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)

Yesterday's immunodeficiencies emphasized the clinical and familial associations of the syndromes and date from the 1920s (ataxia-telangiectasia, chronic mucocutaneous candidiasis), the 1930s (Wiskott-Aldrich syndrome), skipping the 1940s, but blossoming in the 15-y period from 1950 to 1965. In this period, primary immunodeficiencies affecting all the major limbs of the immune system were first described (1950: severe combined immunodeficiency; 1952: X-linked agammaglobulinemia; 1957: chronic granulomatous disease; 1965: C2 deficiency). Today's immunodeficiencies, as detailed in Stiehm's Immunologic Disorders in Infants and Children (Edition 1, 1973; Edition 2, 1980; and Edition 3, 1989) emphasize the immunologic and genetic aspects of immunodeficiency. These increased from 43 syndromes in the 1973 edition (34 primary, nine secondary) to 94 syndromes in the 1989 edition (66 primary, 28 secondary). This means that about two primary and one secondary immunodeficiencies have been uncovered annually. Tomorrow's immunodeficiencies, to be covered in Edition 4, will include new clinical and immunologic observations and molecular and biochemical studies that characterize some unique immunodeficiencies. These include the following six groups of defects: 1) neutropenic syndromes with hypogammaglobulinemia, including the WHIM syndrome; 2) phenotypic genetic syndromes with immunodeficiency including Bloom's syndrome and Schimke's immuno-osseous dysplasia; 3) natural killer cell defects associated with a) other primary immunodeficiencies, b) other nonimmunologic illness, and c) primary natural killer defects; 4) T-cell membrane defects; 5) IL defects; and 6) miscellaneous phagocytic illnesses including periodontitis and the asplenia syndrome.
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PMID:New and old immunodeficiencies. 843 70

A cofactor for HIV-1 (human immunodeficiency virus-type 1) fusion and entry was identified with the use of a novel functional complementary DNA (cDNA) cloning strategy. This protein, designated "fusin," is a putative G protein-coupled receptor with seven transmembrane segments. Recombinant fusin enabled CD4-expressing nonhuman cell types to support HIV-1 Env-mediated cell fusion and HIV-1 infection. Antibodies to fusin blocked cell fusion and infection with normal CD4-positive human target cells. Fusin messenger RNA levels correlated with HIV-1 permissiveness in diverse human cell types. Fusin acted preferentially for T cell line-tropic isolates, in comparison to its activity with macrophagetropic HIV-1 isolates.
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PMID:HIV-1 entry cofactor: functional cDNA cloning of a seven-transmembrane, G protein-coupled receptor. 862 6

Human immunodeficiency virus-type 1 (HIV-1) entry requires fusion cofactors on the CD4+ target cell. Fusin, a heterotrimeric GTP-binding protein (G protein)-coupled receptor, serves as a cofactor for T cell line-tropic isolates. The chemokines RANTES, MIP-1alpha, and MIP-1beta, which suppress infection by macrophage-tropic isolates, selectively inhibited cell fusion mediated by the corresponding envelope glycoproteins (Envs). Recombinant CC CKR5, a G protein-coupled receptor for these chemokines, rendered CD4-expressing nonhuman cells fusion-competent preferentially with macrophage-tropic Envs. CC CKR5 messenger RNA was detected selectively in cell types susceptible to macrophage-tropic isolates. CC CKR5 is thus a fusion cofactor for macrophage-tropic HIV-1 strains.
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PMID:CC CKR5: a RANTES, MIP-1alpha, MIP-1beta receptor as a fusion cofactor for macrophage-tropic HIV-1. 865 71

