Four monoclonal antibodies, human T cell leukemia-lymphoma virus (HTLV) 6, 7, 8, and 9, which react with the 24,000 dalton internal core protein of HTLVI, have been developed. These monoclonal antibodies reacted with only HTLV-infected cells and not with a broad spectrum of normal, neoplastic, mitogen-stimulated, or virus-infected cells and tissues. HTLV 6, 7, 8, and 9 identified at least two different antigenic determinants on HTLV p24 that were also recognized by antibodies present in HTLV+ patient sera. Monoclonal antibodies HTLV 6, 7, 8, and 9 reacted in indirect immunofluorescence assays with HTLV p24 localized at the cell surface of 5-d cultures of HTLV-infected T cells and, as well, reacted with T cells infected with HTLVII, a new type of HTLV isolated from a patient (MO) with a T cell variant of hairy cell leukemia. Thus, HTLV 6, 7, 8, and 9 should prove to be useful diagnostic reagents in the identification of HTLV- and HTLVII-infected T cells.
Human T (thymus-derived)-cell leukemia/lymphoma virus (HTLV) is a new retrovirus first isolated from T-cell lines from a patient with cutaneous T-cell lymphoma from the southeastern United States. Closely related viruses have since been isolated from several patients with adult T-cell leukemia and lymphoma (and some normal persons) from different areas of the world. HTLV is not a genetically transmitted endogenous virus of humans, but it rather is acquired by postzygotic infection. Natural antibodies to several purified viral proteins have been observed in infected individuals. HTLV is transmissible in vitro to human cord blood T cells, and infection results in an increased growth rate, a reduced requirement for (and often independence from) T-cell growth factor, and an abrogation of the crisis period that usually occurs a month after the establishment of normal T-cell cultures. These data suggest that HTLV is the etiologic agent in some human cases of leukemia and lymphoma.
The primary interaction of HIV-1 with the target cell involves the viral large envelope protein (gp120) and the cellular CD4 molecule. mAb reacting with portions of CD4 have been shown to block HIV-1 attachment and infection. In one of the early reports describing HIV-1 cell interaction, some mAb reacting with MHC class II Ag were also found to block infection. To investigate further a possible role for MHC class II in HIV-1 binding, a cultured T lymphocyte cell line (H-9) that expresses MHC class II molecules and PHA-stimulated PBL was exposed for various time periods to concentrated viral particles and individual HIV-1 proteins. A decrease in the ability to detect the CD4a epitope and HLA-DR was observed after the cells were exposed to virus for 15, 30, and 60 min whereas HLA-DP and HLA-DQ Ag increased or remained unchanged. After 120 min of virus exposure, the CD4a epitope remained diminished whereas HLA-DR was detected at levels found on cells not exposed to virus. mAb detecting the CD4a epitope and HLA-DR, as well as alloantisera detecting the specific HLA-DR Ag on the target cell, blocked HIV-1 binding. When immunopurified gp120 was added to PHA-stimulated and unstimulated PBL, the CD4a epitope decreased in the same manner as was observed with whole virus preparations. In contrast to exposure to the intact virus, HLA-DR expression appeared to increase. Other viral proteins, p17, p24, and a portion of the small envelope protein, gp41, had no effect on the ability to detect cell surface Ag. Thus, although CD4 is the primary receptor for HIV-1 binding, HLA-DR appears to be involved in the binding site, probably by virtue of its close proximity to the CD4 molecule on the cell surface.
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