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)

Brain perivascular macrophages are a major target of simian immunodeficiency virus (SIV) infection in rhesus macaques and HIV infection in humans. Perivascular macrophages are distinct from parenchymal microglia in their location, morphology, expression of myeloid markers, and turnover in the CNS. In contrast to parenchymal microglia, perivascular macrophages are continuously repopulated by blood monocytes, which undergo maturation to macrophages on entering the central nervous system (CNS). We studied differences in monocyte/macrophages in vivo that might account for preferential infection of perivascular macrophages by SIV. In situ hybridization for SIV and proliferating cellular nuclear antigen (PCNA) immunohistochemistry demonstrated that SIV-infected and PCNA-positive cells were predominantly found in perivascular cuffs of viremic animals and in histopathological lesions that characterize SIV encephalitis (SIVE) in animals with AIDS. Multilabel techniques including double-label immunohistochemistry and combined in situ hybridization and immunofluorescence confocal microscopy revealed numerous infected perivascular macrophages that were PCNA-positive. Outside the CNS, SIV-infected, PCNA-expressing macrophage subpopulations were found in the small intestine and lung of animals with AIDS. While PCNA is used as a marker of cell proliferation it is also strongly expressed in non-dividing cells undergoing DNA synthesis and repair. Therefore, more specific markers for cell proliferation including Ki-67, topoisomerase IIalpha, and bromodeoxyuridine (BrdU) incorporation were used which indicated that PCNA-positive cells within SIVE lesions were not proliferating. These observations are consistent with perivascular macrophages as terminally differentiated, non-dividing cells and underscores biological differences that could potentially define mechanisms of preferential, productive infection of perivascular macrophages in the rhesus macaque model of neuroAIDS. These studies suggest that within CNS and non-CNS tissues there exist subpopulations of macrophages that are SIV-infected and express PCNA.
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PMID:Proliferating cellular nuclear antigen expression as a marker of perivascular macrophages in simian immunodeficiency virus encephalitis. 1216 82

The naphthoquinone pigment, shikonin, isolated from Lithospermum erythrorhizon Sieb. et Zucc.(Boraginaceae) and its derivatives are the active components isolated from the Chinese herbal therapeutic, Zicao. Historically, Zicao root extracts have been used to treat macular eruption, measles, sore-throat, carbuncles and burns. Multiple pharmacological actions have been attributed to shikonin, e.g. antiinflammatory, antigonadotropic and anti-HIV-1 activity. In this review, several therapeutic applications of shikonin will be summarized including its pleiotropic, antiinflammatory and antitumour effects. Widely diverse and sometimes conflicting activities have been attributed to shikonin, e.g. wound healing, enhanced granuloma formation, suppression of local acute inflammatory reactions, inhibition of angiogenesis, inhibition of select chemokine ligands, inhibition of DNA topoisomerase activity, inhibition of platelet activation and antimicrobial activity. Comparison of the various reported mechanisms of action for shikonin lead us to hypothesize that shikonin is an effective inhibitor of protein-protein interaction with multiple targets in both the intracellular and extracellular compartments. This general inhibitory effect can account for the broad spectrum of shikonin biological and pharmacological activities.
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PMID:Cellular pharmacology studies of shikonin derivatives. 1216 62

The microsporidian Vittaforma corneae has been reported as a pathogen of the human stratum corneum, where it can cause keratitis, and is associated with systemic infections. In addition to this direct role as an infectious, etiologic agent of human disease, V. corneae has been used as a model organism for another microsporidian, Enterocytozoon bieneusi, a frequent and problematic pathogen of HIV-infected patients that, unlike V. corneae, is difficult to maintain and to study in vitro. Unfortunately, few molecular sequences are available for V. corneae. In this study, seventy-four genome survey sequences (GSS) were obtained from genomic DNA of spores of laboratory-cultured V. corneae. Approximately, 41 discontinuous kilobases of V. corneae were cloned and sequenced to generate these GSS. Putative identities were assigned to 44 of the V. corneae GSS based on BLASTX searches, representing 21 discrete proteins. Of these 21 deduced V. corneae proteins, only two had been reported previously from other microsporidia (until the recent report of the Encephalitozoon cuniculi genome). Two of the V. corneae proteins were of particular interest, reverse transcriptase and topoisomerase IV (parC). Since the existence of transposable elements in microsporidia is controversial, the presence of reverse transcriptase in V. corneae will contribute to resolution of this debate. The presence of topoisomerase IV was remarkable because this enzyme previously had been identified only from prokaryotes. The 74 GSS included 26.7 kilobases of unique sequences from which two statistics were generated: GC content and codon usage. The GC content of the unique GSS was 42%, lower than that of another microsporidian, E. cuniculi (48% for protein-encoding regions), and substantially higher than that predicted for a third microsporidian, Spraguea lophii (28%). A comparison using the Pearson correlation coefficient showed that codon usage in V. corneae was similar to that in the yeasts, Saccharomyces cerevisiae (r = 0.79) and Shizosaccharomyces pombe (r = 0.70), but was markedly dissimilar to E. cuniculi (r = 0.19).
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PMID:Sequence survey of the genome of the opportunistic microsporidian pathogen, Vittaforma corneae. 1242 27