A panel of primary syncytium-inducing (SI) human immunodeficiency virus type 1 isolates that infected several CD4+ T-cell lines, including MT-2 and C8166, were tested for infection of blood-derived macrophages. Infectivity titers for C8166 cells and macrophages demonstrated that primary SI strains infected macrophages much more efficiently than T-cell line-adapted HIV-1 strains such as LAI and RF. These primary SI strains were therefore dual-tropic. Nine biological clones of two SI strains, prepared by limiting dilution, had macrophage/C8166 infectivity ratios similar to those of their parental viruses, indicating that the dual-tropic phenotype was not due to a mixture of non-SI/macrophage-tropic and SI/T-cell tropic viruses. We tested whether the primary SI strains used either Lestr (fusin) or CCR5 as coreceptors. Infection of cat CCC/CD4 cells transiently expressing Lestr supported infection by T-cell line-adapted strains including LAI, whereas CCC/CD4 cells expressing CCR5 were sensitive to primary non-SI strains as well as to the molecularly cloned strains SF-162 and JR-CSF. Several primary SI strains, as well as the molecularly cloned dual-tropic viruses 89.6 and GUN-1, infected both Lestr+ and CCR5+ CCC/CD4 cells. Thus, these viruses can choose between Lestr and CCR5 for entry into cells. Interestingly, some dual-tropic primary SI strains that infected Lestr+ cells failed to infect CCR5+ cells, suggesting that these viruses may use an alternative coreceptor for infection of macrophages. Alternatively, CCR5 may be processed or presented differently on cat cells so that entry of some primary SI strains but not others is affected.
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PMID:Primary, syncytium-inducing human immunodeficiency virus type 1 isolates are dual-tropic and most can use either Lestr or CCR5 as coreceptors for virus entry. 897 Sep 55

Recent evidence suggests that primary patient isolates of T-cell-tropic human immunodeficiency virus type 1 (HIV-1 ) have lower affinities for CD4 than their laboratory-adapted derivatives, that this may partly result from tighter gp120-gp41 bonds that constrain the CD4 binding sites of the primary viruses, and that selection for increased CD4 affinity may be the principal factor in laboratory adaptation of HIV-1 (S. L. Kozak, E. J. Platt, N. Madani, F. E. Ferro, Jr., K. Peden, and D. Kabat, J. Virol. 71:873-882, 1997). These conclusions were based on studies with a panel of HeLa-CD4 cell clones that differ in CD4 levels over a broad range, with laboratory-adapted viruses infecting all clones with equal efficiencies and primary T-cell-tropic viruses infecting the clones in proportion to cellular CD4 levels. Additionally, all of the primary and laboratory-adapted T-cell-tropic viruses efficiently used CXCR-4 (fusin) as a coreceptor. To test these conclusions by an independent approach, we studied mutations in the laboratory-adapted virus LAV/IIIB that alter the CD)4 binding region of gp120 and specifically reduce CD4 affinities of free gp 120 by 85 to 98% (U. Olshevsky et al., J. Virol. 64:5701-5707, 1990). These mutations reduced virus titers to widely varying extents that ranged from severalfold to several orders of magnitude and converted infectivities on the HeLa-CD4 panel from CD4 independency to a high degree of CD4 dependency that resembled the behavior of primary patient viruses. The relative infectivities of the mutants correlated closely with their sensitivities to inactivation by soluble CD4 but did not correlate with the relative CD4 affinities of their free gp120s. Most of the mutations did not substantially alter envelope glycoprotein synthesis, processing, expression on cell surfaces, incorporation into virions, or rates of gp120 shedding from virions. However, one mutation (D457R) caused a decrease in gp160 processing by approximately 80%. The fact that several mutations increased rates of spontaneous viral inactivation (especially D368P) suggests that HIV-1 life spans may be determined by structural stabilities of viral envelope glycoproteins. All of the wild-type and mutant viruses were only slowly and inefficiently adsorbed onto cultured CD4-positive cells at 37 degrees C, and the gradual declines in viral titers in the media were caused almost exclusively by spontaneous inactivation rather than by adsorption. The extreme inefficiency with which infectious HIV-1 is able to infect cultured susceptible CD4-positive cells in standard assay conditions casts doubt on previous inferences that the vast majority of retrovirions produced in cultures are noninfectious. Apparent infectivity of T-cell-tropic HIV-1 in culture is limited by productive associations with CD4 and is influenced in an interdependent manner by CD4 affinities of viral gp120-gp41 complexes and quantities of cell surface CD4.
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PMID:Infectious properties of human immunodeficiency virus type 1 mutants with distinct affinities for the CD4 receptor. 899 4

A clade B strain of human immunodeficiency virus type 1 (HIV-1(LAI)) could infect CD4+ cells expressing human CXCR-4 (fusin) or its rat homolog with similar efficacy. By contrast, cells expressing rat CXCR-4 were not permissive to HIV-1(NDK) (clade D), HIV-2(ROD), or HIV-1(LAI) with chimeric envelope protein gp120 bearing the V3 domain from HIV-1(NDK). The reciprocal chimeric gp120 (HIV-1(NDK) with V3 from HIV-1(LAI)) could mediate infection of cells expressing either human or rat CXCR-4. Genetically divergent HIV strains have different requirements for interaction with the CXCR-4 coreceptor, and the gp120 V3 domain seems to be involved in this interaction.
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PMID:Human immunodeficiency virus strains differ in their ability to infect CD4+ cells expressing the rat homolog of CXCR-4 (fusin). 906 Jun 91

