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

A number of esters and amides of the anti-HIV nucleotide analogue 9-[2-(phosphonomethoxy)-ethoxy]adenine (1) have been synthesized as potential prodrugs and evaluated for oral bioavailability in mice. Dialkyl esters 17-20 were prepared via a Mitsunobu coupling of alcohols 8-11 with 9-hydroxypurine 12 whereas (acyloxy)alkyl esters 25-33 and bis-[(alkoxycarbonyl)methyl] and bis(amidomethyl) esters 34-39 were obtained by reaction of 1 with a suitable alkylating agent. Phosphonodichloridate chemistry was employed for the preparation of dialkyl and diaryl esters 42-65, and bis(phosphonoamidates) 66 and 67. Following oral administration to mice, most of the dialkyl esters 17-20 were well-absorbed and then converted to the corresponding monoesters, but minimal further metabolism to 1 occurred. Bis[(pivaloyloxy)methyl] ester 25 displayed an oral bioavailability of 30% that was 15-fold higher than the bioavailability observed after dosing of 1. Methyl substitution at the alpha carbon of the bis[(pivaloyloxy)methyl] ester 25 (33) increased the oral bioavailability of 1 to 74%. Some of the diaryl esters also showed improved absorption properties in comparison with that of 1. In particular, the crystalline hydrochloride salt of diphenyl ester 55 was well-absorbed and efficiently converted to the parent compound with an oral bioavailability of 50%. On the basis of these results as well as the physicochemical properties of the prodrugs and their stability in mouse duodenal contents, the hydrochloride salt of diphenyl ester 55 was identified as the preferred prodrug of 1.
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PMID:Synthesis and in vivo evaluation of prodrugs of 9-[2-(phosphonomethoxy)ethoxy]adenine. 773 Oct 22

We have previously described the potent and selective inhibition of several strains of human immunodeficiency virus type 1 (HIV-1) and type 2 (HIV-2) by JM2763, an n-propyl-linked dimer of the 1,4,8,11-tetraazamacrocyclic (cyclam) ring system. Upon further investigation, we have also found that incorporating an aromatic rather than aliphatic linker leads to analogs with higher antiviral potency. The prototype, JM3100 (19a, isolated as the octahydrochloride salt), which contains a p-phenylenebis(methylene) moiety linking the cyclam rings, inhibited the replication of HIV-1 (IIIB) and HIV-2 (ROD) at EC50's of 4.2 and 5.9 nM, respectively, while remaining nontoxic to MT-4 cells at concentrations exceeding 421 microM. In order to identify the structural features of bis-tetraazamacrocycles required for potent activity, we have prepared a novel series of phenylenebis(methylene)-linked analogs, in which the macrocyclic ring size was varied from 12 to 16 ring members. Depending upon the substitution of the phenylenebis(methylene) linker (para or meta), sub-micromolar anti-HIV activity was exhibited by analogs bearing macrocycles of 12-14 ring members but with varying cytotoxicity to MT-4 cells. Furthermore, while we found that identical macrocyclic rings are not required for activity, substituting an acyclic polyamine equivalent for one of the cyclam rings in 19a resulted in a substantial reduction in anti-HIV potency, clearly establishing the importance of the constrained macrocyclic structure. A short series of transition metal complexes of 19a were also prepared and evaluated. Complexes of low kinetic stability such as the bis-zinc complex retained activity comparable to that of the parent compound. Finally, the activity of bicyclam analogs appears to be insensitive to the electron-withdrawing or -donating properties of substituents introduced onto the linker, but sterically hindering groups such as phenyl markedly reduced activity. As a result, several analogs with anti-HIV potency comparable to that of 19a have been identified.
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PMID:Synthesis and structure-activity relationships of phenylenebis(methylene)-linked bis-tetraazamacrocycles that inhibit HIV replication. Effects of macrocyclic ring size and substituents on the aromatic linker. 783 Feb 80

