UMLS:C0019693 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CD4 molecules on human cells function as a major receptor for human immunodeficiency virus (HIV); however, certain CD4-negative cell types may also be susceptible to infection. Therefore, we attempted to quantitate the relationship between HIV infection and CD4 expression on human cell lines before and after introduction of the CD4 gene by using a retrovirus vector. Prior to introduction of the CD4 expression vector, low levels of HIV infection were detected by a sensitive focal immunoassay on all three cell types studied. With several HIV strains in clones of human cervical carcinoma (HeLa) cells expressing different levels of CD4, HIV titer increased with increasing CD4 expression. In contrast, in squamous cell carcinoma cells (SCL1) and astroglial cells (U87MG), even high levels of CD4 expression failed to augment HIV infection. The CD4 protein expressed in these two cell lines had the expected molecular weight and was capable of binding HIV virions. However, in contrast to CD4-positive HeLa cells, CD4-positive U87MG and SCL1 cells were unable to form syncytia when cultured with cells expressing HIV envelope protein. Thus, the inability of HIV to infect these cells appeared to be due to lack of fusion between HIV virion envelope proteins and CD4-positive cell membranes. This block is infectivity was overcome when cells were infected with HIV which was pseudotyped with the envelope protein of amphotropic murine leukemia virus. Thus, in addition to CD4, other cell surface molecules appear to be required for successful HIV entry into and infection of these two human cell lines.
...
PMID:Failure of human immunodeficiency virus entry and infection in CD4-positive human brain and skin cells. 229 63

Human epithelial cells (L132) derived from embryonic lung and human lung fibroblasts (MRC5) were infected by human immunodeficiency virus type 1 (HIV-1) or type 2 (HIV-2). Surface CD4 protein was detected on these cells, and recombinant soluble CD4 (sCD4) blocked infection, indicating that HIV infection was mediated by the cell surface CD4 protein. In contrast, infection of human primary chondrocyte cells (C23), synovial cells (HSA), and foreskin fibroblasts (F13) was apparently independent of cell CD4-mediated mechanisms. Surface CD4 protein could not be detected on these cells, and sCD4 did not block the infection. F13 cells could be infected only by HIV-2, not by HIV-1, under our experimental conditions. In cells of mesenchymal orgin, viral production could be detected only after cocultivation with the human T-lymphoid H9 cells but not by conventional viral assays, including reverse transcriptase and p24 antigen assays in cell culture supernatant and immunofluorescence of host cells. Our DNA transfection studies indicated that this lack of detectable viral production was not due to the inefficient use of the HIV long terminal repeat or the Tat protein in these cells. These mesenchymal and epithelial cells were susceptible to HIV infection but differed in mechanism of virus entry compared with hematopoietic cells such as T lymphocytes. These observations may provide insights into clinical syndromes such as lung dysfunction in HIV-infected newborns and connective tissue disorders in HIV-infected adults.
...
PMID:Infection of nonlymphoid cells by human immunodeficiency virus type 1 or type 2. 238 19

The human immunodeficiency virus type 1 (HIV-1) uses the CD4 protein as a receptor for infection of susceptible cells. A candidate structure for the HIV-1 binding site on the CD4 protein was identified by epitope mapping with a family of eight functionally distinct CD4-specific monoclonal antibodies in conjunction with a panel of large CD4-derived synthetic peptides. All of the seven epitopes that were located reside within two immunoglobulin-like disulfide loops situated between residues 1 and 168 of the CD4 protein. The CD4-specific monoclonal antibody OKT4A, a potent inhibitor of HIV-1 binding, recognized a site between residues 32 and 47 on the CD4 protein. By analogy to other members of the immunoglobulin superfamily of proteins, this particular region has been predicted to exist as a protruding loop. A synthetic analog of this loop (residues 25 to 58) showed a concentration-dependent inhibition of HIV-1-induced cell fusion. It is proposed that a loop extending from residues 37 to 53 of the CD4 protein is a binding site for the AIDS virus.
...
PMID:Location and chemical synthesis of a binding site for HIV-1 on the CD4 protein. 245 25

The soluble form of human CD4, an HIV receptor molecule first detected on the surface of T cells, binds glycoprotein gp120, a coat protein of human immunodeficiency virus, and has potential value for the treatment of AIDS. As a first step toward providing the necessary quantities of this protein at an affordable price we report here on the production of functional, soluble human CD4 in transgenic mice. In these animals, a regulatory region derived from a murine gene encoding the whey acidic protein directs synthesis of human CD4 protein to the mammary gland of lactating animals where it is secreted into milk.
...
PMID:Functional human CD4 protein produced in milk of transgenic mice. 248 19

