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)

NMR spectroscopy has been used to solve the three-dimensional solution structure of a minimal RNA-binding domain of the Rev protein from the human immunodeficiency virus (type 1), an essential regulatory protein for viral replication. The presence of 10 arginine residues in the 17-residue peptide Rev34-50 caused significant problems in assignment of the NMR spectra. To improve spectral resolution, the peptide was synthesized with an alanine replacing a nonessential arginine and with selectively 15N-labeled residues. Contrary to Chou-Fasman modeling predictions an alpha-helix was detected in both water and 20% trifluoroethanol (TFE) and was found to span residues that constitute the RNA-binding and nuclear-localizing domains of Rev. The sequence-specific information provided by the NMR data gives a full description of the solution conformation of Rev34-50 which serves as a template for investigating binding of the peptide to RNA from the Rev response element (RRE). Preliminary modeling suggests that the helix can fit neatly into the expanded major groove of the RRE where interactions between the peptide side chains and the RNA can be identified. These data may aid the construction of a suitable pharmacophore model for the rational design of molecules that block Rev-RNA binding and inhibit HIV replication.
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PMID:NMR solution structure of the RNA-binding peptide from human immunodeficiency virus (type 1) Rev. 759 17

Complete sequence-specific assignments of the 1H-NMR spectrum of a fusion protein of the alpha-amylase inhibitor tendamistat from Streptomyces tendae and the activation domain of Tat from human immunodeficiency virus type 1 (HIV-1) was obtained by homonuclear two-dimensional NMR methods. The protein behaves as expected for an ideal fusion protein: the flexible linker allows an almost completely decoupled motion of the subunits of the protein and the two subunits show almost no mutual interaction. In the tendamistat part, small structural distortions due to exchange of the carboxy-terminal leucine propagate mainly via the hydrogen bonds of the beta-sheet and the disulfide bond. The Tat part of the protein contains the seven cysteine residues of full-length Tat. The fusion protein was expressed in Streptomyces lividans and exported. During the export to the extracellular space disulfide bonds are created by the expressing cells, only one sulfhydryl group remains accessible for sulfhydryl reagents. Although a unique, dominant conformation with a specific disulfide bonding pattern exists, a significant conformational variation can be observed including cis-proline peptide bonds, which may indicate smaller populations with alternative disulfide bonding patterns.
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PMID:Complete 1H nuclear magnetic resonance assignments and structural characterization of a fusion protein of the alpha-amylase inhibitor tendamistat with the activation domain of the human immunodeficiency virus type 1 Tat protein. 762 84

Transcriptional elongation involves dynamic interactions among RNA polymerase and single-stranded and double-stranded nucleic acids in the ternary complex. In prokaryotes its regulation provides an important mechanism of genetic control. Analogous eukaryotic mechanisms are not well understood, but may control expression of proto-oncogenes and viruses, including the human immunodeficiency virus HIV-1 (ref. 8). The highly conserved eukaryotic transcriptional elongation factor TFIIS enables RNA polymerase II (RNAPII) to read though pause or termination sites, nucleosomes and sequence-specific DNA-binding proteins. Two distinct domains of human TFIIS, which bind RNAPII and nucleic acids, regulate read-through and possibly nascent transcript cleavage. Here we describe the three-dimensional NMR structure of a Cys4 nucleic-acid-binding domain from human TFIIS. Unlike previously characterized zinc modules, which contain an alpha-helix, this structure consists of a three-stranded beta-sheet. Analogous Cys4 structural motifs may occur in other proteins involved in DNA or RNA transactions, including RNAPII itself. This new structure, designated the Zn ribbon, extends the repertoire of Zn-mediated peptide architectures and highlights the growing recognition of the beta-sheet as a motif of nucleic-acid recognition.
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PMID:Structure of a new nucleic-acid-binding motif in eukaryotic transcriptional elongation factor TFIIS. 762 41

The human immunodeficiency virus Tat protein binds specifically to an RNA stem-loop structure (TAR) that contains two helical stem regions separated by a three-nucleotide bulge. A single arginine within the basic region of Tat mediates specific binding to TAR, and arginine as the free amino acid also binds specifically to TAR. We have previously proposed a model in which interaction of the arginine guanidinium group with guanosine-26 (G26) and with a pair of phosphates is stabilized by formation of a base triple between U23 in the bulge and A27.U38 in the upper helix. Here we show by NMR spectroscopy that formation of the base triple is critical for arginine binding to TAR. Mutants of TAR that cannot form the base triple or that remove the guanine contact do not bind arginine specifically. These mutants also showed reduced transactivation by Tat. A triple mutant designed to form an isomorphous base triple between C23 and G27.C38 binds arginine and adopts the same conformation as wild-type TAR. These results demonstrate the importance of RNA structure for arginine binding and further demonstrate the direct correspondence between arginine and Tat binding.
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PMID:Role of RNA structure in arginine recognition of TAR RNA. 768 16

