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Query: UMLS:C0021051 (
immunodeficiency
)
71,517
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The replication cycle of any virus involves a number of steps, beginning with specific attachment to a
cell surface receptor
leading eventually to production of progeny viruses by infected cells. In the case of the
immunodeficiency
virus type-1 (HIV-1), the first step involves a specific interaction between the gp120 viral envelope surface protein and specific CD4 receptor sites at the cell surface. This is followed by penetration of the virus into cells and the formation of proviral double-stranded DNA from single-stranded viral RNA, a process mediated through the action of the viral enzyme called reverse transcriptase. This, in turn, leads to the migration of proviral DNA into the nucleus of the cell and the integration of such DNA within the host cell genome. Finally both viral RNA and viral proteins are produced by the cell's genetic apparatus and new viruses are assembled at the cell surface. The fact that integration of viral DNA into host cell chromosomes occurs means that any cellular replication event will be accompanied by replication of viral DNA. Each of these steps represents a potential target for anti-viral chemotherapy. To date, most efforts to treat HIV-associated disease have focused on the reverse transcription step. In this respect, zidovudine (AZT) has been the most widely used anti-viral drug studied. However, the relative toxicity and lack of efficiency of this drug means that our efforts to develop new therapeutic strategies to combat HIV infection must continue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Antiviral strategies in the replication of human immunodeficiency virus]. 127 75
The binding of the human
immunodeficiency
virus (HIV) envelope glycoprotein gp120 to the
cell surface receptor
CD4 has been considered a primary determinant of viral tropism. A number of cell types, however, can be infected by the virus, or bind gp120, in the absence of CD4 expression. Human placenta was identified as a tissue that binds gp120 in a CD4-independent manner. A placental cDNA library was screened by expression cloning and a cDNA (clone 11) encoding a gp120-binding protein unrelated to CD4 was isolated. The 1.3-kilobase cDNA predicts a protein of 404 amino acids with a calculated M(r) of 45,775 and organized into three domains: an N-terminal cytoplasmic and hydrophobic region, a set of seven complete and one incomplete tandem repeat, and a C-terminal domain with homology to C-type (calcium-dependent) lectins. A type II membrane orientation (N-terminal cytoplasmic) is predicted both by the cDNA sequence and by the reactivity of C-terminal peptide-specific antiserum with the surface of clone 11 transfected cells. Native and recombinant gp120 and whole virus bind transfected cells. gp120 binding is high affinity (kd, 1.3-1.6 nM) and inhibited by mannan, D-mannose, and L-fucose; once bound, gp120 is internalized rapidly. Collectively, these data demonstrate that the gp120-binding protein is a membrane-associated mannose-binding lectin. Proteins of this type may play an important role in the CD4-independent association of HIV with cells.
...
PMID:Sequence and expression of a membrane-associated C-type lectin that exhibits CD4-independent binding of human immunodeficiency virus envelope glycoprotein gp120. 151 69
We describe human
immunodeficiency
type 2 (HIV-2) strains which induce cell-to-cell fusion and infect certain CD4- human cell lines. Soluble CD4 (sCD4) induces or enhances fusion by most HIV-2 strains tested. Soluble CD4-immunoglobulin G chimeras and conjugates of sCD4 and antibody to the third domain of CD4 block HIV-2 fusion of CD4- cells. We conclude that HIV-2 can enter CD4- cells via an alternative
cell surface receptor
to CD4. While some strains entered efficiently, others retained a dependency on an interaction with sCD4 to initiate changes in the virion envelope required for membrane fusion.
...
PMID:Human immunodeficiency virus type 2 infection and fusion of CD4-negative human cell lines: induction and enhancement by soluble CD4. 158 22
The CD4 T-lymphocyte differentiation antigen is an essential component of the
cell surface receptor
for human
immunodeficiency
viruses (HIVs) causing AIDS (acquired immune deficiency syndrome) (refs 1-3). Peripheral blood lymphocytes of apes, New World and Old World monkeys express cell surface antigens homologous to CD4 of human T-helper lymphocytes. The cells of several of these species can be infected in short term culture with diverse strains of the type-1 or type-2 human
immunodeficiency
viruses (HIV-1 and HIV-2). HIV-1 is the prototype AIDS virus, and HIV-2 is the second type of AIDS virus, prevalent in West Africa. Infection of the primate cells correlates with evolutionary conservation on CD4 of one particular epitope cluster, and is inhibited by treatment of the cells with monoclonal antibodies to this epitope. The capacity of HIV to replicate in simian cells may provide a means for evaluating antiviral drugs and vaccines.
