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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Seven
HIV
-2 isolates recovered from peripheral blood mononuclear cells (PBMC) of patients from the Ivory Coast have been biologically characterized. All seven strains replicated well in primary human lymphocyte and macrophage cultures and in established human T cell lines. They showed differences in infectivity and replicating ability in primary PBMC cultures from chimpanzees, rhesus macaques, and baboons. Moreover, variations in levels of virus replication in PBMC from 13 seronegative donors were observed. Four strains (UC2, UC3, UC7, and UC8) were highly cytopathic and caused extensive surface
CD4 antigen
depletion in acutely infected PBMC and SupT1 cells. Two strains (UC1 and UC6) showed minimal or no cytopathology, no CD4 down-modulation, and much lower levels of virus protein expression in SupT1 cells. These findings reflect the heterogeneity of
HIV
-2 strains and suggest that these biological properties could influence pathogenesis in the host.
...
PMID:Biologic heterogeneity of human immunodeficiency virus type 2 (HIV-2) strains. 212 Aug 48
The role of the
CD4 molecule
in the transmission and regulation of the biochemical signals involved in T cell activation was investigated using an anti-CD4 monoclonal antibody termed 6B10. 6B10 immunoprecipitated the 55-kDa
CD4 molecule
and detected an epitope of CD4 that overlapped with that detected by OKT4A, B, and D. 6B10, 6B10 Fab fragments and recombinant
HIV
envelope glycoprotein (gp120) induced calcium mobilization in PBMC. 6B10 stimulation also resulted in calcium mobilization in murine L cells expressing transfected CD4 gene products, indicating that CD4-mediated calcium mobilization occurred independently of the CD3/T cell receptor (TCR) complex. 6B10 induced a phosphatidylinositol response, but the response resulted in reduced inositol phosphate production compared to levels obtained using OKT3. Though 6B10 caused calcium mobilization and a phosphatidylinositol response, 6B10 did not induce DNA synthesis. The amount of inositol phosphates produced by 6B10 may be below the threshold necessary for cell cycle progression. We hypothesized that 6B10-mediated calcium mobilization is important in the regulation of T cell proliferation. 6B10, but not 6B10 Fab fragments, inhibited OKT3-induced DNA synthesis. Furthermore, 6B10 but not 6B10 Fab fragments inhibited OKT3-induced calcium mobilization, suggesting that crosslinking of CD4 may be an important factor determining whether signals result in both the up- and down-regulation of CD3/TCR complex function. The implication of this work is that signals generated via the
CD4 molecule
are important in the regulation of T cell function and that the signals generated as a result of
HIV
gp120 binding to CD4 can contribute to the mechanism by which
HIV
inhibits T cell function.
...
PMID:The CD4 molecule transmits biochemical information important in the regulation of T lymphocyte activity. 213 31
Two broad roles have been revealed for the
CD4 molecule
. It serves as a receptor for both class II major histocompatibility complex molecules and human immunodeficiency virus (HIV). Upon binding class II major histocompatibility molecules, CD4 functions to enhance T-cell activation. By binding to CD4, HIV gains entry into the cell. We have used a chimeric molecule of CD4 and lymphocyte function-associated antigen 3 (LFA-3), CD4PI, which lacks a membrane-spanning domain and is instead anchored in the membrane by linkage to glycosyl-phosphatidylinositol. To further define the structural attributes of viral receptors, and specifically those of CD4 required for
HIV infection
, we have expressed CD4PI and CD4 in a human T-cell line, HSB-2. We find that CD4PI is able to mediate infection of these cells by HIV with similar, if not greater efficiency, compared with wild-type CD4. Thus the membrane-spanning region of CD4 is not required for
HIV infection
, and a lipid-anchored protein can serve as a viral receptor.
...
PMID:Human immunodeficiency virus infection is efficiently mediated by a glycolipid-anchored form of CD4. 214 6
Binding of
HIV
to its receptor, the
CD4 molecule
of lymphocytes, can be prevented by chemical agents. These agents could be considered as potential anti-AIDS drugs. We have shown that aurin tricarboxylic acid (ATA, 3 microM) specifically blocks the binding of gp120, the
HIV
coat protein, to the
CD4 molecule
. We have also found that ATA prevents the binding of interferon-alpha to its receptor in a dose-dependent manner (12-50 microM range). Membrane potential shift, associated with binding of interferon-alpha to its receptor, was also blocked by ATA in a dose-dependent fashion. Our results indicate that potential anti-AIDS drugs should be screened for such undesired side effects.
...