Rhesus monkeys were dosed orally with 10 mg/kg 5-chloro-3-phenylthioindole-2-carboxamide (L-734,005), a nonnucleoside human immunodeficiency virus type 1 (HIV-1) reverse transcriptase inhibitor, in polyethylene glycol 300. Plasma samples from these monkeys demonstrated greater bioactivity in an HIV-1 reverse transcriptase inhibition assay than anticipated from the parent compound concentrations as determined by an HPLC-UV assay. One major and three minor metabolites, as well as the parent compound, were detected in the plasma. One of the minor metabolites was determined to be several-fold more active, and the major metabolite one-half as active as the parent compound in the inhibition assay. Identical metabolites were formed during an incubation of L-734,005 with rat liver microsomes. The most active minor metabolite was identified as a sulfone analog (L-737,126) of the parent compound by NMR and MS analyses. The less active major metabolite and two relatively inactive minor metabolites were similarly identified as the sulfoxide, 4-hydroxythiophenyl and 6-hydroxyindole analogs of L-734,005. The synthetic sulfone analog was highly potent against HIV-1, with a 95% inhibitory concentration of 3.0 nM for the spread of virus infection in a cell culture.
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PMID:Biotransformation of 5-chloro-3-phenylthioindole-2-carboxamide (L-734,005) in rhesus monkeys and rat liver microsomes to a potent HIV-1 reverse transcriptase inhibitor. 769 Jun 97

L-689,502, N-[2(R)-hydroxy-1(S)-indanyl]-5(S)-(1,1-dimethylethoxy- carbonyl-amino)-4(S)-hydroxy-6-phenyl-2(R)-(4-[2(R)-(4-morpholinyl) ethoxy]phenyl)methylhexamide, is a potent and specific inhibitor of human immunodeficiency virus-type 1 (HIV-1) protease in vitro. Metabolism of this compound in rat liver slices produced four major and several minor metabolites. The major metabolites were identified as morpholin-2-one, 3'(S)-hydroxyindan and 4'-hydroxyindan analogs, and a 4-O-glucuronic acid conjugate of the parent compound. The metabolites were characterized by Heteronuclear Multiple Quantum Coherence and Nuclear Overhauser Effect techniques in NMR spectroscopy, by MS, and/or comparison with authentic standards. Two of the minor metabolites were similarly characterized as a 2(R)-[4-(2-carboxymethoxy)phenyl]methyl analog and a product with a degraded morpholino ring. The hydroxyindan metabolites were lower in activity than L-689,502, whereas the morpholin-2-one and carboxymethoxyphenyl analogs were approximately 6- and 11-fold more potent as inhibitors of HIV-1 protease, respectively.
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PMID:Metabolism of L-689,502 by rat liver slices to potent HIV-1 protease inhibitors. 773 9

Molecular modeling and two-dimensional NMR techniques enable us to identify structural features in the third variable region (V3) loop of the human immunodeficiency virus (HIV) surface glycoprotein gp120, in particular the principal neutralizing determinant (PND), that remain conserved despite the sequence variation. The conserved structure of the PND is a solvent-accessible protruding motif or a knob, structurally isomorphous with the immunodominant knobs in the tandem repeat protein of human mucin 1 (MUC1) (a tumor antigen for breast, pancreatic, and ovarian cancer). We have replaced the mucin antigenic knobs by the PND knobs of the HIV MN isolate in a set of chimeric human MUC1/HIV V3 antigens. This produced multivalent HIV antigens in which PNDs are located at regular intervals and separated by extended mucin spacers. In this article we show by two-dimensional NMR spectroscopy that the multivalent antigens preserve the PNDs in their native structure. We also demonstrate by ELISA that the antigens correctly present the PNDs for binding to monoclonal antibodies or polyclonal antisera from HIV-infected patients.
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PMID:Human immunodeficiency virus (HIV) antigens: structure and serology of multivalent human mucin MUC1-HIV V3 chimeric proteins. 781 40

