UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
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Candida albicans and Cryptococcus neoformans are major causes of systemic fungal infections, particularly in patients with acquired immunodeficiency syndrome. Metabolic labeling studies revealed that these organisms synthesize a small number of N-myristoylproteins, the most prominent being 20-kDa ADP-ribosylation factors (Arfs). C. albicans Arf has approximately 80% identity with the essential Arf1 and Arf2 proteins of Saccharomyces cerevisiae. [3H]Myristic acid analogs with oxygen for -CH2- substitutions at C4, C6, C11, and C13 are incorporated into cellular N-myristoylproteins, phospholipids, and neutral lipids produced by these three yeasts during exponential growth at 30 degrees C in complex media. Analog- and organism-specific differences in the efficiency of labeling of proteins and lipid classes were observed. The effects of oxatetradecanoic acids with oxygen for -CH2- substitutions at C3-C13 on C. neoformans, C. albicans, and S. cerevisiae were assessed during mid-log phase growth at 30 degrees C. A single dose of 3-oxa-, 4-oxa-, 5-oxa- or 6-oxatetradecanoic acid (O3-O6, final concentration = 300 microM) was able to inhibit growth of C. neoformans in the order O4 greater than O5 greater than O3 approximately O6. The other compounds were inactive. 4-Oxatetradecanoic acid was fungicidal, producing a 10,000-fold reduction in viable cell number 1 h after administration and continued suppression of cell growth for 7 h. A clear dose response was observed over a concentration range of 100-300 microM. 4-Oxatridecanoic acid was 100-fold less potent in reducing cell viability than 4-oxatetradecanoic acid but more potent than 5-oxatridecanoic acid. O4 produced approximately 10-100-fold reductions in the viability of C. albicans and S. cerevisiae at 300-500 microM, respectively, whereas O5 and O6 were less active. Since N-myristoylation of the Pr55gag polyprotein precursor produced by human immunodeficiency virus I (HIV-I) is essential for its assembly, we also assessed the antiviral effects of 4-oxatetradecanoic acid. O4 is able to produce a 50% reduction in the replication of HIV-I in acutely infected human T-lymphocyte cell lines at a concentration of 18 microM. Together, these data suggest that (i) the position of the oxygen for methylene substitution is a critical determinant of the fungicidal activity of O4 and (ii) NMT may be an attractive therapeutic target for treating opportunistic fungal infections in patients infected with HIV-I.
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PMID:4-oxatetradecanoic acid is fungicidal for Cryptococcus neoformans and inhibits replication of human immunodeficiency virus I. 151 54

Covalent attachment of myristic acid (C14:0) to the amino-terminal glycine residue of a variety of eukaryotic cellular and viral proteins can have a profound influence on their biological properties. The enzyme that catalyzes this modification, myristoyl-CoA-protein N-myristoyltransferase (NMT), has been identified as a potential target for antiviral and antifungal therapy. Its reaction mechanism is ordered Bi Bi with myristoyl-CoA binding occurring before binding of peptide and CoA release preceding release of myristoylpeptide. Perturbations in the binding of its acyl-CoA substrate would therefore be expected to have an important influence on catalysis. We have synthesized 56 analogs of myristic acid (C14:0) to further characterize the acyl-CoA binding site of Saccharomyces cerevisiae NMT. The activity of fatty acid analogs was assessed using a coupled in vitro assay system that employed the reportedly nonspecific Pseudomonas acyl-CoA synthetase, purified S. cerevisiae NMT, and octapeptide substrates derived from residues 2-9 of the catalytic subunit of cyclic AMP-dependent protein kinase and the Pr55gag polyprotein precursor of human immunodeficiency virus I (HIV-I). Analysis of ketocarbonyl-, ester-, and amide-containing myristic acid analogs (the latter in two isomeric arrangements, the acylamino acid (-CO-NH-) and the amide (-NH-CO)) indicated that the enzyme's binding site is able to accommodate a dipolar protrusion from C4 through C13. This includes the region of the acyl chain occurring near C5-C6 (numbered from carboxyl) that appears to be bound in a bent conformation of 140-150 degrees. The activities of NMT's acyl-CoA substrates decrease with increasing polarity. This relationship was particularly apparent from an analysis of a series of analogs in which the hydrocarbon chain was terminated by (i) an azido group or (ii) one of three nitrogen heterocycles (imidazole, triazole, and tetrazole) alkylated at either nitrogen or carbon. This inverse relationship between polarity and activity was confirmed after comparison of the activities of the closely related ester- or amide-containing tetradecanoyl-CoA derivatives. Members from all of the analog series were surveyed to determine whether they could inhibit replication of human immunodeficiency virus I (HIV-I), a retrovirus that depends upon N-myristoylation of its Pr55gag for propagation. 12-Azidododecanoic acid was the most active analog tested, producing a 60-90% inhibition of viral production in both acutely and chronically infected T-lymphocyte cell lines at a concentration of 10-50 microM without associated cellular toxicity.
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PMID:Substrate specificity of Saccharomyces cerevisiae myristoyl-CoA: protein N-myristoyltransferase. Analysis of fatty acid analogs containing carbonyl groups, nitrogen heteroatoms, and nitrogen heterocycles in an in vitro enzyme assay and subsequent identification of inhibitors of human immunodeficiency virus I replication. 155 67

