Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The absolute and relative content of T- and B-lymphocytes, T-helpers (CD4), T-suppressors (CD8), phagocytosis, complement and immunoglobulins A, M, G in the blood serum was examined in patients with chronic purulent otitis media. The investigation also involved tests on immunological activity of tymoptin (T), sodium nucleinate (SN), prodigiosan (PR), the combination of SN with PR. 148 patients aged 15-56 years were subdivided into 5 groups. In pretreatment immunological status of all the patients the count of T- and B-lymphocytes, T-helpers, phagocytosis were reduced against increased counts of IgM and T-suppressora. All the patients received similar conventional treatment with adjuvant SN (group 2), PR (group III), SN + PR (group 4), T (group 5). The conventional conservative and especially surgical treatment aggravated immunodeficiency. The adjuvant immunocorrectors potentiated the treatment effects which appeared to be most beneficial in group V followed by by groups IV, II and III in diminishing order.
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PMID:[Correction of immunologic disorders in patients with chronic suppurative otitis media]. 772 91

We have previously shown that lymphocytic cells adhere to cultured syncytiotrophoblast and that this may be important in the lymphocyte-mediated infection of trophoblast with the human immunodeficiency virus (HIV). During the course of studies aimed at investigating the role of cell surface carbohydrates in adhesion, it was discovered that a contaminant of commercial fucose-1-phosphate, dicyclohexylamine, inhibited MOLT-trophoblast adhesion. Dicyclohexylamine and the related compounds, cyclohexylamine and hexylamine, inhibited adhesion in a dose-responsive manner with half-maximal inhibition seen at about 4 mM. While the pressor effects of cyclohexylamine, the principal metabolite of cyclamate, are well known, this is the first report of an effect of this and related compounds on cell adhesion activity. The inhibitory effect was reversible and, at concentrations less than 25 mM, did not result in loss of cell viability. Several possible mechanisms of action of cyclohexylamine were examined in an attempt to explain the effect on adhesion. No evidence was found to suggest that the effects of cyclohexylamine were due to inhibition of polyamine synthesis, increase in intracellular Ca2+ concentration or to a lysosomotropic effect. The concentrations of cyclohexylamine used are within the range of plasma concentrations attainable in humans, raising the possibility that the in vitro effects described here may also occur in vivo. The results also suggest that caution should be used in the interpretation of results obtained from experiments where cell adhesion is blocked using exogenous monosaccharides that are in the form of dicyclohexylammonium salts. Appropriate controls must be included or, if possible, sodium, potassium or barium salts should be chosen.
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PMID:Cyclohexylamine inhibits the adhesion of lymphocytic cells to human syncytiotrophoblast. 776 8

Binding of the peptide fragment 828-848 (P828), amino acid sequence RVIEVVQGACRAIRHIPRRIR, from the carboxy-terminal region of the envelope glycoprotein gp41 of human immunodeficiency virus type 1 (HIV-1) to membranes composed of a mixture of neutral and negatively charged phospholipids results in domain or cluster formation of the charged lipid. The conformation and dynamics of the peptide are investigated in solution and in the presence of sodium dodecyl sulphate (SDS) micelles using high resolution nuclear magnetic resonance (NMR) spectroscopy and circular dichroism (CD) spectropolarimetry. The CD results demonstrate that addition of either SDS, negatively charged phospholipid liposomes, or trifluoroethanol (TFE) induces a conformational transition of the peptide from a random coil or an extended chain in water to a more ordered structure with an estimated helical content of up to 60%. The structure of the peptide in a membrane mimetic SDS solution was investigated in detail using two-dimensional NMR. The measurements demonstrate the existence of a helical component in the peptide conformation in the SDS-bound state. The peptide most likely exists as an ensemble of conformations with exchange times between them which are fast on the chemical shift NMR time scale (10(-3) s). Simple neutralization of the six arginine sidechain charges does not cause the peptide to adopt an ordered structure. Thus, there is an additional requirement for the structural transition such as that resulting from constraint of the peptide on a surface, or localization of the peptide at the lipid-water interface where the polarity is lower.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of the conformation of a peptide from gp41 on binding and domain formation in model membranes. 776 87

The regulation of human cytomegalovirus (hCMV) and human immunodeficiency virus (HIV) gene expression has been studied in single intact mammalian cells. Viral promoters were placed upstream of the firefly luciferase reporter gene and the resulting hybrid reporter constructs were stably integrated into the HeLa cell genome. A highly sensitive photon-counting camera system was used to study the level of gene expression in single intact cells. Luciferase expression was studied in the absence of activators of viral gene expression, in the presence of the HIV-1 TAT transactivator protein, or in the presence of sodium butyrate, a non-viral activator of gene expression. In the absence of any activator of gene expression, while expression was undetectable in most cells, significant levels of basal luciferase activity were observed in a few cells, indicating heterogeneity in gene expression in the cell population. In the presence of the general activator of viral gene expression, sodium butyrate, transcriptional activation from the viral promoters gave rise to significant and relatively homogeneous levels of luciferase expression in a majority of cells. The luciferase imaging technology was used for the real-time analysis of changes of gene expression within a single cell. This non-invasive reporter assay should become important for studies of the temporal regulation of gene expression in single cells.
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PMID:Real-time analysis of the transcriptional regulation of HIV and hCMV promoters in single mammalian cells. 776 92

