UMLS:C0019693 - FACTA Search

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

Antiviral alpha-P-borano substituted NTPs are promising chain terminators targeting HIV reverse transcriptase (RT). Activation of antiviral nucleoside diphosphates (NDPs) to NTPs may be carried out by pyruvate kinase (PK) and creatine kinase (CK). Herein, are presented the effects of nucleobase, ribose, and alpha-phosphate substitutions on substrate specificities of CK and PK. Both enzymes showed two binding modes and negative cooperativity with respect to substrate binding. The stereospecificity and inhibition of ADP phosphorylation by alpha-P-borano substituted NDP (NDPalphaB) stereoisomers were also investigated. The Sp-ADPalphaB isomer was a 70-fold better substrate for CK than the Rp isomer, whereas PK preferred the Rp isomer of NDPalphaBs. For CK, the Sp-ADPalphaB isomer was a competitive inhibitor; for PK, the Rp-ADPalphaB isomer was a poor competitive inhibitor and the Sp-ADPalphaB isomer was a poor non-competitive inhibitor. Taken together, these data suggest that, although the Rp-NDPalphaB isomer would be minimally phosphorylated by CK or PK, it should not inhibit either enzyme.
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PMID:Stereospecificity, substrate, and inhibitory properties of nucleoside diphosphate analogs for creatine and pyruvate kinases. 1843 30

The Gag protein is the major structural determinant of retrovirus assembly. Although a number of cellular factors have been reported to facilitate retrovirus release, little is known about the cellular machinery that directs Gag to the site of virus assembly. Here, we report roles for the Golgi-localized gamma-ear containing Arf-binding (GGA) and ADP ribosylation factor (Arf) proteins in retrovirus particle assembly and release. Whereas siRNA-mediated depletion of GGA2 and GGA3 led to a significant increase in particle release in a late domain-dependent manner, GGA overexpression severely reduced retrovirus particle production by impairing Gag trafficking to the membrane. GGA overexpression inhibited retroviral assembly and release by disrupting Arf protein activity. Furthermore, disruption of endogenous Arf activity inhibited particle production by decreasing Gag-membrane binding. These findings identify the GGA proteins as modulators of HIV-1 release and the Arf proteins as critical cellular cofactors in retroviral Gag trafficking to the plasma membrane.
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PMID:GGA and Arf proteins modulate retrovirus assembly and release. 1843 1

The membrane proteins CD38 and CD157 belong to an evolutionarily conserved family of enzymes that play crucial roles in human physiology. Expressed in distinct patterns in most tissues, CD38 (and CD157) cleaves NAD(+) and NADP(+), generating cyclic ADP ribose (cADPR), NAADP, and ADPR. These reaction products are essential for the regulation of intracellular Ca(2+), the most ancient and universal cell signaling system. The entire family of enzymes controls complex processes, including egg fertilization, cell activation and proliferation, muscle contraction, hormone secretion, and immune responses. Over the course of evolution, the molecules have developed the ability to interact laterally and frontally with other surface proteins and have acquired receptor-like features. As detailed in this review, the loss of CD38 function is associated with impaired immune responses, metabolic disturbances, and behavioral modifications in mice. CD38 is a powerful disease marker for human leukemias and myelomas, is directly involved in the pathogenesis and outcome of human immunodeficiency virus infection and chronic lymphocytic leukemia, and controls insulin release and the development of diabetes. Here, the data concerning diseases are examined in view of potential clinical applications in diagnosis, prognosis, and therapy. The concluding remarks try to frame all of the currently available information within a unified working model that takes into account both the enzymatic and receptorial functions of the molecules.
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PMID:Evolution and function of the ADP ribosyl cyclase/CD38 gene family in physiology and pathology. 1862 62

The Nef protein of HIV-1 removes the immune costimulatory proteins CD80 and CD86 from the cell surface by a unique clathrin- and dynamin-independent, actin-based endocytic pathway that deploys coupled activation of c-src and Rac. In this study, we show that, similar to major histocompatibility complex class I (MHCI), Nef subsequently reroutes CD80 and CD86 to the Golgi region. However, not only are CD80/CD86 internalized by a different mechanism from MHCI but also the vesicular pathway of Golgi delivery for CD80/CD86 is distinct from that employed for MHCI. While MHCI passes through early endosomal and sorting compartments marked by Rab5/early embryonic antigen 1 and ADP ribosylation factor 6, respectively, CD80 and CD86 enter endocytic vesicles that do not acquire conventional early endosomal markers but remain accessible to fluid probes. Rather than being delivered to preexisting Rab11-positive recycling compartments, these vesicles recruit Rab11 de novo. Rab11 activity is also necessary for the delivery of CD80/CD86 in these transitional vesicles to the Golgi region. These data reveal an unusual pathway of endocytic vesicular traffic to the Golgi and its recruitment in a viral immune evasion strategy.
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PMID:HIV-1 Nef induces a Rab11-dependent routing of endocytosed immune costimulatory proteins CD80 and CD86 to the Golgi. 1876 22