...
PMID:HIV infection of primate lymphocytes and conservation of the CD4 receptor. 244 42
The T-cell surface glycoprotein CD4 is thought to function as a receptor for class II major histocompatibility complex molecules. Human CD4 is also the lymphoid cell receptor for human
immunodeficiency
virus, the causative agent of acquired immune deficiency syndrome. The observed infection of the central nervous system in acquired immune deficiency syndrome patients raises the possibility that CD4 is also present in nerve tissue and that a
cell surface receptor
for class II major histocompatibility complex antigens could play a role in central nervous system function. This possibility is reinforced by the detection of unique CD4-related transcripts in mouse and human brain tissue. In this study, the structure of the mouse brain CD4 transcript was determined. It is identical to the last two-thirds of the CD4 message and is capable of encoding a 217-residue protein that would consist of a truncated, 154-residue, cell surface region, together with the complete CD4 transmembrane and cytoplasmic regions. It would not include an amino-terminal hydrophobic leader peptide.
...
PMID:Mouse brain CD4 transcripts encode only the COOH-terminal half of the protein. 326 Mar 31
The external segment of the T4 (CD4) glycoprotein functions as the T-
cell surface receptor
for human
immunodeficiency
virus by binding the major viral coat protein (gp120) with relatively high affinity. To more precisely define the region of T4 involved in gp120 interaction, we used purified, soluble forms of T4 anchor-minus polypeptides (produced in a baculovirus system) in conjunction with proteolytic fragmentation, microsequencing, and a specific T4-gp120 binding assay. The results indicate that the NH2-terminal region of T4 including the immunoglobulin variable-region-like domain is required for gp120 interaction. In contrast, the COOH-terminal half of the molecule, containing the two potential N-linked glycosylation sites, is not necessary. Furthermore, reduction of intrachain disulfide bonds in the T4 molecular abrogates gp120 binding, thereby strongly implying that the binding site for gp120 is dependent on the stabilized domain structure of the active binding region.
...
PMID:Binding site for human immunodeficiency virus coat protein gp120 is located in the NH2-terminal region of T4 (CD4) and requires the intact variable-region-like domain. 326 64
Antiviral agents under investigation for the treatment of patients infected with the human
immunodeficiency
virus (HIV) are reviewed. Multiple mechanisms exist by which antiviral agents might inhibit the replication of HIV or eradicate its latent form in affected cells, or both. These mechanisms include (1) interference with the
cell surface receptor
for HIV, (2) prevention of uncoating of viral particles, (3) inhibition of reverse transcriptase, (4) prevention of integration and posttranscription processing, (5) interference with viral assembly, and (6) interference with virus release. Most agents developed thus far work by inhibiting HIV reverse transcriptase. Suramin, ribavirin, ammonium 21-tungsten-9-antimoniate (HPA-23), foscarnet (phosphonoformate, PFA), inosine pranobex (isoprinosine), peptide T, ampligen, AL 721, dideoxycytidine, and zidovudine (formerly azidothymidine) have antiretroviral activity in vitro. To date zidovudine is the only antiretroviral agent approved by the FDA as clinically effective. However, zidovudine has serious toxicities, including neutropenia and anemia; in some patients dosage reduction or cessation of therapy may be necessary. Because treatment with zidovudine does not cure HIV infection, numerous studies are under way with other anti-HIV agents. Ultimately, combinations of agents probably will be used to suppress or eradicate HIV. While the search for more efficacious and less toxic treatments continues, the development of zidovudine in such a short time provides hope that progress toward a cure will be made rapidly.
...