Stimulation of antigen receptors of lymphocytes triggers a transitory release of Ca2+ from internal stores and the opening of a transmembrane Ca2+ conductive pathway. The latter underlies the sustained increase of intracellular free calcium concentration, and it seems to be a key event in the Ca(2+)-dependent biochemical cascade leading to T cell proliferation. Alternatively, pharmacological depletion of internal stores by itself activates Ca2+ influx. This has led to the hypothesis that antigen-triggered Ca2+ influx is secondary to Ca2+ release from internal stores. However, the precise relationship between antigen and Ca2+ release-activated Ca2+ currents remains unclear, particularly since neither of them has been electrophysiologically recorded in normal lymphocytes. Using the whole-cell and the perforated configurations of the patch clamp technique on peripheral blood lymphocytes, we found that a low amplitude Ca(2+)-selective current was triggered when intracellular stores were depleted by stimuli such as the intracellular perfusion of inositol triphosphate or thapsigargin and the extracellular perfusion of ionomycin. A similar current was elicited by the cross-linking of the T cell receptor-CD3 complex. This current displayed an inward rectification below 0 mV and was completely blocked by the divalent cation Cd2+. It was very selective for Ca2+ over Na+ and insensitive to changes in chloride concentration. The physiological relevance of this conductance was investigated with the analysis of abnormal Ca2+ signaling in lymphocytes from a patient suffering from a primary immunodeficiency associated with a defective T cell proliferation. Using fura-2 video imaging, an absence of Ca2+ influx was established in the patient's lymphocytes, whereas the Ca2+ release from internal stores was normal. This was the case whether cells were stimulated physiologically through their antigen receptors or with store depleting pharmacological agents. Most importantly, no Ca(2+)-selective current was elicited in these cells. Our data strongly suggest that the Ca2+ release-activated current underlies the sustained Ca2+ influx during antigenic stimulation and that it plays a key role in the immune function.
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PMID:The calcium current activated by T cell receptor and store depletion in human lymphocytes is absent in a primary immunodeficiency. 779 33

Fungi are widely dispersed in nature and frequently appear as pathogens in the animal and plant kingdoms. The incidence of opportunistic fungal infections in humans has increased due to the human immunodeficiency virus and the application of modern medical approaches that subvert natural protective barriers to infection. Also, fungal blights continue to threaten crops worldwide. As a result, new antifungal agents are needed to address these critical problems. Existing antifungals can be used to effectively treat most cases of topical infection caused by the opportunistic pathogen Candida albicans, which is the principal agent of nosocomially acquired fungal infections. However, life-threatening, disseminated Candida infections are treated with more modest success. Existing antifungals can be toxic or ineffective because of natural resistance or even induced resistance. This limited efficacy largely reflects the restricted range of cellular targets considered during the development of current antifungals. The advancement of highly selective fungicidal reagents requires the recognition of new essential cellular targets. The fungal plasma-membrane proton pump is a high-abundance essential enzyme with a number of well-understood molecular properties that should facilitate the development of new antifungals. The proton pump is important for intracellular pH regulation and the maintenance of electrochemical proton gradients needed for nutrient uptake. It is a member of the P-type class of ion-transport enzymes, which are present in nearly all external cellular membranes. Typical P-type enzymes such as the Na+,K(+)-ATPase and H+,K(+)-ATPase are well established as specific targets for surface-active cardiac glycosides and anti-ulcer therapeutics. The development of new classes of selective antifungals targeted to the proton pump will require exploitation of the well-characterized genetic, kinetic, topological, regulatory, and drug-interaction features of the fungal enzyme that discriminate it from related host P-type enzymes. New antifungal drugs of this type should be relevant to the control of fungal pathogens of medical and agricultural importance and may be applicable to the control of intracellular parasites that also depend on closely related proton pumps for survival.
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PMID:Fungal plasma membrane proton pumps as promising new antifungal targets. 780 57

