The nucleotide sequence of molecular clones of DNA from a retrovirus, ARV-2, associated with the acquired immune deficiency syndrome (AIDS) was determined. Proviral DNA of ARV-2 (9737 base pairs) has long terminal repeat structures (636 base pairs) and long open reading frames encoding gag (506 codons), pol (1003 codons), and env (863 codons) genes. Two additional open reading frames were identified. Significant amino acid homology with several other retroviruses was noted in the predicted product of gag and pol, but ARV-2 was as closely related to murine and avian retroviruses as it was to human T-cell leukemia viruses (HTLV-I and HTLV-II). By means of an SV-40 vector in transfected simian cells, the cloned gag and env genes of ARV-2 were shown to express viral proteins.
Formation of syncytia, with progression to cell death, is a characteristic feature of in vitro cultures of susceptible cells infected with human T-lymphotropic virus type III/lymphadenopathy-associated virus (HTLV-III/LAV). Viral antigen-positive multinucleated giant cells have also been observed in histological sections from infected individuals. In vitro, formation of these multinucleated giant cells occurs through cell fusion which is dependent on cell-surface expression of the differentiation antigen CD4. Utilizing a recombinant vaccinia virus containing the gene for the envelope glycoprotein of HTLV-III/LAV, we demonstrate that cell-surface expression of this protein, in the absence of other HTLV-III/LAV structural or regulatory proteins, is sufficient to induce CD4-dependent cell fusion, leading to cell death, one of the characteristic manifestations of AIDS (acquired immune deficiency syndrome) virus cytopathology. This process may contribute to the loss of CD4+ T cells seen in AIDS.
The spectrum of human immunodeficiency virus type 1 (HIV-1) isolates neutralized by antibodies from HIV-1-infected humans is broader than the spectrum of isolates neutralized by sera from animals immunized with purified gp120 subunits. This broader neutralization was due, in part, to the presence of antibodies to conserved gp120 conformational epitopes. Purified conformation-dependent gp120-specific human antibodies neutralized a wider range of virus isolates than human antibodies directed to linear determinants in gp120 and were also responsible for the majority of the gp120-specific CD4-blocking activity of HIV-1-infected human sera. A gp120 subunit vaccine that effectively presents these conformation-dependent neutralization epitopes should protect against a broader range of HIV-1 variants than a vaccine that presents exclusively linear determinants.
Binding of the human immunodeficiency virus (HIV) to infectable host cells, such as B and T lymphocytes, monocytes and colorectal cells, is mediated by a high-affinity interaction between the gp120 component of the viral envelope glycoprotein and the CD4 receptor. Upon binding, it is thought that the second component of the envelope, gp41, mediates fusion between the viral envelope and host cell membranes. However, the early steps of HIV infection have not yet been thoroughly elucidated. Viral entry was first reported to be mediated by pH-dependent receptor-mediated endocytosis; subsequent studies have shown entry to be pH-independent. Although direct fusion of virus to plasma membranes of infected cells has been observed by electron microscopy, it is still formally possible that the infectious path of the virus involves receptor-mediated endocytosis. To gain a better understanding of receptor function in viral entry, we have analysed the ability of several altered or truncated forms of CD4 to serve as effective viral receptors. Our results indicate that domains beyond the HIV-binding region of CD4 are not required for viral infection. Some of the altered forms of CD4 that serve as effective HIV receptors are severely impaired in their ability to be endocytosed. These experiments therefore support the notion that viral fusion to the plasma membrane is sufficient for infection.
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