Early events of HIV infection of the CNS are not yet clear. HIV infection in most recent cases, generally shows a prolonged interval between diagnosis and death. HIV infection, months to years before the patient's death, may or may not result in early neurologic symptoms. AIDS patients with spinal cord symptoms often show a sudden onset of long tract signs and a temporally related altered mental status indicating the appearance of both myelitis and encephalitis. Immunohistochemical localization of the HIV cell-surface receptor protein, CD4, and of HIV antigens in cerebral and lymph node venular endothelial cells suggests that a natural occurrence or induction of CD4 protein in some endothelial cells allows transmission of HIV from circulating infected white blood cells preferentially to certain tissues through endothelial cell infection. HIV immunolocalization is present in perivascular astrocytes, particularly in long white matter tracts, and on the surface of oligodendrocytes. HIV immunoreactivity is mostly in macrophages and multinucleated cells in a typical autopsy case, but this may be due to the clearing of HIV antigen from early sites of infection by the hematogenous cells. Not all immunoreactivity for HIV antigens is necessarily due to HIV gene products. Cross reacting epitopes, such as that of HIV envelope glycoprotein gp120 and neuroleukin, may be "seen" not only by antibodies on tissue sections, but by an AIDS patient's immune system, thus targeting a CNS antigen for immune-complex formation. Evidence for hypersensitivity disease in the CNS in AIDS includes the frequent findings of demyelination, perivenous chronic inflammation, chronic vasculitis, and perivenous hemorrhages. The white matter demyelination so frequently reported in all areas of the CNS in AIDS could be the result of a combination of factors that include direct HIV vasculitis, opportunistic infections, and hypersensitivity responses. The blood-brain barrier is breached when immune-related antigens interact on CNS vascular endothelial cells. Perhaps the CD4 antigen, which responds to interaction with antigen-presenting cells and enhances cellular immune activity, is induced or increased in the CNS in association with immune activity and in the presence of a leaky blood-brain barrier. Therefore, with or without HIV in the CNS, hypersensitivity disease, including demyelination, may be the result of long-standing activity of the immune system in AIDS patients.
...
PMID:Immunohistochemistry of human immunodeficiency virus in the central nervous system and an hypothesis concerning the pathogenesis of AIDS meningoencephalomyelitis. 249 Dec 41

Human immunodeficiency virus type 1 (HIV-1) selectively infects cells expressing the CD4 molecule, resulting in substantial quantitative and qualitative defects in CD4+ T lymphocyte function in patients with acquired immunodeficiency syndrome (AIDS). However, only a very small number of cells in the peripheral blood of HIV-1-infected individuals are expressing virus at any given time. Previous studies have demonstrated that in vitro infection of CD4+ T cells with HIV-1 results in downregulation of CD4 expression such that CD4 protein is no longer detectable on the surface of the infected cells. In the present study, highly purified subpopulations of peripheral blood mononuclear cells (PBMCs) from AIDS patients were obtained and purified by fluorescence-automated cell sorting. They were examined with the methodologies of virus isolation by limiting dilution analysis, in situ hybridization, immunofluorescence, and gene amplification. Within PBMCs, HIV-1 was expressed in vivo predominantly in the T cell subpopulation which, in contrast to the in vitro observations, continued to express CD4. The precursor frequency of these HIV-1-expressing cells was about 1/1000 CD4+ T cells. The CD4+ T cell population contained HIV-1 DNA in all HIV-1-infected individuals studied and the frequency in AIDS patients was at least 1/100 cells. This high level of infection may be the primary cause for the progressive decline in number and function of CD4+ T cells in patients with AIDS.
...
PMID:The reservoir for HIV-1 in human peripheral blood is a T cell that maintains expression of CD4. 266 81