An oligonucleotide (I100-15) composed of only deoxyguanosine and thymidine was able to inhibit human immunodeficiency virus type-1 (HIV-1) in culture assay systems. I100-15 did not block virus entry into cells but did reduce viral-specific transcripts. As assessed by NMR and polyacrylamide gel methods, I100-15 appears to form a structure in which two stacked guanosine tetrads are connected by three two-base long loops. Structure/activity experiments indicated that formation of intramolecular guanosine tetrads was necessary to achieve maximum antiviral activity. The single deoxyguanosine nucleotide present in each loop was found to be extremely important for the overall antiviral activity. The toxicity of I100-15 was determined to be well above the 50% effective dose (ED50) in culture which yielded a high therapeutic index (> 100). The addition of a cholesterol moiety to the 3' terminus of I100-15 (I100-23) reduced the ED50 value to less than 50 nM (from 0.12 microM for I100-15) and increased the duration of viral suppression to greater than 21 days (versus 7-10 days for I100-15) after removal of the drug from infected cell cultures. The favorable therapeutic index of such molecules coupled with the prolonged suppression of HIV-1, suggest that such compounds further warrant investigation as potential therapeutic agents.
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PMID:Suppression of human immunodeficiency virus type 1 activity in vitro by oligonucleotides which form intramolecular tetrads. 782 11

Studies of the feasibility of a subunit vaccine to protect against human immunodeficiency virus (HIV) infection have principally focused on the third variable (V3) loop. The principal neutralizing determinant (PND) of HIV-1 is located inside the V3 loop of the surface envelope glycoprotein, gp120. However, progress toward a PND-based vaccine has been impeded by the amino acid sequence variability in the V3 loops of different HIV isolates. Theoretical studies revealed that the variability in sequence and structure of the V3 loop is confined to the N- and C-terminal sides of the conserved GPG crest. This leaves three regions of the V3 loop conserved both in sequence and secondary structure. We present the results of NMR studies that test the validity of our theoretical predictions. Structural studies are reported for the HIV-V3 loop (HIV-MN) in the linear and cyclic (S-S-bridged) forms. For the V3 loop sequence of the HIV-MN isolate, the three conserved secondary structural elements are as underlined below: turns turn helix CTRPNYNKRKRIHIGPGRAFYTTKNIIGTIROAHC Finally, the conformational requirement of the PND in the V3 loop-antibody interaction is tested by monitoring the monoclonal antibody binding to the HIV-MN V3 loop in the linear and cyclic forms by enzyme-linked immunosorbent assay. The binding data reveal that the cyclic V3 loop is a better ligand for the monoclonal antibodies than the linear form although the latter has the same sequence. This means that the monoclonal antibodies recognize the PNDs as conformational epitopes.
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PMID:Local and global structural properties of the HIV-MN V3 loop. 783 54

The nucleocapsid protein NCp7 of human immunodeficiency virus type 1 (HIV-1), which has key functions in the virus life cycle, possesses two zinc fingers of the CX2CX4HX4C type characterized by three successive loops containing a tetrahedrally coordinated zinc atom. The replacement of any cysteine by a serine in either finger has been shown to result in the production of noninfectious viruses, probably by impairing the biological functions of NCp7. In order to more precisely elucidate the structural role of the zinc finger motif, His23 was replaced by Cys in the proximal finger of the peptide (13-64)NCp7 which retains NCp7 activities in vitro. The peptide Cys23(13-64)NCp7 was synthesized by solid phase and studied by 2D 1H NMR and molecular modeling. The His to Cys modification causes important structural modifications of the N-terminal zinc finger which impair the spatial proximity of the two zinc fingers as shown by the disappearance of several interresidue NOEs. The side chains of Val13, Lys14, Phe16, Thr24, Ala25, Trp37, Gln45, and Met46, which are thought to be involved in nucleic acid recognition, are no longer found clustered in the Cys23(13-64)NCp7 mutant as they are in the wild-type NCp7 structure. In vitro, Cys23(13-64)NCp7 is unable to tightly interact with the viral RNA or replication primer tRNA(Lys,3). The Cys23(NCp7) mutation was introduced into an infectious HIV-1 molecular clone, and virions produced upon DNA transfection into cells were analyzed for their viral protein and RNA compositions as well as for their infectivity. Results show that, while the Cys23(NCp7) mutation does not impair virion production, viruses contain a low amount of degraded viral RNA and are not infectious. These findings suggest that a bona fide conformation of the HIV-1 NCp7 is critical for the packaging of viral RNA, its stability in virions, and virus infectivity.
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PMID:1H NMR structure and biological studies of the His23-->Cys mutant nucleocapsid protein of HIV-1 indicate that the conformation of the first zinc finger is critical for virus infectivity. 791 87


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