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

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The T cell surface molecule CD4 interacts with class II MHC molecules on the surface of target cells as well as with the envelope glycoprotein of human immunodeficiency virus (HIV). Internalization of CD4 molecules is observed after exposure of CD4+ T cells to either phorbol esters or appropriate antigen-bearing target cells. To determine whether HIV entry proceeds via receptor-mediated endocytosis or direct viral fusion with the cell membrane, we have constructed two mutants in the cytoplasmic domain of the CD4 protein that severely impair the ability of CD4 molecules to undergo endocytosis. Quantitative infectivity studies reveal that HeLa cell lines expressing wild-type or mutant CD4 molecules are equally susceptible to HIV infection. In addition, HIV binding does not lead to CD4 endocytosis. These studies indicate that although the CD4 molecule can be internalized, HIV entry proceeds via direct fusion of the viral envelope with the cell membrane.
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PMID:HIV infection does not require endocytosis of its receptor, CD4. 326 35

Six isolates of the human immunodeficiency virus (HIV) showed differences in their ability to productively infect glioma-derived cell lines and early-passage human brain cell cultures. Susceptibility to HIV infection correlated well with the expression of the astrocyte marker glial fibrillary acidic protein. The CD4 molecule was expressed on some, but not all, of the brain-derived cells; however, no correlation was observed between CD4 protein expression and susceptibility to virus infection. The results show that HIV can productively infect human brain cells, particularly those of glial origin, and suggest that these cell types in the brain can harbor the virus.
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PMID:Human immunodeficiency virus can productively infect cultured human glial cells. 347 22

We describe the isolation and characterization of variant cell lines which are chronically infected with the human immunodeficiency virus (HIV) and resistant to the action of immunotoxins directed against the HIV envelope protein. These variants all produce normal levels of HIV proteins, budding virions, and the envelope protein precursor gp160. Two of the variants, 10E and 11E, contain a mutation within the env gene which results in the production of a truncated precursor and altered processing and transport of the protein to the cell surface. Variants B9 and G4 are defective in gp160 cleavage and do not efficiently transport the envelope protein to the cell surface. There are no mutations in the expressed viruses of B9 and G4. These cell lines express higher levels of CD4 protein and mRNA than H9/NL4-3. Thus, 10E, 11E, B9, and G4 have escaped immunotoxin action by downmodulating the envelope protein from their cell surfaces. None of these variants produce infectious HIV. Two other immunotoxin-resistant variants, E9-3 and 41-17, produce normal levels of gp160, efficiently transport the cleaved and processed subunits to the cell surface, and secrete infectious HIV. These studies identify alterations in gp160 processing that underscore the importance of the relationship between HIV and the cell that it infects.
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PMID:Processing of the envelope glycoprotein gp160 in immunotoxin-resistant cell lines chronically infected with human immunodeficiency virus type 1. 747 32

Measurement of CD4 T-lymphocyte levels is clinically useful in monitoring immune status in a number of conditions, including human immunodeficiency virus (HIV) infection, in which the absolute CD4 count is used to guide therapy. The absolute CD4 count is obtained by multiplying the results of the leukocyte count and the differential with a hematology cell counter and the percentage of CD4+ T lymphocytes determined by flow cytometry. These techniques require expensive, complex instrumentation, and interlaboratory results are difficult to standardize and reproduce. The rapid growth of HIV infection worldwide has increased the need for more-reproducible and cost-effective methods for CD4 T-cell monitoring. The TRAx CD4 test kit is based on a novel adaptation of conventional enzyme-linked immunosorbent assay (ELISA) and permits the simple quantitation of total CD4 protein from whole-blood lysates. In this study, the relationship between total CD4 protein measured in units per milliliter (TRAx) and in cells per microliter (flow cytometry and hematology) was defined in a multisite clinical study using linear regression analysis. Data from 230 HIV-seronegative and 321 HIV-seropositive specimens were used to calibrate the TRAx assay recombinant CD4 standards and controls in equivalent CD4 T lymphocytes per microliter (cells per microliter). The calibration of the TRAx CD4 assay in cells per microliter was validated with a second group of specimens from 17 healthy volunteers and 20 HIV-seropositive patients which were collected and tested under strictly controlled conditions intended to minimize the effects of specimen aging on the results of the reference method. These data were also used to estimate the variability of absolute CD4 count by cytometric methods as well as the precision of the TRAx CD4 result after it was calibrated in cells per microliter. Overall, correlations between the two methods ranged from 0.87 to 0.95. Additional studies demonstrated that the contribution of CD4 protein from monocytes and any soluble CD4 in sera are negligible in the TRAx assay and do not significantly affect results. This new method represents a promising alternative to absolute CD4 T-cell enumeration by flow cytometry and hematology.
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PMID:Comparison of CD4 cell count by a simple enzyme-linked immunosorbent assay using the TRAx CD4 test kit and by flow cytometry and hematology. 771 1

Investigations of human immunodeficiency virus (HIV) infection of man have benefited from the study of relevant animal models of the infection and disease. However, the ultimate models use primate species which are either endangered, not generally available, or expensive to maintain. A transgenic rabbit specifically and stably expressing human CD4 protein on T lymphocytes was assessed as a new laboratory animal model for HIV-1 infection. In vitro studies demonstrate that lymphocytes derived from the transgenic rabbits are more susceptible to HIV-1IIIB infection than those from normal rabbits. In vivo infection of huCD4-transgenic rabbits using HIV-1IIIB-infected autologous lymphocytes was demonstrated by virus isolation, detection of HIV-1-specific DNA in peripheral blood lymphocytes and seroconversion to various HIV-1 proteins. Viral DNA was detected in the tissues of one rabbit sacrificed 7 weeks post-infection and virus was isolated from lymph node. Although these transgenic rabbits are less sensitive to HIV-1 infection than man, such a small and inexpensive animal model may be a useful tool.
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PMID:Human immunodeficiency virus type 1 infection of human CD4-transgenic rabbits. 778 63