Some anticancer drugs, but not all, inhibit replication of human immunodeficiency virus (HIV) and thus, exhibit a therapeutic potential. Such drugs, unlike the traditional HIV enzyme inhibitors, could suppress HIV strains that are resistant to inhibitors of viral enzymes, decrease proviral burden in vivo, or reduce reservoirs of infection via killing infected cells. Thus, they may be an effective adjunct therapy or perhaps result in a cure. The incidence of HIV infection and AIDS mortalities continue to increase worldwide, including the United States and parts of Africa, with a parallel increase in a number of other manifestations, including AIDS defining malignancies. The basis for continual spread of HIV presumably in large part stems from the viral resistance to previously successful drugs and the lack of curative antiretroviral drugs. To reverse these trends, other approaches for AIDS therapy must be developed. One possibility is the development of potent anticancer drugs, that exhibit anti-HIV activities. At least four chemically and pharmacologically distinct classes of anticancer drugs, i.e. certain cyclin-dependent kinase inhibitors (CDKIs), topoisomerase 1 enzyme (top 1) inhibitors, non-nucleoside antimetabolites, and estrogen receptor ligands are promising candidates. These drugs, at high doses are used for cancer therapy; at lower concentrations they exhibit anti-HIV activities in cultured cells. While the antiretroviral and the anticancer activities of the cdk inhibitor flavopiridol appear to be mutually exclusive and unrelated in cells and animal model(s) of HIV disease, the top 1 inhibitor 9-nitrocamptothecin, as well as the cdk-inhibitor roscovitine inhibit replication of HIV via selective sensitization of HIV-infected cells to apoptosis. In contrast, the inhibitory effects of these compounds are different from other cancer therapeutics that, at toxic concentrations, activate HIV either in cultured cells (such as certain ingenol and butyrate derivatives) and/or in patients (such as the widely used cyclophosmamide and cisplatin). This quality may lead to the eradication of proviral reservoirs, which is not accomplished by the currently available antiretroviral drugs. In this review, relevant available clinical and in vitro data that either support or discourage using certain anticancer drugs for treatment of HIV disease, and the rationales for developing novel antiretroviral drugs that may target infected cells rather than viral proteins are discussed.
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PMID:A novel approach to develop anti-HIV drugs: adapting non-nucleoside anticancer chemotherapeutics. 1467 May 89

Quinolones represent an important class of broad-spectrum antibacterials, the main structural features of which are a 1,4 dihydro-4-oxo-quinolinyl moiety bearing an essential carboxyl group at position 3. Quinolones inhibit prokaryotic type II topoisomerases, namely DNA gyrase and, in a few cases, topoisomerase IV, through direct binding to the bacterial chromosome. Based on the hypothesis that these drugs could also bind to the viral nucleic acids or nucleoprotein-complexes, several quinolone derivatives were tested for their antiviral activity. Indeed, antibacterial fluoroquinolones were shown to be effective against vaccinia virus and papovaviruses; these preliminary results prompted the synthesis of modified quinolones to optimize antiviral action and improve selectivity index. The introduction of an aryl group at the piperazine moiety of the fluoroquinolone shifted the activity from antibacterial to antiviral, with a specific action against HIV. The antiviral activity seemed to be related to an inhibitory effect at the transcriptional level, and further evidence suggested a mechanism of action mediated by inhibition of Tat functions. Substitution of the fluorine at position 6 with an amine group to give aryl-piperazinyl-6-amino-quinolones improved the activity and selectivity against HIV-1: the most potent compound of this series was shown to inhibit virus replication through interference with Tat-TAR interaction. A comprehensive SAR investigation was performed based on additional chemical intervention to the quinolone template moiety, such as the introduction of nucleoside derivative functions. The information gained so far will be useful for future rational drug design aimed at developing new compounds with optimized antiviral activity.
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PMID:Antiviral properties of quinolone-based drugs. 1518 Apr 59