The expression of the gag-pol polyprotein of human immunodeficiency virus type 1 (HIV-1) occurs via ribosomal frameshifting between the gag and pol genes. Because low levels of the gag-pol precursor are naturally produced in HIV-1-infected cells, a limited amount of information is available on the biology of this molecule. To further study this polyprotein, two mutant HIV-1 proviral genomes were created to position the gag and pol genes in the same translational reading frame. The mutations inserted a single thymidine nucleotide at the site of ribosomal frameshifting (nucleotide 1635), which results in the addition of a phenylalanine residue (frameshift 1 [FS1]), or a single adenine nucleotide, which results in the addition of a leucine residue (frameshift 2 [FS2]). Transfection of the mutant proviral genomes into COS-1 cells resulted in the expression of the p160gag-pol polyprotein precursor as well as the proteolytically processed gag and pol gene products. Metabolic labeling of the transfected cells with [3H]myristic acid revealed that the p160gag-pol and p17gag proteins expressed from the mutant genomes were myristylated. While the supernatants from COS-1 cells transfected with wild-type or mutant proviral genomes contained similar amounts of p24 antigen, the levels of reverse transcriptase were, on the average, 10 times greater in the supernatants from cells transfected with the FS1 and FS2 proviral genomes. The cells transfected with the wild-type proviral genome released infectious viral particles, while the mutant proviral genomes released p24 and reverse transcriptase in the absence of detectable particle formation. The mutant proviral genomes were completely noninfectious as determined by coculture of the transfected COS-1 cells with SupT1 cells. These results demonstrate that the gag-pol polyprotein of HIV-1 contains the appropriate signals for proteolytic processing and association with intracytoplasmic membranes in the absence of virion formation.
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PMID:Overexpression of the gag-pol precursor from human immunodeficiency virus type 1 proviral genomes results in efficient proteolytic processing in the absence of virion production. 187 Feb 15