We evaluated the stability of human immunodeficiency virus (HIV) load markers from blood samples collected in VACUTAINER CPT or standard VACUTAINER brand tubes using sodium heparin or sodium citrate as anticoagulants. Quantitative plasma culture and p24 antigen concentrations were determined, and HIV RNA levels in plasma were measured by both reverse transcription-PCR-enzyme-linked immunosorbent assay (RT-PCR-ELISA) and branched DNA methods. All tubes were stored at room temperature for analysis at 2, 24, 48, and 72 h after the blood samples were drawn. No difference was seen between tube types with respect to the HIV titer in plasma or the positivity rate for all samples that demonstrated a fall in titer over time. Unbound p24 antigen levels in plasma decreased during the initial 48-h period in both tube types. Immune complex-dissociated p24 antigen levels decreased in CPT tubes but not in standard VACUTAINER tubes. The HIV RNA copy number in plasma measured by RT-PCR-ELISA was stable in most subjects and was significantly higher in CPT tubes than in standard VACUTAINER tubes at 24 and 72 h after the blood samples were drawn. The branched DNA probe assay detected a significant decline in HIV RNA equivalent in plasma over 72 h in both collection tubes, the decline being more dramatic in the standard VACUTAINER tube than the CPT tube. Overall, interday variability suggests that samples collected for a particular assay should be processed at the same time after blood is drawn and that a particular tube type be used throughout a given study.
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PMID:Stabilities of quantitative plasma culture for human immunodeficiency virus, RNA, and p24 antigen from samples collected in VACUTAINER CPT and standard VACUTAINER tubes. 781 49

J delta K cells were isolated as a chronically infected survivor cell line, following infection of Jurkat CD4+ T cells with dl-NF, a mutated strain of human immunodeficiency virus type 1 (HIV-1) containing a deletion of the long terminal repeat (LTR) NF-kappa B sites. J delta K cells exhibited very low levels of constitutive HIV production. HIV-1 expression was activated from J delta K cells by treatment with phorbol myristate acetate (PMA), sodium butyrate (NaB), or hexamethylene bisacetamide (HMBA), but not tumor necrosis factor alpha (TNF-alpha), confirming the role of NF-kappa B in mediating TNF-alpha induction of HIV transcription. The strong induction of HIV expression by NaB or HMBA in J delta K cells clearly demonstrates the existence of NF-kappa B-independent mechanisms of HIV activation in chronically infected cells. J delta K cells may provide a useful model for characterizing NF-kappa B-independent transcriptional activation of the HIV LTR.
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PMID:NF-kappa B-dependent and -independent pathways of HIV activation in a chronically infected T cell line. 791 75

The peptide fragment of the carboxy-terminal region of the human immunodeficiency virus (HIV) transmembrane protein (gp41) has been implicated in T-cell death. This positively charged, amphipathic helix (amino acids 828 to 848) of the envelope protein is located within virions or cytoplasm. We studied the interaction of the isolated, synthetic amphipathic helix of gp41 with planar phospholipid bilayer membranes and with Sf9 cells using voltage clamp, potentiodynamic, and single-cell recording techniques. We found that the peptide binds strongly to planar membranes, especially to the negatively charged phosphatidylserine bilayer. In the presence of micromolar concentrations of peptide sufficient to make its surface densities comparable with those of envelope glycoprotein molecules in HIV virions, an increase in bilayer conductance and a decrease in bilayer stability were observed, showing pore formation in the planar lipid bilayers. These pores were permeable to both monovalent and divalent cations, as well as to chloride. The exposure of the inner leaflet of cell membranes to even 25 nM peptide increased membrane conductance. We suggest that the carboxy-terminal fragment of the HIV type 1 envelope protein may interact with the cell membrane of infected T cells to create lipidic pores which increase membrane permeability, leading to sodium and calcium flux into cells, osmotic swelling, and T-cell necrosis or apoptosis.
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PMID:An amphipathic peptide from the C-terminal region of the human immunodeficiency virus envelope glycoprotein causes pore formation in membranes. 793 93

Several groups have reported that sulfated polysaccharides are potent and selective in vitro inhibitors of human immunodeficiency virus type 1 (HIV-1); however, their therapeutic application is limited by their anticoagulant activity. In view of possible improvements in therapeutic potential, a number of heparin derivatives with reduced anticoagulant activity were studied for their inhibitory activity of an HIV-dependent syncytium formation assay, in comparison with standard anionic polysaccharides, such as sodium heparin, dextran sulfate, and heparin sulfate. The chemical modifications introduced in the heparin molecule included succinylation of desulfated N groups (Suc-H), exhaustive periodate oxidation and reduction (RO-H), and controlled nitrous acid degradation (LMW-H). The most pronounced anti-HIV activity was observed with RO-H, Suc30-H (standard heparin, 30% succinylated), and Suc100-LMW-H (low molecular weight heparin, 100% succinylated); the latter retained only 5% of the anticoagulant activity of standard heparin, whereas RO-H and Suc30-H retained approximately 35% of the anticoagulant activity of standard heparin. A safety ratio (arbitrary units of anti-HIV activity per anticoagulant international unit) was calculated: by this parameter, RO-H, Suc30-H, and Suc100-LMW-H were, respectively, 48-, 3.6-, and 1644-fold more safe than standard heparin.
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PMID:Anti-HIV type 1 properties of chemically modified heparins with diminished anticoagulant activity. 798 84


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