The lamellarins form a group of more than 30 polyaromatic pyrrole alkaloids, isolated from diverse marine organisms, mainly but not exclusively ascidians and sponges. These molecules fall in three structural groups, with the central pyrrole ring fused or unfused (lamellarins O-R) to adjacent aromatic rings and with the quinoline moiety containing a 5, 6-single--as in lamellarins I-L--or a double bond, as it is the case for lamellarins D and M which are both potent cytotoxic agents. The family also includes sulphated members, such as the integrase inhibitor lamellarin alpha 20-sulfate. This review presents the origin and structure of the lamellarins and summarizes the various chemical pathways which have been proposed to synthesize all lamellarins and different structurally related marine pyrrole alkaloids, including ningalins, storniamides and lukianols. The mechanisms of actions of these marine products are also discussed. Inhibition of HIV-1 integrase by lamellarin alpha 20-sulfate and human topoisomerase I by lamellarin D and Molluscum contagiosum virus topoisomerase by lamellarin H, along with other effects on nuclear proteins, provide an experimental basis indicating that DNA manipulating enzymes are important targets for the lamellarins. Some of these marine compounds exhibit cytotoxic activities against tumor cells in vitro and are insensitive to Pgp-mediated drug efflux. The structure-activity relationships are discussed. Other compounds in the series, without being strongly cytotoxic, can reverse the multidrug resistance phenotype and thus may be useful to promote the therapeutic activity of conventional cytotoxic drugs toward chemoresistant tumors. A complete description of the chemistry and pharmacological profiles of the lamellarins is presented here to shed light on this undervalued family of marine alkaloids.
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PMID:Lamellarins, from A to Z: a family of anticancer marine pyrrole alkaloids. 1528 8

In 1995, we discovered new antiherpetic antibiotics, called fattiviracins. The producing organism was classified as a strain belonging to Streptomyces microflavus. The strain produced at least 13 fattiviracin derivatives (FV-1 to FV-13). Fattiviracins were obtained as a white amorphous powder, and their molecular weights are in the range of 1400 to 1500. They are readily soluble in water, methanol, pyridine, and DMSO, but insoluble in other organic solvents. Fattiviracins have macrocyclic diesters formed by the binding of two trihydroxy fatty acids and two D-glucose residues in the molecule, and they can be divided into five families according to the length of the fatty acid moiety. Fattiviracins have potent activity against enveloped DNA viruses such as the herpes family, HSV-1, and VZV and enveloped RNA viruses such as influenza A and B viruses, and three strains of HIV-1, with EC(50) values on the order of a few micrograms per milliliter. The biosynthetic pathway of fattiviracins is also becoming clearer. Using bacitracin-resistant strains, enhanced and astringent production of fattiviracin was achieved. Fattiviracin FV-13, which has the longest fatty acid chains in the molecule, was dramatically enhanced by a C(55)-isoprenyl phosphate metabolism. In addition, we have screened various inhibitors of enzymes such as alkaline protease, glucosyltransferase, glucuronidase, phospholipase, deoxyribonuclease, DNA methyltransferase, and DNA topoisomerase. All the inhibitors we discovered are briefly summarized in this paper.
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PMID:[Metabolites produced by actinomycetes--antiviral antibiotics and enzyme inhibitors]. 1529 17