Covalent linkage of myristate (tetradecanoate; 14:0) to the NH2-terminal glycine residue of the human immunodeficiency virus 1 (HIV-1) 55-kDa gag polyprotein precursor (Pr55gag) is necessary for its proteolytic processing and viral assembly. We have shown recently that several analogs of myristate in which a methylene group is replaced by a single oxygen or sulfur atom are substrates for Saccharomyces cerevisiae and mammalian myristoyl-CoA:protein N-myristoyltransferase (EC 2.3.1.97; NMT) despite their reduced hydrophobicity. Some inhibit HIV-1 replication in acutely infected CD4+H9 cells without accompanying cellular toxicity. To examine the mechanism of their antiviral effects, we performed labeling studies with two analogs, 12-methoxydodecanoate (13-oxamyristate; 13-OxaMyr) and 5-octyloxypentanoate (6-oxamyristate; 6-OxaMyr), the former being much more effective than the latter in blocking virus production. [3H]Myristate and [3H]13-OxaMyr were incorporated into Pr55gag with comparable efficiency when it was coexpressed with S. cerevisiae NMT in Escherichia coli. [3H]6-OxaMyr was not incorporated, even though its substrate properties in vitro were similar to those of 13-OxaMyr and myristate. [3H]13-OxaMyr, but not [3H]6-OxaMyr, was also efficiently incorporated into HIV-1 Pr55gag and nef (negative factor) in chronically infected H9 cells. Analog incorporation produced a redistribution of Pr55gag from membrane to cytosolic fractions and markedly decreased its proteolytic processing by viral protease. 13-OxaMyr and 3'-azido-3'-deoxythymidine (AZT) act synergistically to reduce virus production in acutely infected H9 cells. Unlike AZT, the analog is able to inhibit virus production (up to 70%) in chronically infected H9 cells. Moreover, the inhibitory effect lasts 6-8 days. These results suggest that (i) its mechanism of action is distinct from that of AZT and involves a late step in virus assembly; (ii) the analog may allow reduction in the dose of AZT required to affect viral replication; and (iii) combinations of analog and HIV-1 protease inhibitors may have synergistic effects on the processing of Pr55gag.
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PMID:Incorporation of 12-methoxydodecanoate into the human immunodeficiency virus 1 gag polyprotein precursor inhibits its proteolytic processing and virus production in a chronically infected human lymphoid cell line. 200 42

We have explored the acyl-CoA substrate specificity of Saccharomyces cerevisiae myristoyl-CoA:protein N-myristoyltransferase (NMT) by synthesizing 81 fatty acid analogs and surveying their activity in a coupled in vitro assay containing Pseudomonas acyl-CoA synthetase and Escherichia coli-derived yeast NMT. Single oxygen or sulfur substitution for C-3 through C-13 is well tolerated by both enzymes. Detailed kinetic analyses suggest that the acyl-CoA and peptide-binding sites of NMT are relatively insensitive to placement of single group 6B heteroatoms. By contrast, di-oxygen-substituted analogs were very poor substrates, producing dramatic reductions in the affinity of NMTs peptide-binding site for a synthetic octapeptide substrate derived from the NH2-terminal sequence of a known N-myristoylprotein, the gag poly-protein precursor of human immunodeficiency virus 1 (HIV-1). This observation provides an example of binding site cooperativity in NMT. Replacement of one oxygen with sulfur at either the 6, 9, or 12 position of dioxatetradecanoic acids results in a general increase in peptide catalytic efficiency (Vmax/Km). An analysis of five fatty acids from octanoic to dodecanoic having terminal phenyl groups indicated that the best substrate was 10-phenyldecanoic acid even though Corey-Pauling-Koltun molecular models indicate that it has a length equivalent to that of tridecanoic acid. Six analogs having an equivalent length of 13 carbon atoms were subsequently prepared in which the phenyl group was systematically moved one methylene group closer to carboxyl. Movement of the phenyl just one carbon closer to carboxyl (producing 9-(p-methylphenyl) nonanoic acid) decreases peptide catalytic efficiency (Vmax/Km) severalfold compared to 10-phenyldecanoic acid. 10-(4-Tolyl)decanoic acid has the same relative positions of phenyl and carboxyl as 10-phenyldecanoic acid even though a methyl group is present on the phenyl ring. It produces peptide Km and Vmax values that are the same as 10-phenyldecanoic acid. Substitution of either oxygen or sulfur for a methylene group fails to override the effects noted when the phenyl group position is altered in the C-14 equivalent fatty acid series. Several fatty acids of differing chain lengths with cyclohexyl-, 2-furyl, and 2-thienyl groups at their omega termnius had activity profiles that paralleled those of the comparable phenyl-substituted compounds. Myristic acid analogs with triple bonds (beginning at positions 2 through 13), cis-double bonds (positions 3 through 13) and trans-double bond isomers (E5, E6, and E7) were also tested.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The substrate specificity of Saccharomyces cerevisiae myristoyl-CoA:protein N-myristoyltransferase. Analysis of myristic acid analogs containing oxygen, sulfur, double bonds, triple bonds, and/or an aromatic residue. 202 98