The expression of CD4 antigen on the surface of LeuM3-positive human blood monocytes was found to be variable with 65 to 90% of cells from 46 normal human volunteers being positive by dual staining flow cytometry. When monocytes adhered to plastic (but not when cultured on Teflon), a marked decrease in CD4 expression was observed between 1 and 24 h post-adherence. CD4 expression could not be detected in macrophages adhered to plastic for 5 days by using four anti-CD4 monoclonal antibodies in flow cytometry or direct immunofluorescence. Conversely an increasing proportion of adherent cells expressed LeuM3 and OKM5 surface antigens over the 5 days. CD4 mRNA levels were measured by slot-blot and Northern hybridization, and total cellular CD4 protein levels by immunoprecipitation. Both cellular mRNA and CD4 levels remained constant throughout the 5 day period but membrane CD4 protein levels were greatly reduced indicating that the down-regulation of CD4 was post-translational. Infection with two of six fresh human immunodeficiency virus (HIV) isolates showed different kinetic patterns when tested on purified monocytes recently adhered to plastic and macrophages adherent for 5 days. HIV antigen and reverse transcriptase levels in infected monocyte cultures remained high for 3 to 4 weeks before detachment and necrosis of the cells occurred. Infection of macrophages generated much lower levels of antigen and reverse transcriptase which declined to very low or undetectable levels over 2 weeks, leaving persisting viable macrophages. One week after infection HIV nucleic acid was detected in 69 +/- 7% of monocytes and 6 +/- 3% of macrophages by in situ hybridization. Blocking experiments with anti-Leu3a monoclonal antibody suggested that HIV infection of 5 day adherent macrophages occurred mainly by a mechanism other than binding to CD4.
...
PMID:Variations in CD4 expression by human monocytes and macrophages and their relationships to infection with the human immunodeficiency virus. 267 36

A number of studies have indicated that central nervous system-derived cells can be infected with human immunodeficiency virus type 1 (HIV-1). To determine whether CD4, the receptor for HIV-1 in lymphoid cells, was responsible for infection of neural cells, we characterized infectable human central nervous system tumor lines and primary fetal neural cells and did not detect either CD4 protein or mRNA. We then attempted to block infection with anti-CD4 antibodies known to block infection of lymphoid cells; we noted no effect on any of these cultured cells. The results indicate that CD4 is not the receptor for HIV-1 infection of the glioblastoma line U373-MG, medulloblastoma line MED 217, or primary human fetal neural cells.
...
PMID:CD4-independent infection of human neural cells by human immunodeficiency virus type 1. 278 88

Antibodies that enhance human immunodeficiency virus (HIV) infectivity have been found in the blood of infected individuals and in infected or immunized animals. These findings raise serious concern for the development of a safe vaccine against acquired immunodeficiency syndrome. To address the in vivo relevance and mechanism of this phenomenon, antibody-dependent enhancement of HIV infectivity in peripheral blood macrophages, lymphocytes, and human fibroblastoid cells was studied. Neither Leu3a, a monoclonal antibody directed against the CD4 receptor, nor soluble recombinant CD4 even at high concentrations prevented this enhancement. The addition of monoclonal antibody to the Fc receptor III (anti-FcRIII), but not of antibodies that react with FcRI or FcRII, inhibited HIV type 1 and HIV type 2 enhancement in peripheral blood macrophages. Although enhancement of HIV infection in CD4+ lymphocytes could not be blocked by anti-FcRIII, it was inhibited by the addition of human immunoglobulin G aggregates. The results indicate that the FcRIII receptor on human macrophages and possibly another Fc receptor on human CD4+ lymphocytes mediate antibody-dependent enhancement of HIV infectivity and that this phenomenon proceeds through a mechanism independent of the CD4 protein.
...
PMID:The Fc and not CD4 receptor mediates antibody enhancement of HIV infection in human cells. 278 47

The CD4 (T4) molecule is expressed on a subset of T lymphocytes involved in class II MHC recognition, and is probably the physiological receptor for one or more monomorphic regions of class II MHC (refs 1-3). CD4 also functions as a receptor for the human immunodeficiency virus (HIV) exterior envelope glycoprotein (gp120) (refs 4-9), being essential for virus entry into the host cell and for membrane fusion, which contributes to cell-to-cell transmission of the virus and to its cytopathic effects. We have used a baculovirus expression system to generate mg quantities of a hydrophilic extracellular segment of CD4. Concentrations of soluble CD4 in the nanomolar range, like certain anti-CD4 monoclonal antibodies, inhibit syncytium formation and HIV infection by binding gp120-expressing cells. Perhaps more importantly, class II specific T-cell interactions are uninhibited by soluble CD4 protein, whereas they are virtually abrogated by equivalent amounts of anti-T4 antibody. This may reflect substantial differences in CD4 affinity for gp120 and class II MHC.
...
PMID:A soluble CD4 protein selectively inhibits HIV replication and syncytium formation. 282 23

<< Previous 1 2 3 4 5 6 7 8 Next >>