The structures of the catalytic core of two HIV-1 encoded enzymes play a crucial role in the retroviral cycle: integrase and RNase H exhibit striking similarities. These enzymes also share a similar mechanism of catalysis. The homologies between RNase H and integrase led to studying the effect of the RNase H inhibitors on integrase. ODNs aptamers active on RNase H were shown to be strong IN inhibitors. On the contrary, compounds from the diketo acid family were previously known as integrase inhibitors. One compound of this family is able to inhibit the RNase H activity, but has no effect on integrase. Cellular topoisomerase 1 also shares a mechanism similar to that of HIV-1 integrase and RNase H. It has been reported to be present in retroviral particles and to enhance cDNA synthesis. Some topoisomerase inhibitors have been shown to be active on integrase. Moreover, topoisomerase, integrase and RNase H are inhibited by G-rich oligonucleotides. A G-quartet structure is necessary for integrase, but not for topoisomerase inhibition. This suggests that prototype structures can be exploited to develop inhibitors of two related enzymes, such as the RNase H and integrase activities of HIV-1 RT.
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PMID:Closely related antiretroviral agents as inhibitors of two HIV-1 enzymes, ribonuclease H and integrase: "killing two birds with one stone". 1557 66

We have identified four small molecules that boost transduction of cells by human immunodeficiency virus (HIV) and investigated their mechanism of action. These molecules include etoposide and camptothecin, which induce DNA damage by inhibiting religation of cleaved topoisomerase-DNA complexes, taxol, which interferes with the function of microtubules, and aphidicolin, which inhibits DNA polymerases. All four compounds arrest the cell cycle at G2/M, though in addition high concentrations of aphidicolin arrest in G1. We find that early events of HIV replication, including synthesis of late reverse transcription products, two-long terminal repeat circles, and integrated proviruses, were increased after treatment of cells with concentrations of each compound that arrested in G2/M. Stimulation was seen for both transformed cell lines (293T and HeLa cells) and primary cells (IMR90 lung fibroblasts). Arrest in G1 with high concentrations of aphidicolin boosted transduction, though not much as with lower concentrations that arrested in G2/M. Arrest of IMR90 cells in G1 by serum starvation and contact inhibition reduced transduction. Previously, the proteasome inhibitor MG132 was reported to increase HIV infection-here we investigated the effects of combinations of the cell cycle inhibitors with MG132 and obtained data suggesting that MG132 may also boost transduction by causing G2/M cell cycle arrest. These data document that cell cycle arrest in G2/M boosts the early steps of HIV infection and suggests methods for increasing transduction with HIV-based vectors.
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PMID:Cell cycle arrest in G2/M promotes early steps of infection by human immunodeficiency virus. 1582 84

Human topoisomerase II plays a crucial role in DNA replication and repair. It exists in two isoforms: topoisomerase II alpha (alpha) and topoisomerase II beta (beta). The alpha isoform is localized predominantly in the nucleus, while the beta isoform exhibits a reticular pattern of distribution both in the cytosol and in the nucleus. We show that both isoforms of topoisomerase II are phosphorylated in HIV infected cells and also by purified viral lysate. An analysis of the phosphorylation of topoisomerase II isoforms showed that extracts of HIV infected cells at 8 and 32 h. post-infection (p.i.) contain maximal phosphorylated topoisomerase II alpha, whereas infected cell extracts at 4 and 64 h p.i. contain maximum levels of phosphorylated topoisomerase II beta. In concurrent to phosphorylated topoisomerase II isoforms, we have also observed increased topoisomerase II alpha kinase activity after 8h p.i and topoisomerase beta kinase activity at 4 and 64 h p.i. These findings suggest that both topoisomerase II alpha and beta kinase activities play an important role in early as well as late stages of HIV-1 replication. Further analysis of purified virus showed that HIV-1 virion contained topoisomerase II isoform-specific kinase activities, which were partially isolated. One of the kinase activities of higher hydrophobicity can phosphorylate both topoisomerase II alpha and beta, while lower hydrophobic kinase could predominantly phosphorylate topoisomerase II alpha. The phosphorylation status was correlated with catalytic activity of the enzyme. Western blot analysis using phosphoamino-specific antibodies shows that both the kinase activities catalyze the phosphorylation at serine residues of topoisomerase II alpha and beta. The catalytic inhibitions by serine kinase inhibitors further suggest that the alpha and beta kinase activities associated with virus are distinctly different.
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PMID:A biochemical analysis of topoisomerase II alpha and beta kinase activity found in HIV-1 infected cells and virus. 1609 Dec 84

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