Myristoyl-CoA:protein N-myristoyltransferase (NMT) catalyzes the covalent attachment of myristic acid to the NH2-terminal Gly residues of a number of viral and cellular proteins. The remarkable specificity of this enzyme for myristoyl CoA observed in vivo appears to arise in large part from a cooperativity between NMT's acylCoA and peptide binding sites: the length of the acylCoA bound to NMT influences the interactions of peptide substrates with NMT. We have previously synthesized analogs of myristic acid with single oxygen or sulfur for methylene substitutions. These heteroatom substitutions produce significant reductions in acyl chain hydrophobicity without accompanying alterations in chain length or stereochemical restrictions. In vitro studies have shown that the CoA thioesters of these analogs are substrates for S. cerevisiae NMT and that the efficiency of their transfer to octapeptide substrates is peptide sequence-dependent. In vivo studies with cultured mammalian cells have confirmed that these fatty acid analogs are selectively incorporated into a subset of cellular N-myristoylproteins, that only a subset of analog-substituted proteins undergo redistribution from membrane to cytosolic fractions, and that these analogs can inhibit the replication of human immunodeficiency virus I and Moloney murine leukemia viruses--two retroviruses that depend upon N-myristoylation of their gag polyprotein precursors for assembly. We have now extended our analysis of NMT-acylCoA interactions by synthesizing additional analogs of myristic acid and testing them in a coupled in vitro assay system. Myristic acid analogs with two oxygen or two sulfur substitutions have hydrophobicities comparable to that of hexanoic acid and decanoic acid, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Novel fatty acyl substrates for myristoyl-CoA:protein N-myristoyl-transferase. 219 61

Covalent linkage of myristic acid to the N-terminal glycine residue of Pr55gag, the precursor of the major structural proteins of human immunodeficiency virus 1 (HIV-1), facilitates an essential step in virus assembly and propagation. Substitution of the myristoyl-acceptor glycine with alanine, in a functional clone of HIV-1, eliminates virus replication. Complementation of this defect, in trans, restores infectious particle production. The nonmyristoylated (myr-) gag precursor accumulates in infected cells and is not processed into the mature capsid components of the intact virion. However, myr- Pr55gag can be processed by purified HIV protease in vitro, demonstrating that the myristoyl moiety is not required for cleavage by the protease. Myristoylation of Pr55gag is not necessary for localization but is required for stable membrane association and assembly of HIV-1.
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PMID:Myristoylation-dependent replication and assembly of human immunodeficiency virus 1. 240 82

