Valproate activates bovine leukemia virus gene expression, triggers apoptosis, and induces leukemia/lymphoma regression in vivo
- Amine Achachi*,†,
- Arnaud Florins*,†,
- Nicolas Gillet*,†,
- Christophe Debacq*,
- Patrice Urbain*,
- Germain Manfouo Foutsop*,
- Fabian Vandermeers*,
- Agnieszka Jasik‡,
- Michal Reichert‡,
- Pierre Kerkhofs§,
- Laurence Lagneaux¶,
- Arsène Burny*,
- Richard Kettmann*, and
- Luc Willems*,∥
- *Molecular and Cellular Biology, Gembloux University Faculty of Agronomic Sciences, 5030 Gembloux, Belgium; ‡Department of Pathology, National Veterinary Research Institute, 24-100, Pulawy, Poland; §Department of Virology, Veterinary and Agrochemical Research Center, 1180 Uccle, Belgium; and ¶Jules Bordet Institute, Université Libre de Bruxelles, 1000 Brussels, Belgium
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Communicated by Robert C. Gallo, University of Maryland Biotechnology Institute, Baltimore, MD, May 23, 2005 (received for review November 15, 2004)
Abstract
Leukemogenic viruses like human T-lymphotropic virus and bovine leukemia virus (BLV) presumably persist in the host partly by latent integration of the provirus in a fraction of infected cells, leading to accumulative increase in the outgrowth of transformed cells. Furthermore, viral infection also correlates with a blockade of the apoptotic mechanisms concomitant with an apparent latency of the host cell. Conceptually, induction of viral or cellular gene expression could thus also be used as a therapeutic strategy against retroviral-associated leukemia. Here, we provide evidence that valproate, an inhibitor of deacetylases, activates BLV gene expression in transient transfection experiments and in short-term cultures of primary B-lymphocytes. In vivo, valproate injection into newly BLV-inoculated sheep did not abrogate primary infection. However, valproate treatment, in the absence of any other cytotoxic drug, was efficient for leukemia/lymphoma therapy in the sheep model leading to decreased lymphocyte numbers (respectively from 25.6, 35.7, and 46.5 × 103 cells per mm3 to 1.0, 10.6, and 24.3 × 103 cells per mm3 in three leukemic sheep) and tumor regression (from >700 cm3 to undetectable). The concept of a therapy that targets the expression of viral and cellular genes might be a promising treatment of adult T cell leukemia or tropical spastic paraparesis/human T-lymphotropic virus-associated myelopathy, diseases for which no satisfactory treatment exists so far.
Footnotes
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↵ ∥ To whom correspondence should be addressed at: Cellular and Molecular Biology, Gembloux University Faculty of Agronomic Sciences, 13 Avenue Maréchal Juin, 5030 Gembloux, Belgium. E-mail: willems.l{at}fsagx.ac.be.
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↵ † A.A., A.F., and N.G. contributed equally to this work and are first coauthors.
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Author contributions: L.W. designed research; A.A., A.F., N.G., C.D., P.U., F.V., A.J., M.R., P.K., and L.L. performed research; A.F., N.G., and G.M.F. contributed new reagents/analytic tools; A.B. and L.W. analyzed data; and L.W. wrote the paper.
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Abbreviations: BLV, bovine leukemia virus; HDAC, histone deacetylase; HDACi, HDAC inhibitor(s); HTLV, human T-lymphotropic virus; PBMC, peripheral blood mononuclear cells.
- Copyright © 2005, The National Academy of Sciences