Activation of CD4(+) T lymphocytes from human immunodeficiency virus-type 1 (HIV-1)-infected donors with immobilized antibodies to CD3 and CD28 induces a virus-resistant state. This effect is specific for macrophage-tropic HIV-1. Transcripts encoding CXCR4/Fusin, the fusion cofactor used by T cell line-tropic isolates, were abundant in CD3/CD28-stimulated cells, but transcripts encoding CCR5, the fusion cofactor used by macrophage-tropic viruses, were not detectable. Thus, CD3/CD28 costimulation induces an HIV-1-resistant phenotype similar to that seen in some highly exposed and HIV-uninfected individuals.
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PMID:Differential regulation of HIV-1 fusion cofactor expression by CD28 costimulation of CD4+ T cells. 909 80

Stromal cell-derived factor (SDF) 1 is a potent chemoattractant for leukocytes through activation of the receptor CXCR4/Fusin/LESTR, which is a fusion co-factor for the entry of T lymphocytotropic human immunodeficiency virus type 1 (HIV-1). This CXCR4-mediated HIV-1 fusion can be inhibited by SDF-1. Because of its importance in the study of immunity and AIDS, large scale production of SDF-1 is desirable. In addition to recombinant technology, chemical synthesis provides means by which biologically active proteins can be produced not only in large quantity but also with a variety of designed modifications. In this study, we investigated the binding and function of an SDF-1alpha analogue, N33A, synthesized by a newly developed native chemical ligation approach. Radioiodinated N33A showed high affinity binding to human monocytes, T lymphocytes, as well as neutrophils, and competed equally well with native recombinant SDF-1alpha for binding sites on leukocytes. N33A also showed equally potent chemoattractant activity as native recombinant SDF-1alpha for human leukocytes. Further study with CXCR4/Fusin/LESTR transfected HEK 293 cells showed that N33A binds and induces directional migration of these cells in vitro. These results demonstrate that the chemically synthesized SDF-1alpha analogue, N33A, which can be produced rapidly in large quantity, possesses the same capacity as native SDF-1alpha to activate CXCR4-expressing cells and will provide a valuable agent for research on the host immune response and AIDS.
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PMID:Chemically synthesized SDF-1alpha analogue, N33A, is a potent chemotactic agent for CXCR4/Fusin/LESTR-expressing human leukocytes. 931 1

Entry of the type 1 human immunodeficiency virus into most cells requires the presence of the CD4 protein in combination with one of several recently described co-receptors. CXCR-4 (fusin) was the first identified, and it serves as co-receptor for T-cell-line tropic (T-tropic) HIV-1 isolates. To determine the expression of CXCR-4 in the brain, a major target of HIV pathology, we used immunohistochemistry and reverse transcriptase polymerase chain reaction with CXCR-4-specific antibodies and probes. We found that CXCR-4 was expressed in several cell types in brain, but notably in neurons and microglia, a finding that was replicated in tissue culture. The study of the expression of CXCR-4 in the brain, which may be one of many chemokine receptors in the central nervous system, may provide further insight into the interactions between brain cells, pathogens, and the immune system, and help understand the pathogenesis of HIV dementia.
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PMID:CXCR-4 (Fusin), a co-receptor for the type 1 human immunodeficiency virus (HIV-1), is expressed in the human brain in a variety of cell types, including microglia and neurons. 932 37

Chemokine receptor CXCR4 (also known as LESTR and fusin) has been shown to function as a coreceptor for T-cell-tropic strains of human immunodeficiency virus type 1 (HIV-1). We have developed a binding assay to show that HIV envelope (Env) can interact with CXCR4 independently of CD4 but that this binding is markedly enhanced by the previous interaction of Env with soluble CD4. We also show that nonglycosylated HIV-1(SF-2) gp120 or sodium metaperiodate-treated oligomeric gp160 from HIV-1(451) bound much more readily to CXCR4 than their counterparts with intact carbohydrate residues did.
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PMID:Human immunodeficiency virus (HIV) envelope binds to CXCR4 independently of CD4, and binding can be enhanced by interaction with soluble CD4 or by HIV envelope deglycosylation. 949 13


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