PMID:Aurin tricarboxylic acid, the anti-AIDS compound, prevents the binding of interferon-alpha to its receptor. 214 4
Dendritic cells (DC) from human peripheral blood are susceptible to productive and probably to latent infection with
HIV
-I. Infection of DC also occurs in vivo since in
HIV
-seropositive individuals Langerhans' cells of the skin and DC from peripheral blood, (in preparation) are infected. In peripheral blood 3-25% of DC, identified as large, low-density cells lacking monocyte markers, are infected as judged by in situ hybridization with an
HIV
probe. This contrasts with the lower proportion (< 0.2%) of other cells infected. DC exposed to
HIV
in vitro or in vivo fail to present other antigens or mitogens to stimulate T cells. This functional defect in infected DC is not blocked by the presence of soluble
CD4 antigen
and occurs in the absence of T cell infection suggesting a block at the level of the antigen-presenting cell itself. Infection, depletion and dysfunction of DC in
HIV
seropositive patients is already present in asymptomatic individuals and this precedes the appearance of T cell defects. We speculate that loss of functional DC may be a fundamental defect leading to a block in recruitment of resting T cells into immune responses. In contrast to the
HIV
-induced impairment of antigen presentation by DC, these cells were potent stimulators of responses to the
HIV
antigens themselves. Normal DC infected with
HIV
in vitro stimulated primary proliferative and cytotoxic T cell responses (in preparation). These were produced in cells from individuals expressing a range of different MHC types but the cytotoxic cells, once produced, killed autologous but not allogeneic, infected T cell blasts. Primary response to viral peptides can also be produced suggesting that this system may be useful for identifying immunogenic epitopes of
HIV
using cells from sero-negative, non-immunocompromised individuals.
...
PMID:HIV I infection of dendritic cells. 215
The main receptor for the human immunodeficiency viruses type 1 and 2 (
HIV
-1 and
HIV
-2) on T and B lymphocytes, monocytes and macrophages is the
CD4 antigen
1-3. Infection of these cells is blocked by monoclonal antibodies to CD4(1,2) and by recombinant soluble CD4(4-9). Expression of transfected CD4 on the surface of HeLa and other human cells renders them susceptible to
HIV infection
10.
HIV
-antibody complexes can also infect monocytes and macrophages by means of receptors for the Fc portion of immunoglobulins (FcR)11-13), or complement receptors 14,15. The expression of IgG FcRs can be induced in cells infected with human herpes viruses such as herpes simplex virus type 1 (HSV-1)16,17 and human cytomegalovirus (CMV)18-21. Here we demonstrate that FcRs induced by CMV allow immune complexes of
HIV
to infect fibroblasts otherwise not permissive to
HIV infection
. Infection was inhibited by prior incubation with human IgG, but not by anti-CD4 antibody or by recombinant soluble CD4. Once
HIV
had entered CMV-infected cells by means of the FcR, its replication could be enhanced by CMV transactivating factors. Synergism between
HIV
and herpes viruses could also operate in vivo, enhancing immunosuppression and permitting the spread of
HIV
to cells not expressing CD4.
...
PMID:HIV susceptibility conferred to human fibroblasts by cytomegalovirus-induced Fc receptor. 215 97
Four Epstein-Barr virus-positive lymphoblastoid cell lines (LCL) were successfully infected in vitro with immunodeficiency virus type 1 (
HIV
-1) as demonstrated by reverse transcriptase activity and p24
HIV
antigen in culture supernatants, positive cell staining for gag-encoded
HIV
proteins, presence of viral
HIV
genome by Southern blot analysis and ulstrastructural observations. In addition, both
HIV
-1-infected B cells and their supernatants efficiently transactivated the chloramphenicol acetyl transferase reporter gene which is under the control of the
HIV
-1 long terminal repeat. The LCL cells displayed long-term
HIV
-1 infection and production, but no cytopathic effects were observed. Cytofluorimetric analysis did not detect membrane CD4 presence in the LCL cells before and after
HIV
-1 infection; moreover, a minute amount of CD4 mRNA was observed only in one of the LCL. A monoclonal antibody specific for the viral binding site of the
CD4 molecule
delayed, but did not block,
HIV
-1 infection of the LCL cells. Following
HIV
-1 infection, changes in LCL phenotype were observed, consisting of a decrease in CD23- and CD39-positive cells, and a concomitant increase of cells with surface CD10 and Bac-1. Furthermore,
HIV
-1-infected LCL cells did not grow in tight clumps, as usually observed in uninfected LCL, but as disperse suspensions, and formed more agar colonies than control LCL. However, despite this apparent acquisition of a malignant-like phenotype, c-myc proto-oncogene rearrangement was not detected. The appearance of cells with new characteristics did not seem due to clone selection by
HIV
-1 infection, since all the LCL conserved their clonotypic pattern of IgH chain rearrangement. The acquisition of malignant-like features by
HIV
-infected B cells might be clinically significant in terms of the pathogenesis of non-Hodgkin's B cell lymphomas, which occur frequently in AIDS patients.