The prevelance of IDA in industrialized countries has declined in recent decades, but there has been little change in the worldwide prevalence. IDA is currently estimated to affect more than 500 million people. Recent studies have indicated that anemia per se, the most common manifestation of iron deficiency, is less important from a public health standpoint than liabilities associated with tissue iron deficiency. The most important of the latter are an impairment in psychomotor development and cognitive function in infants and preschoolers, a deficit in work performance in adults, and an increase in the frequency of low birth weight, prematurity, and perinatal mortality in pregnancy. There have been several recent advances in combatting nutritional iron deficiency. One of the major problems has been in distinguishing iron deficiency from other causes of anemia seen epidemiologically such as malaria, HIV infection, chronic inflammation, hemoglobinopathies, and protein energy malnutrition. When combined with serum ferritin and hemoglobin determinations, the serum transferrin receptor assay is a valuable addition in epidemiologic surveys because it provides a quantitative measure of functional iron deficiency and it distinguishes true IDA from the anemia of chronic disease. The most difficult challenge is to develop effective methods of supplying iron to large segments of a population. Supplementation with iron tablets is suitable for only brief periods of need such as during pregnancy. The poor compliance with existing supplementation programs is believed to be due mainly to the gastrointestinal side effects of oral iron which can be eliminated by the use of a gastric delivery system. The most effective long-term strategy is to increase the intake of bioavailable iron in the diet. The customary approach has been to fortify a food staple such as wheat, rice, sugar, or salt, and thereby increase the iron intake of the entire population. However, because of concerns about the risk of cancer and heart disease in individuals with high iron stores, there is an increasing reluctance to supply iron to individuals who do not require it. A more effective strategy is to fortify food vehicles that are targeted to segments of the population at greatest risk of iron deficiency such as infants and school children. Because of the strong inhibitory properties of diets in regions of the world where iron deficiency is most prevalent, the use of NaFeEDTA has important advantages for food fortification.
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PMID:Iron deficiency: the global perspective. 788 26

The human immunodeficiency virus 1 (HIV-1) Tat protein suppresses antigen-induced, but not mitogen-induced, activation of human T cells when added to T-cell cultures [Viscidi, R. P., Mayur, K., Lederman, H. M. & Frankel, A. D. (1989) Science 246, 1606-1608]. This activity is potentially pertinent to the development of AIDS because lymphocytes from HIV-infected individuals exhibit a similar antigen-specific dysfunction. Here we report that Tat binds with high affinity to the T-cell activation molecule dipeptidyl aminopeptidase IV (DP IV), also known as CD26. This molecule occurs on the surface of CD4+ cells responsible for the recall antigen response and appears to play an essential role in this response. Tat binds to both the cell surface and soluble forms of DP IV at physiological salt concentrations without inhibiting the protease activity of DP IV against small chromogenic substrates used to assay activity, but Tat markedly inhibits the activity of DP IV at lower salt concentrations. The kinetics of inhibition indicate the affinity of Tat for DP IV varies from 20 pM to 11 nM, and the activity of the Tat-DP IV complex varies from 13% to 100%, as the NaCl concentration varies from 0 to 140 mM. Cytofluorometry experiments demonstrate that Tat competes with anti-Ta1, a monoclonal antibody (mAb) specific for DP IV, for binding to cell surface DP IV, thus indicating that Tat binds DP IV at or near the Ta1 epitope. Moreover, the anti-Ta1 mAb blocks the immunosuppressive activity of Tat. The high affinity of Tat for DP IV, previous evidence implicating DP IV in antigen-specific T-cell activation events, and the ability of anti-Ta1 mAb to block the immunosuppressive effect of Tat make DP IV a plausible receptor for Tat's immunosuppressive activity.
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PMID:Human immunodeficiency virus 1 Tat binds to dipeptidyl aminopeptidase IV (CD26): a possible mechanism for Tat's immunosuppressive activity. 791 30