Adenosine is a purine nucleoside, which is produced inside the body under metabolic stress like hypoxic conditions, acute or chronic inflammatory tissue insults. The synthesis of adenosine involves the catabolism of adenine nucleotides (ATP, ADP and AMP) by the action of extracellular ectonucleotidases i.e. CD39 or nucleoside triphosphate dephosphorylase (NTPD) and CD73 or 5'-ectonucleotidase. Once adenosine is released in the extracellular environment, it binds to different types of adenosine (i.e. adenosine A(1), A(2A), A(2B) and A(3) receptors) receptors expressed on various innate immune cells [Neutrophils, macrophages, mast cells, dendritic cells and natural killer cells]. Thus, depending on the type of adenosine receptor to which it binds, adenosine modulates innate immune response during various inflammatory conditions [i.e. chronic (cancer, asthma) as well as acute (sepsis, acute lung injury) inflammatory diseases]. This review summarizes the effect of adenosine on innate immunity and the use of adenosine receptor specific agonists or antagonists in various immunologic disorders (asthma, cancer, HIV-1 infection) as future immunomodulatory therapeutics.
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PMID:Adenosine: an endogenous modulator of innate immune system with therapeutic potential. 1946 86

The GGAs [Golgi-localised, gamma-ear containing, ARF (ADP ribosylation factor)-binding proteins] and the AP-1 (adaptor protein-1) complex are both adaptors for clathrin-mediated intracellular trafficking, but their relationship to each other is unclear. We have used two complementary systems, HeLa cells and Drosophila Dmel2 cells, to investigate GGA and AP-1 function. Immunoelectron microscopy of endogenous AP-1 and GGA in Dmel2 cells shows that they are predominantly associated with distinct clathrin-coated structures. Depletion of either GGA or AP-1 by RNAi does not affect the incorporation of the other adaptor into clathrin-coated vesicles (CCVs), and the cargo protein GFP-LERP (green fluorescent protein-lysosomal enzyme receptor protein) is lost from CCVs only when both adaptors are depleted. Similar results were obtained using HeLa cells treated with siRNA to deplete all three GGAs simultaneously. AP-1 was still incorporated into CCVs after GGA depletion and vice versa, and both needed to be depleted for a robust inhibition of receptor-mediated sorting of lysosomal hydrolases. In contrast, downregulation of major histocompatibility complex (MHC) class I by HIV-1 Nef, which requires AP-1, was not affected by a triple GGA knockdown. Thus, our results indicate that the two adaptors can function independently of each other.
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PMID:Spatial and functional relationship of GGAs and AP-1 in Drosophila and HeLa cells. 1984 56

The capsid (CA) protein plays crucial roles in HIV infection and replication, essential to viral maturation. The absence of high-resolution structural data on unassembled CA hinders the development of antivirals effective in inhibiting assembly. Unlike enzymes that have targetable, functional substrate-binding sites, the CA does not have a known site that affects catalytic or other innate activity, which can be more readily targeted in drug development efforts. We report the crystal structure of the HIV-1 CA, revealing the domain organization in the context of the wild-type full-length (FL) unassembled CA. The FL CA adopts an antiparallel dimer configuration, exhibiting a domain organization sterically incompatible with capsid assembly. A small compound, generated in situ during crystallization, is bound tightly at a hinge site ("H site"), indicating that binding at this interdomain region stabilizes the ADP conformation. Electron microscopy studies on nascent crystals reveal both dimeric and hexameric lattices coexisting within a single condition, in agreement with the interconvertibility of oligomeric forms and supporting the feasibility of promoting assembly-incompetent dimeric states. Solution characterization in the presence of the H-site ligand shows predominantly unassembled dimeric CA, even under conditions that promote assembly. Our structure elucidation of the HIV-1 FL CA and characterization of a potential allosteric binding site provides three-dimensional views of an assembly-defective conformation, a state targeted in, and thus directly relevant to, inhibitor development. Based on our findings, we propose an unprecedented means of preventing CA assembly, by "conformationally trapping" CA in assembly-incompetent conformational states induced by H-site binding.
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PMID:Structure of the HIV-1 full-length capsid protein in a conformationally trapped unassembled state induced by small-molecule binding. 2114 40