...
PMID:Infection of Epstein-Barr virus-transformed lymphoblastoid B cells by the human immunodeficiency virus: evidence for a persistent and productive infection leading to B cell phenotypic changes. 217 Jan 47
Kaposi's sarcoma (KS) is frequently associated with human immunodeficiency virus-1 (HIV-1) infection. Supernatants from
HIV
-1-infected T cells carrying the
CD4 antigen
promote the growth of cells derived from KS lesions of AIDS patients (AIDS-KS cells), and the
HIV
-1 tat gene, introduced into the germ line of mice, induces skin lesions closely resembling KS. Here we report that the tat gene product (Tat) is released from both
HIV
-1-acutely infected H9 cells and tat-transfected COS-1 cells. These Tat-containing supernatants specifically promote growth of AIDS-KS cells which are inhibited by anti-Tat antibodies; recombinant Tat has the same growth-promoting properties. Therefore a viral regulatory gene product can be released as a biologically active protein and directly act as a growth stimulator. These and previous data indicate that extracellular Tat could be involved in the development or progression, or both, of KS in
HIV
-1-infected individuals.
...
PMID:Tat protein of HIV-1 stimulates growth of cells derived from Kaposi's sarcoma lesions of AIDS patients. 218 72
The envelope glycoprotein (gp120/41) of the human immunodeficiency virus (
HIV
-1) attaches the virus to the cellular CD4 receptor and mediates virus entry into the cytoplasm. In addition to being required for formation of infectious
HIV
, expression of gp120/41 at the plasma membrane causes the cytopathic fusion of cells carrying the
CD4 antigen
. The expression of gp120/41 is therefore an ideal target for therapeutic strategies designed to combat AIDS. Here we show that expression of a soluble
CD4 molecule
, mutated to contain a specific retention signal for the endoplasmic reticulum, blocks secretion of gp120 and surface expression of gp120/41, but does not interfere with transport of wild-type CD4. By blocking transport of the
HIV
glycoprotein, this retained
CD4 molecule
prevents the fusion of CD4 cells that is normally caused by the
HIV
glycoprotein. Expression of the retained
CD4 molecule
in human T cells might therefore be useful in the intracellular immunization procedure suggested by Baltimore.
...
PMID:Prevention of HIV-1 glycoprotein transport by soluble CD4 retained in the endoplasmic reticulum. 234 70
Hepatic sinusoidal lesions, including peliosis hepatis and sinusoidal dilatation, are frequently observed during
human immunodeficiency virus infection
. It has been proposed that human immunodeficiency virus itself plays a role in their pathogenesis. To test this hypothesis, we attempted to determine whether liver sinusoidal cells express the
CD4 molecule
, which behaves as a membrane receptor mediating the binding of human immunodeficiency virus to its target cells. For this purpose, three monoclonal antibodies-OKT4, OKT4a and anti-Leu3a + 3b, binding to different epitopes of the
CD4 molecule
-were used. All antibodies tested had the same tissue reactivity. On light microscopy, they reacted with most sinusoidal macrophages and in addition gave a continuous labeling of the sinusoidal lining suggestive of endothelial cell reactivity. On ultrastructural examination, the plasma membranes of both sinusoidal macrophages and endothelial cells were labeled. The reactive antigen was characterized by immunoblotting of liver homogenates. A unique band was detected, corresponding to an antigen with an apparent molecular weight of 54,000 Da, comparable to that reported for the
CD4 molecule
expressed on lymphocytes and monocytes. Therefore combination of structural and immunochemical data makes it possible to assess that both endothelial cells and macrophages of the hepatic sinusoid express the
CD4 molecule
. Consequently, both cell types constitute putative targets for human immunodeficiency virus and/or human immunodeficiency virus-related lesions. They may be involved in the pathogenesis of liver sinusoidal lesions observed in
human immunodeficiency virus infection
and may constitute an unsuspected reservoir of the virus.
...
PMID:Both macrophages and endothelial cells of the human hepatic sinusoid express the CD4 molecule, a receptor for the human immunodeficiency virus. 205 Mar 45
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