The human T-cell leukemia viruses (HTLV) are associated with T-cell malignancies in man and will transform normal human T cells in vitro. The mechanism of malignant transformation by HTLV is unknown but appears to be distinct from that of other classes of retroviruses, which induce malignant transformation through viral or cellular oncogenes. Recently a new gene, termed x, was identified in HTLV. This gene has been hypothesized to be the transforming gene of HTLV because of its conservation within the HTLV class of retroviruses. By in vitro mutagenesis of the HTLV-II x gene, it is now demonstrated that the presence of a functional x gene product is necessary for efficient HTLV transcription. Therefore, these studies provide direct evidence for an important function of the x gene in HTLV replication. The functional analogies between the x gene and transcriptional regulatory genes of some DNA viruses suggest that these viruses share similar mechanisms for cellular transformation.
A unique human retrovirus (human T-cell leukemia virus type II, HTLV-II), isolated from a patient with a T-cell variant of hairy-cell leukemia, has been shown to be distinct from the more common isolates of human T-cell leukemia virus. This virus was tested for its ability to transform normal human peripheral blood lymphocytes. The HTLV-II-infected T-cell line Mo-T was lethally x-irradiated and cocultivated with normal human peripheral blood lymphocytes. The cocultivation of normal cells with Mo-T cells resulted in the transformation of the normal cells as evidenced by the establishment of permanent cell lines. The transformed cells are infected with HTLV-II as shown by immunologic tests and molecular hybridization. The cells are of mature T-cell phenotype and constitutively produce lymphokines. An Epstein-Barr virus-transformed lymphoblast B-cell line established from peripheral blood cells of the patient Mo, designated Mo-B, also was found to be infected with HTLV-II. All HTLV-II-infected cells, including the Mo-B cells, were capable of transforming normal cells of T-cell phenotype by transmission of virus by cocultivation. These results indicate that HTLV-II infects both B and T cells but transforms normal human peripheral blood lymphocytes of T-cell phenotype.
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