particles in a cord T-cell line derived by co-cultivating normal human cord leukocytes and human leukaemic T cells. Nature. 1981 Dec 24;294(5843):770–771. doi: 10.1038/294770a0. [DOI] [PubMed] [Google Scholar]

[OCR_00758] Nagata Y., Yamashiro S., Yodoi J., Lloyd K. O., Shiku H., Furukawa K. Expression cloning of beta 1,4 N-acetylgalactosaminyltransferase cDNAs that determine the expression of GM2 and GD2 gangliosides. J Biol Chem. 1992 Jun 15;267(17):12082–12089. [PubMed] [Google Scholar]

[OCR_00712] Naoe T., Akao Y., Yamada K., Utsumi K. R., Koike K., Shamoto M., Koie K., Kurosawa Y., Kato K., Abe M. Cytogenetic characterization of a T-cell line, ATN-1, derived from adult T-cell leukemia cells. Cancer Genet Cytogenet. 1988 Aug;34(1):77–88. doi: 10.1016/0165-4608(88)90171-9. [DOI] [PubMed] [Google Scholar]

[OCR_00727] Natoli E. J., Jr, Livingston P. O., Pukel C. S., Lloyd K. O., Wiegandt H., Szalay J., Oettgen H. F., Old L. J. A murine monoclonal antibody detecting N-acetyl- and N-glycolyl-GM2: characterization of cell surface reactivity. Cancer Res. 1986 Aug;46(8):4116–4120. [PubMed] [Google Scholar]

[OCR_00667] Nudelman E., Kannagi R., Hakomori S., Parsons M., Lipinski M., Wiels J., Fellous M., Tursz T. A glycolipid antigen associated with Burkitt lymphoma defined by a monoclonal antibody. Science. 1983 Apr 29;220(4596):509–511. doi: 10.1126/science.6836295. [DOI] [PubMed] [Google Scholar]

[OCR_00689] Poiesz B. J., Ruscetti F. W., Gazdar A. F., Bunn P. A., Minna J. D., Gallo R. C. Detection and isolation of type C retrovirus particles from fresh and cultured lymphocytes of a patient with cutaneous T-cell lymphoma. Proc Natl Acad Sci U S A. 1980 Dec;77(12):7415–7419. doi: 10.1073/pnas.77.12.7415. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00722] Pukel C. S., Lloyd K. O., Travassos L. R., Dippold W. G., Oettgen H. F., Old L. J. GD3, a prominent ganglioside of human melanoma. Detection and characterisation by mouse monoclonal antibody. J Exp Med. 1982 Apr 1;155(4):1133–1147. doi: 10.1084/jem.155.4.1133. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00672] SVENNERHOLM L. CHROMATOGRAPHIC SEPARATION OF HUMAN BRAIN GANGLIOSIDES. J Neurochem. 1963 Sep;10:613–623. doi: 10.1111/j.1471-4159.1963.tb08933.x. [DOI] [PubMed] [Google Scholar]

[OCR_00674] Siddiqui B., Buehler J., DeGregorio M. W., Macher B. A. Differential expression of ganglioside GD3 by human leukocytes and leukemia cells. Cancer Res. 1984 Nov;44(11):5262–5265. [PubMed] [Google Scholar]

[OCR_00698] Suzuki Y., Hirabayashi Y., Matsumoto N., Kato H., Hidari K., Tsuchiya K., Matsumoto M., Hoshino H., Tozawa H., Miwa M. Aberrant expression of ganglioside and asialoglycosphingolipid antigens in adult T-cell leukemia cells. Jpn J Cancer Res. 1987 Oct;78(10):1112–1120. [PubMed] [Google Scholar]

[OCR_00737] Tanaka Y., Yasumoto M., Nyunoya H., Ogura T., Kikuchi M., Shimotohno K., Shiraki H., Kuroda N., Shida H., Tozawa H. Generation and characterization of monoclonal antibodies against multiple epitopes on the C-terminal half of envelope gp46 of human T-cell leukemia virus type-I (HTLV-I). Int J Cancer. 1990 Oct 15;46(4):675–681. doi: 10.1002/ijc.2910460421. [DOI] [PubMed] [Google Scholar]

[OCR_00803] Thurin J., Thurin M., Herlyn M., Elder D. E., Steplewski Z., Clark W. H., Jr, Koprowski H. GD2 ganglioside biosynthesis is a distinct biochemical event in human melanoma tumor progression. FEBS Lett. 1986 Nov 10;208(1):17–22. doi: 10.1016/0014-5793(86)81522-8. [DOI] [PubMed] [Google Scholar]

[OCR_00746] Towbin H., Staehelin T., Gordon J. Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc Natl Acad Sci U S A. 1979 Sep;76(9):4350–4354. doi: 10.1073/pnas.76.9.4350. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00793] Watanabe T., Pukel C. S., Takeyama H., Lloyd K. O., Shiku H., Li L. T., Travassos L. R., Oettgen H. F., Old L. J. Human melanoma antigen AH is an autoantigenic ganglioside related to GD2. J Exp Med. 1982 Dec 1;156(6):1884–1889. doi: 10.1084/jem.156.6.1884. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00774] Welte K., Miller G., Chapman P. B., Yuasa H., Natoli E., Kunicka J. E., Cordon-Cardo C., Buhrer C., Old L. J., Houghton A. N. Stimulation of T lymphocyte proliferation by monoclonal antibodies against GD3 ganglioside. J Immunol. 1987 Sep 15;139(6):1763–1771. [PubMed] [Google Scholar]

[OCR_00663] Wiels J., Fellous M., Tursz T. Monoclonal antibody against a Burkitt lymphoma-associated antigen. Proc Natl Acad Sci U S A. 1981 Oct;78(10):6485–6488. doi: 10.1073/pnas.78.10.6485. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00766] Yoshida M., Seiki M. Recent advances in the molecular biology of HTLV-1: trans-activation of viral and cellular genes. Annu Rev Immunol. 1987;5:541–559. doi: 10.1146/annurev.iy.05.040187.002545. [DOI] [PubMed] [Google Scholar]

PERMALINK

GD2 ganglioside on human T-lymphotropic virus type I-infected T cells: possible activation of beta-1,4-N-acetylgalactosaminyltransferase gene by p40tax.

K Furukawa

T Akagi

Y Nagata

Y Yamada

K Shimotohno

N K Cheung

H Shiku

K Furukawa

Abstract

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PERMALINK

GD2 ganglioside on human T-lymphotropic virus type I-infected T cells: possible activation of beta-1,4-N-acetylgalactosaminyltransferase gene by p40tax.

K Furukawa

T Akagi

Y Nagata

Y Yamada

K Shimotohno

N K Cheung

H Shiku

K Furukawa

Abstract

Full text

Images in this article

Selected References

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