PMID:Development of antiviral agents for the treatment of human immunodeficiency virus infection. 332 38
In the present study we have observed that interleukin (IL) 1 alpha or IL-1 beta directly induced expression of human
immunodeficiency
virus (HIV) in the latently infected human promonocytic cell line U1. In addition, IL-1 synergized with IL-6, but not with tumor necrosis factor, in the upregulation of virus expression in U1 cells as measured by accumulation of steady-state mRNAs and production of reverse transcriptase activity. The HIV inductive effect of IL-1 was blocked by transforming growth factor beta, anti-IL-1 antibodies, or monoclonal antibodies directed to the type 1, but not to the type 2,
cell surface receptor
for IL-1; the latter actually caused enhancement of the IL-1-mediated effect. Unlike tumor necrosis factor alpha, IL-1 either alone or in combination with IL-6 did not induce activation of the transcription activating factor NF-kappa B above the constitutive levels of unstimulated U1 cells. Finally, the IL-1 receptor antagonist effectively blocked IL-1-mediated direct and synergistic inductive effects on virus production. Thus, IL-1 may be an important mediator of HIV expression, and blocking of IL-1 expression and/or its effects may have a potential therapeutic role in the inhibition of HIV expression in infected individuals.
...
PMID:Interleukin 1 induces expression of the human immunodeficiency virus alone and in synergy with interleukin 6 in chronically infected U1 cells: inhibition of inductive effects by the interleukin 1 receptor antagonist. 750 10
The CD4 molecule serves as the principal
cell surface receptor
common to both the human and simian
immunodeficiency
viruses (HIV-1, HIV-2 and SIV). Since binding to CD4 is not sufficient to permit virus entry, HIV 'co-receptors' have been implicated in mediating the fusion of viral and cellular membranes necessary for completing the entry process. In order to identify candidate co-receptor molecules, a panel of monoclonal antibodies (MAbs) directed against adhesion molecules was tested for the ability of the MAbs to inhibit HIV-1-induced cell fusion (syncytium formation) and HIV-1 entry. Certain antibodies directed against CD18, CD11b and CD11c inhibited HIV-1-induced syncytium formation but not entry, in agreement with previous reports. Interestingly, certain antibodies to ICAM-3 (intercellular adhesion molecule 3) (CD50) significantly inhibited HIV-1-specific entry but not syncytium formation using human SupT1 cells. Only one antibody directed against ICAM-3 significantly inhibited HIV-1-induced syncytium formation, entry and infectivity. Our results suggest that certain epitopes of ICAM-3 may be involved in mediating HIV-1-specific entry into lymphoid and monocytoid cells.
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PMID:Intercellular adhesion molecule 3, a candidate human immunodeficiency virus type 1 co-receptor on lymphoid and monocytoid cells. 754 Jan 95
The goal of this study was to exploit molecular recognition of cell surface receptors by viral surface glycoproteins as a means for the selective intracellular delivery of macromolecules. To accomplish this, artificial viral envelopes (AVE) resembling the human
immunodeficiency
virus-1 (HIV-1) were designed as a model system. Recombinant HIV-1 surface glycoprotein gp160 (HIV-1 rgp160) was inserted in the artificial envelope by a two-step detergent dialysis process. The artificial HIV-1 envelope recognized the CD4
cell surface receptor
. FITC-dextran and ricin A were employed as model macromolecules as they cannot passively diffuse across cell membranes. Selective transfer of FITC-dextran encapsulated in HIV-1 rgp160 AVE into a CD4-positive cell line (REX-1B) versus a CD4-negative cell line (KG-1) was demonstrated. Ricin A at concentrations as low as 2 ng/ml arrested cell growth of CD4-positive MOLT-4 cells, whereas 8 ng/ml ricin A in solution had no effect on cell growth. The arrest of cell growth was reverted in the presence of excess anti-gp120 monoclonal antibody. Naked envelopes (without HIV-1 rgp160 inserted) were also found to interact with cells and transfer material, although less efficiently and in a non-specific manner. Viral mimicry using AVE may be a means for targeted intracellular delivery of peptides, proteins, enzymes, toxins, oligodeoxynucleotides, gene constructs, and other non-diffusive, labile or toxic macromolecules.
...
PMID:(Patho)physiologic pathways to drug targeting: artificial viral envelopes. 754 Dec 29
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