Sodium hypochlorite (NaOCl) is widely used to inactivate retroviruses topically and on environmental surfaces. This proposal establishes the thesis that sodium hypochlorite and its related oxygen free radicals can be administered in minute quantities in vivo to achieve a reduction in retroviral titer within the infected individual. Published reports of animal studies and accidental sodium hypochlorite infusion in much greater concentrations have indicated that the protein depletion and oxidation of sulfhydryl compounds is reversible and possibly preventable by administration of disulfide reducing agents. Various methods of infusion can include the ex vivo retroviral inactivation of plasma utilizing extracorporeal circulation through a continuous centrifugal plasma separator. The utilization of infusion of low-concentration sodium hypochlorite dialysate for retroviral inactivation merits immediate experimental study. Chlorinated tap-water and table salt ingestion must also be among the environmental factors studied for correlation to HIV infection.
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PMID:Proposal for experimental studies to evaluate sodium hypochlorite dialysate in retroviral treatment. 805 71

The nucleocapsid protein (NC) of all animal retroviruses is the major structural protein of the core ribonucleoprotein complex, bound to genomic RNA in mature virions. In a previous report, we showed that recombinant NC protein from HIV-1, a 71-amino-acid protein (NC71), is apparently able to form two types of protein-nucleic acid complexes under low [NaCl], pH 8.3 and 25 degrees C. These appeared to differ in occluded apparent site size, napp, forming n = 8 and n = 14 complexes on poly(A) (Dib-Hajj, F., Khan, R., and Giedroc, D. P. (1993) Protein Sci. 2, 331-243) under conditions of high and low protein-nucleotide ratios, respectively. Here we show that both NC71-poly(A) complexes strongly scatter light under these solution conditions. Examination of the wavelength dependence of the light scattering at lambda < or = 320 nm indicates that each complex is characterized by a different scattering coefficient. Optical density measurements suggest that upon formation of the saturated n = 8 complex, additional polynucleotide is not incorporated into the complex over a period of hours, i.e. the n = 14 complex is not formed via redistribution of the n = 8 complex under low salt conditions, 25 degrees C. In contrast, the n = 14 complex readily incorporates additional protein until that sufficient to form the n = 8 complex is present. The n = 14 complex efficiently precipitates poly(A) and shows spectral characteristics expected for an extensively charge-neutralized nucleic acid complex. At [NC71] in excess of that required to form the n = 8 complex, this n = 14 complex is best described as a kinetic intermediate on the pathway to the n = 8 complex, which forms over a period of hours under low salt conditions, 25 degrees C. This slow kinetics of binding provides a possible explanation for the finding that the previously observed moderate cooperativity of Zn2 NC71 binding to poly(A) (omega = 200) at pH 8.3 and 0.29 M NaCl (Khan, R., and Giedroc, D. P. (1992) J. Biol. Chem. 267, 6689-6695) is shown here to represent a nonequilibrium phenomenon, apparently converting to a low or no cooperativity complex over a period of hours. Proteolytic removal of the COOH-terminal 14 amino acids from NC71, forming a 57-amino-acid protein (denoted NC57), removes this apparent binding site size heterogeneity of NC71 on poly(A). At 20 mM NaCl, NC57 binds with n = 6-7 nucleotides, in a manner which is independent of the protein-poly(A) nucleotide ratio. The implications of these findings on processing of the gag precursor which leads to mature NC in HIV-1 virions is discussed.
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PMID:Nucleic acid binding properties of recombinant Zn2 HIV-1 nucleocapsid protein are modulated by COOH-terminal processing. 807 2

Assembly of human immunodeficiency virus type 1 (HIV-1) particles occurs at the plasma membrane of infected cells. Myristylation of HIV-1 Gag precursor polyprotein Pr55Gag is required for stable membrane binding and for assembly of viral particles. We expressed a series of proteins representing major regions of the HIV-1 Gag protein both with and without an intact myristyl acceptor glycine and performed subcellular fractionation studies to identify additional regions critical for membrane binding. Myristylation-dependent binding of Pr55Gag was demonstrated by using the vaccinia virus/T7 hybrid system for protein expression. Domains within the matrix protein (MA) region downstream of the initial 15 amino acids were required for membrane binding which was resistant to a high salt concentration (1 M NaCl). A myristylated construct lacking most of the matrix protein did not associate with the plasma membrane but formed intracellular retrovirus-like particles. A nonmyristylated construct lacking most of the MA region also was demonstrated by electron microscopy to form intracellular particles. Retrovirus-like extracellular particles were produced with a Gag protein construct lacking all of p6 and most of the nucleocapsid region. These studies suggest that a domain within the MA region downstream from the myristylation site is required for transport of Gag polyprotein to the plasma membrane and that stable plasma membrane binding requires both myristic acid and a downstream MA domain. The carboxyl-terminal p6 region and most of the nucleocapsid region are not required for retrovirus-like particle formation.
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PMID:Identification of human immunodeficiency virus type 1 Gag protein domains essential to membrane binding and particle assembly. 815 85