Expression of the Nef protein encoded by human and simian immunodeficiency viruses results in the specific down-regulation of CD4 from the cell surface in both lymphoid and non-lymphoid cells. In this report, we examine the biosynthesis and cell surface expression of CD4 in the human T cell line, CEM-SS, that has been stably transduced with the SIV nef gene. Quantification of CD4 in Nef-expressing cells reveals that the steady state level of CD4 is significantly reduced as compared to control transductants. The presence of Nef in these cells promotes the degradation of newly synthesized CD4 protein. The biosynthesis and oligosaccharide processing of CD4 in Nef-expressing T cells appears to be normal through the endoplasmic reticulum and Golgi compartments, suggesting that the degradation of CD4 is a late event in the biosynthetic pathway. Treatment with the lysosomotropic agents chloroquine and primaquine prevents the degradation of CD4 in Nef-expressing CEM-SS cells, indicating that the degradation of CD4 likely occurs in an acidic compartment. Thus the reduced cell surface expression observed in Nef-expressing CEM-SS cells is the likely consequence of a Nef-induced sorting of CD4 into a cellular compartment where CD4 is then degraded.
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PMID:The simian immunodeficiency virus Nef protein promotes degradation of CD4 in human T cells. 790 75

HIV is the etiologic agent of AIDS. AIDS results from the loss of cells that are central to immune responses, T lymphocytes that express the CD4 protein on their surface. This paper relates HIV structure and replication to the clinical course of HIV infection. The virology of HIV replication is discussed first at the cellular and molecular levels. The course of HIV infection in vivo then is discussed and related to HIV replication. Finally, models that have been proposed to explain the mechanism whereby HIV causes immunodeficiency are considered. Although much is known about the growth of the virus both in vitro and in vivo, many questions remain about how HIV can deplete CD4-positive T lymphocytes and cause AIDS.
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PMID:HIV: virology and mechanisms of disease. 791 89

A dynamical model for an N-terminal fragment of the human CD4 protein has been determined by computer simulation. The protein has been studied both in vacuo and in solution. Data from both simulations agree moderately well with each other and with the crystal structure. All elements of secondary structure were retained during simulation. Point mutation and sequence replacement studies have shown that a loop in CD4, residues 40-52 is involved in binding with gp120, the human immunodeficiency virus surface glycoprotein. Our results show that the gp120-binding loop and a few regions which bind to monoclonal antibodies and class II MHC molecules are the most highly motile areas of the protein. These results are consistent with the suggestion that CD4 binds to target molecules by using induced-fit contacts.
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PMID:Molecular dynamics studies of the human CD4 protein. 794 28

We have compared cytoplasmic CD4 mRNA accumulation, CD4 biosynthesis and steady-state levels of both CD4 protein and mRNA in a variety of clonal derivatives of U-937 cells, chronically infected with human immunodeficiency virus type 1 IIIB (HIV-1), that express various cellular and viral phenotypes. These phenotypes included defective processing of either gp160 or Gag-Pol, viruses with severely limited host-range, and inability to generate viral products. All clones, with the exception of the one that failed to generate viral mRNA and proteins, did not express cell surface CD4. Furthermore, each of these clones had steady-state levels of CD4 mRNA which were either equivalent to or higher than those of the parental U-937 cell line. Patterns of cytoplasmic CD4 mRNA levels resembled those of total RNA, suggesting that CD4 mRNA transport from the nucleus to the cytoplasm was unaffected by HIV-1 infection. Profiles of steady-state levels of the CD4 protein resembled those of CD4 mRNA in the UHC clones, but CD4 biosynthesis was reduced in all clones with the exception of that which failed to express viral products. This report is the first demonstration that steady-state CD4 biosynthesis is reduced in HIV-1-infected cells. In general, there was a good correlation between high levels of expression of gp160 and reduced CD4 biosynthesis. These results suggest that HIV-1 env gene products may contribute to the observed reduction in levels of CD4 biosynthesis.
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PMID:Correlation between high level gp160 expression and reduced CD4 biosynthesis in clonal derivatives of human immunodeficiency virus type 1-infected U-937 cells. 815 1

CD4 is an integral membrane glycoprotein which functions as the human immunodeficiency virus receptor for infection of human host cells. We have recently demonstrated that Vpu, a human immunodeficiency virus type 1-encoded integral membrane phosphoprotein, induces rapid degradation of CD4 in the endoplasmic reticulum. Using an in vitro model system, we demonstrated that Vpu targets specific sequences in the cytoplasmic domain of CD4 to promote its degradation. In this report, we have further delineated regions within CD4 which are required for susceptibility to Vpu. Transfer of the CD4 cytoplasmic region into a heterologous protein, CD8, rendered the chimeric protein sensitive to Vpu-dependent degradation. In contrast, substitution of the CD8 transmembrane domain with the analogous region from CD4 did not confer sensitivity to Vpu. Finally, mutant forms of the CD4 protein containing the extracellular region alone or the extracellular and transmembrane regions linked to a heterologous cytoplasmic domain were not targeted by Vpu. Thus, sequences present in the cytoplasmic domain of CD4 are necessary and sufficient to confer sensitivity to Vpu.
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PMID:Sequences present in the cytoplasmic domain of CD4 are necessary and sufficient to confer sensitivity to the human immunodeficiency virus type 1 Vpu protein. 828 53


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