Protein N-myristoylation refers to the covalent attachment of a myristoyl group (C14:0), via amide linkage, to the NH2-terminal glycine residue of certain cellular and viral proteins. Myristoyl-CoA:protein N-myristoyltransferase (NMT) catalyzes this cotranslational modification. We have developed a system for studying the substrate requirements and biological effects of protein N-myristoylation as well as NMT structure-activity relationships. Expression of the yeast NMT1 gene in Escherichia coli, a bacterium that has no endogenous NMT activity, results in production of the intact 53-kDa NMT polypeptide as well as a truncated polypeptide derived from proteolytic removal of its NH2-terminal 39 amino acids. Each E. coli-synthesized NMT species has fatty acid and peptide substrate specificities that are indistinguishable from those of NMT recovered from Saccharomyces cerevisiae, suggesting that the NH2-terminal domain of this enzyme is not required for its catalytic activity. By using a dual plasmid system, N-myristoylation of a mammalian protein was reconstituted in E. coli by simultaneous expression of the yeast NMT1 gene and a murine cDNA encoding the catalytic (C) subunit of cAMP-dependent protein kinase (PK-A). The fatty acid specificity of N-myristoylation was preserved in this system: [9,10(n)-3H]myristate but not [9,10(n)3H]palmitate was efficiently linked to Gly-1 of the C subunit. [13,14(n)-3H]10-Propoxydecanoic acid, a heteroatom-containing analog of myristic acid with reduced hydrophobicity but similar chain length, was an effective alternative substrate for NMT that also could be incorporated into the C subunit of PK-A. Such analogs have recently been shown to inhibit replication of certain retroviruses that depend upon linkage of a myristoyl group to their gag polyprotein precursors (e.g., the Pr55gag of human immunodeficiency virus type 1). A major advantage of the bacterial system over eukaryotic systems is the absence of endogenous NMT and substrates, providing a more straightforward way of preparing myristoylated, analog-substituted, and nonmyristoylated forms of a given protein for comparison of their structural and functional properties. The system should facilitate screening of enzyme inhibitors as well as alternative NMT fatty acid substrates for their ability to be incorporated into a specific target protein. Our experimental system may prove useful for recapitulating other eukaryotic protein modifications in E. coli so that structure-activity relationships of modifying enzymes and their substrates can be more readily assessed.
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PMID:Protein N-myristoylation in Escherichia coli: reconstitution of a eukaryotic protein modification in bacteria. 240 21

Recombinant vaccinia viruses containing either the entire gag/pol gene or the reverse transcriptase (RT) domain of the human immunodeficiency virus (HIV) were constructed. In mammalian cells infected with the recombinant vaccinia virus containing the gag/pol gene, major and minor polypeptides of 55 and 41 kDa were made, but processed gag products (p24/p17/p15) were not detected. In addition, none of the products of the pol open-reading frame were seen. Both the 55- and 41-kDa gag proteins were post-translationally modified by addition of myristic acid residues in recombinant vaccinia-infected cells, and were immunoprecipitated by antiserum to p24 gag, as well as by antisera from HIV-infected patients. These results indicate that neither proteolytic processing nor other HIV proteins are required for myristilation, and suggest that the 55- and 41-kDa gag precursors share the same amino terminus as p17. Cells infected with a separate vaccinia recombinant containing a truncated piece of the gag/pol gene with added start and stop codons at the 5' and 3' ends of the RT reading frame synthesized a major 61-kDa and a minor 51-kDa protein product which reacted immunologically with both a monoclonal antibody to native HIV p66/51 and antisera from HIV-infected patients. These proteins were purified from recombinant vaccinia-infected mammalian cells, and their enzyme activity was found to be similar to that of authentic HIV RT. Cells infected with the vaccinia/RT vector contained approximately 200-fold more RT per milligram of protein than cells infected with HIV. Recombinant RT was inhibited by dideoxynucleoside triphosphates and should be useful in screening for specific inhibitors of this enzyme. Mice inoculated intradermally with 10(8) plaque-forming units of the vaccinia/RT vector developed specific antibodies to the p66/51 proteins of HIV, but anti-HIV antibodies were not detected in mice inoculated with the vaccinia/gag vector.
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PMID:Characterization of human immunodeficiency virus gag/pol gene products expressed by recombinant vaccinia viruses. 245 42

A semisynthetic gene precisely encoding the 502 amino acids of the human immunodeficiency virus type 1 gag precursor (Pr53gag) was expressed in the yeast Saccharomyces cerevisiae. Amino acid sequence analysis of the recombinant Pr53gag showed that the amino terminus was fully blocked. Labeling of Pr53gag with [3H]myristic acid demonstrated that, as with Pr53gag isolated from virus-infected cells, the yeast-derived protein was demethionylated and N myristylated on glycine, the second amino acid residue.
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PMID:N myristylation of the human immunodeficiency virus type 1 gag polyprotein precursor in Saccharomyces cerevisiae. 265 3

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