Retroviral genomes consist of two identical RNA molecules joined noncovalently near their 5' ends, at domains called dimerization linked sequences (DLS). This physical linkage of the genomic RNAs is considered important for the control of several steps in the viral life cycle, such as recombination, translation, and encapsidation. The putative DLS of human immunodeficiency virus-1 (HIV-1), a 111-nucleotide, purine-rich stretch of RNA, has been found necessary and sufficient for a salt-induced dimerization of the genome in vitro. Our investigation into the mechanism of this dimerization reveals sharply varying influences of the different alkali cations on both the formation and the stabilization of the dimer, a pattern closely related to that of telomeric G-DNA complexes. To probe this phenomenon, we have carried out experiments using short antisense DNA oligomers to define the segments of the DLS that are required for dimerization and methylation protection to implicate sets of guanines in forming Hoogsteen hydrogen bonds within the dimer. Cumulatively, these data provide further evidence for the existence of guanine quartets within the dimerized HIV-1 DLS. We propose models in which guanine quartets not only allow the homodimerization of HIV-1 and other retroviral genomic RNAs but also permit the two RNA strands in a dimer to exist in an overall parallel orientation, as has been observed by electron microscopy.
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PMID:Mode of dimerization of HIV-1 genomic RNA. 821 11

Bacterial beta-galactosidase is one of several reporter enzymes used in studying the transcriptional activity of eukaryotic promoters. Although it is one of the easiest and least expensive enzymes to assay, its use has been limited because of its low sensitivity, which is due in part to endogenous levels of beta-galactosidase in many eukaryotic cells. In this study, we compared the pH and salt requirements, as well as the heat stability, of bacterial and eukaryotic beta-galactosidase in order to identify conditions which would inhibit the beta-galactosidase enzyme endogenous to eukaryotic cells without adversely affecting the activity of either purified bacterial beta-galactosidase or reporter beta-galactosidase produced after transfection of expression vectors into eukaryotic cells. Heat treatment at 50 degrees C for 1 h inactivated the beta-galactosidase activity endogenous to several eukaryotic cell lines by as much as 40-fold without adversely affecting the activity of bacterial beta-galactosidase. This treatment increased the sensitivity of this reporter enzyme and allowed the development of a rapid and quantifiable screening assay for HIV-1 tat inhibitors.
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PMID:Selective inactivation of eukaryotic beta-galactosidase in assays for inhibitors of HIV-1 TAT using bacterial beta-galactosidase as a reporter enzyme. 829 11

Retroviral particles contain a dimeric genome consisting of two full-length, noncovalently linked RNA molecules. Linkage of the two genomes is thought to be critical for a productive reverse transcription reaction and may increase genetic recombination rates. The molecular nature of the dimer linkage structure (DLS) is poorly understood. It was recently shown that in vitro synthesized retroviral transcripts can dimerize in the absence of protein factors. We studied in vitro dimerization of human immunodeficiency virus type 2 (HIV-2) RNA. Specific dimerization of HIV-2 RNAs was observed upon incubation at 37 degrees C in high-salt buffer. Previously, physical and biochemical studies have mapped dimer linkage structures in retroviral leader RNA close to the gag open reading frame. In this study, we found efficient dimerization of HIV-2 RNAs containing only the 5' terminal 255 nucleotides of the leader RNA. Therefore, it seems likely that multiple dimerization signals are present in retroviral leader RNA. The implications for genome dimerization and genome packaging are discussed.
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PMID:In vitro dimerization of HIV-2 leader RNA in the absence of PuGGAPuA motifs. 842 65


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