As the initial barrier to viral entry, the plasma membrane along with the membrane trafficking machinery and cytoskeleton are of fundamental importance in the viral cycle. However, little is known about the contribution of plasma membrane dynamics during early human immunodeficiency virus type 1 (HIV-1) infection. Considering that ADP ribosylation factor 6 (Arf6) regulates cellular invasion via several microorganisms by coordinating membrane trafficking, our aim was to study the function of Arf6-mediated membrane dynamics on HIV-1 entry and infection of T lymphocytes. We observed that an alteration of the Arf6-guanosine 5'-diphosphate/guanosine 5'-triphosphate (GTP/GDP) cycle, by GDP-bound or GTP-bound inactive mutants or by specific Arf6 silencing, inhibited HIV-1 envelope-induced membrane fusion, entry, and infection of T lymphocytes and permissive cells, regardless of viral tropism. Furthermore, cell-to-cell HIV-1 transmission of primary human CD4(+) T lymphocytes was inhibited by Arf6 knockdown. Total internal reflection fluorescence microscopy showed that Arf6 mutants provoked the accumulation of phosphatidylinositol-(4,5)-biphosphate-associated structures on the plasma membrane of permissive cells, without affecting CD4-viral attachment but impeding CD4-dependent HIV-1 entry. Arf6 silencing or its mutants did not affect fusion, entry, and infection of vesicular stomatitis virus G-pseudotyped viruses or ligand-induced CXCR4 or CCR5 endocytosis, both clathrin-dependent processes. Therefore we propose that efficient early HIV-1 infection of CD4(+) T lymphocytes requires Arf6-coordinated plasma membrane dynamics that promote viral fusion and entry.
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PMID:HIV-1 requires Arf6-mediated membrane dynamics to efficiently enter and infect T lymphocytes. 2134 89

l-nucleoside analogues are now largely used as antiviral drugs for the treatment of viral infections like HBV, HCV and HIV. However, in order to be fully active, they need to be phosphorylated by cellular or viral kinases. Human 3-phosphogycerate kinase (hPGK) was shown to catalyze the last step of activation of l-enantiomers and thus constitutes an attractive target for theoretical predictions of its phosphorylation efficiency. Molecular dynamics simulations were carried out with four different nucleotides (d-/l-ADP and d-/l-CDP) in complex with hPGK and 1,3-bisphospho-d-glycerate (bPG). The binding affinities of CDPs (both enantiomers) for hPGK were found very weak while d- and l-ADP were better substrates. Interestingly, the binding affinity of the bPG substrate was found to be lower in presence of d-ADP than l-ADP which indicates a potential antagonistic effect on one substrate to the other. A detailed analysis of the simulations unravels important dynamic conditions for efficient phosphorylation. Indeed, as previously described for the natural substrate, the hinge bending motion of the domains upon substrates binding should be more correlated and directional. Interestingly, the unforeseen finding was the larger dynamics freedoms observed for the substrates that was favored by the protein atoms flexibility around the nucleobase binding site.
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PMID:Ligand chirality effects on the dynamics of human 3-phosphoglycerate kinase: comparison between D- and L-nucleotides. 2154 83

Salmonella strains cause three main types of diseases in people: gastroenteritis, enteric (typhoid) fever, and non-typhoid extra-intestinal disease with bacteremia. Genetic analysis indicates that each clinical syndrome requires distinct sets of virulence genes, and Salmonella isolates differ in their constellation of virulence traits. The spv locus is strongly associated with strains that cause non-typhoid bacteremia, but are not present in typhoid strains. The spv region contains three genes required for the virulence phenotype in mice: the positive transcriptional regulator spvR and two structural genes spvB and spvC. SpvB and SpvC are translocated into the host cell by the Salmonella pathogenicity island-2 type-three secretion system. SpvB prevents actin polymerization by ADP-ribosylation of actin monomers, while SpvC has phosphothreonine lyase activity and has been shown to inhibit MAP kinase signaling. The exact mechanisms by which SpvB and SpvC act in concert to enhance virulence are still unclear. SpvB exhibits a cytotoxic effect on host cells and is required for delayed cell death by apoptosis following intracellular infection. Strains isolated from systemic infections of immune compromised patients, particularly HIV patients, usually carry the spv locus, strongly suggesting that CD4 T cells are required to control disease due to Salmonella that are spv positive. This association is not seen with typhoid fever, indicating that the pathogenesis and immunology of typhoid have fundamental differences from the syndrome of non-typhoid bacteremia.
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PMID:The Role of the spv Genes in Salmonella Pathogenesis. 2171 57

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