Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
 31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Feline immunodeficiency virus (FIV) is a lentivirus that causes feline acquired immunodeficiency syndrome. Infection can be transmitted experimentally via the vagina and rectum, making the cat a useful model for human immunodeficiency virus (HIV) infection. Some strains of FIV use the CXCR4 chemokine receptor in vitro to gain entry to feline cell lines, thymocytes and peripheral blood leucocytes (PBLs). In this study, the tissue expression of messenger ribonucleic acid (mRNA) encoding the CCR3, CXCR4 and CCR5 receptors was examined by reverse transcriptase polymerase chain reaction (RT-PCR). mRNA encoding each receptor was expressed by two feline T-cell lines (Mya-1 and FeTJ), a feline kidney fibroblast cell line (FKCU) and PBLs. Mesenteric lymph node, colon, rectum, uterus, cervix and vagina all expressed mRNA for CXCR4 and CCR5 whilst only lymph node expressed CCR3 mRNA. In order to locate this receptor mRNA expression, in-situ hybridization studies were performed with DNA probes specific for the chemokine receptor mRNAs. CCR5 and CXCR4 receptor mRNA was expressed by epithelial cells and some lamina propria cells of the colon and rectum. Epithelial cell expression of chemokine receptor mRNA was reduced in intensity towards the base of the crypts. Expression of CXCR4 receptor was also demonstrated immunohistochemically on some lamina propria and intraepithelial cells. The expression of these receptor molecules may be important in mucosal infection with FIV.
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PMID:Expression of chemokine receptors in the feline reproductive tract and large intestine. 1205 77

Virtually all the compounds that are currently used, or are subject of advanced clinical trials, for the treatment of human immunodeficiency virus (HIV) infections, belong to one of the following classes: (i) nucleoside/nucleotide reverse transcriptase inhibitors (NRTIs): i.e. zidovudine (AZT), didanosine (ddI), zalcitabine (ddC), stavudine (d4T), lamivudine (3TC), abacavir (ABC), emtricitabine [(-)FTC], tenofovir disoproxil fumarate; (ii) non-nucleoside reverse transcriptase inhibitors (NNRTIs): i.e. nevirapine, delavirdine, efavirenz, emivirine; and (iii) protease inhibitors (PIs): i.e. saquinavir, ritonavir, indinavir, nelfinavir, amprenavir and lopinavir. In addition to the reverse transcriptase (RT) and protease reaction, various other events in the HIV replicative cycle can be considered as potential targets for chemotherapeutic intervention: (i) viral adsorption, through binding to the viral envelope glycoprotein gp120 (polysulfates, polysulfonates, polycarboxylates, polyoxometalates, polynucleotides, and negatively charged albumins); (ii) viral entry, through blockade of the viral coreceptors CXCR4 [bicyclam (AMD3100) derivatives] and CCR5 (TAK-779 derivatives); (iii) virus-cell fusion, through binding to the viral envelope glycoprotein gp41 (T-20, T-1249); (iv) viral assembly and disassembly, through NCp7 zinc finger-targeted agents [2,2'-dithiobisbenzamides (DIBAs), azadicarbonamide (ADA)]; (v) proviral DNA integration, through integrase inhibitors such as 4-aryl-2,4-dioxobutanoic acid derivatives; (vi) viral mRNA transcription, through inhibitors of the transcription (transactivation) process (flavopiridol, fluoroquinolones). Also, various new NRTIs, NNRTIs and PIs have been developed that possess, respectively: (i) improved metabolic characteristics (i.e. phosphoramidate and cyclosaligenyl pronucleotides by-passing the first phosphorylation step of the NRTIs), (ii) increased activity ["second" or "third" generation NNRTIs (i.e. TMC-125, DPC-083)] against those HIV strains that are resistant to the "first" generation NNRTIs, or (iii) as in the case of PIs, a different, nonpeptidic scaffold [i.e. cyclic urea (mozenavir), 4-hydroxy-2-pyrone (tipranavir)]. Nonpeptidic PIs may be expected to inhibit HIV mutant strains that have become resistant to peptidomimetic PIs. Given the multitude of molecular targets with which anti-HIV agents can interact, one should be cautious in extrapolating the mode of action of these agents from cell-free enzymatic assays to intact cells. Two examples in point are L-chicoric acid and the nonapeptoid CGP64222, which were initially described as an integrase inhibitor or Tat antagonist, respectively, but later shown to primarily act as virus adsorption/entry inhibitors, the latter through blockade of CXCR4.
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PMID:New developments in anti-HIV chemotherapy. 1208 68

The concept that adipocytes belong to an essential endocrine system with some characteristics of immune cells has recently emerged. The aim of this paper is to present evidence of the expression of CD4, CXCR4, and CCR5 receptors by human adipocytes and to test whether adipose cells support HIV entry. Primary human preadipocytes were cultured and differentiated in vitro. Expression of the three receptors on preadipocytes and adipocytes was demonstrated by reverse transcriptase-polymerase chain reaction, immunocytochemical, and immunohistochemical analysis. Infection of adipose cells to HIV-1 was then investigated. The measurement of the viral p24 antigen in preadipocyte culture medium showed an increase of p24 levels between 24 and 72 h postexposure and then a progressive decrease to reach a low level at 10-15 days. Ten days after the infection test, supernatant of preadipocytes contained infectious particles able to infect the susceptible T-CD4 CEM cell line. The expression of viral proteins by adipocytes was confirmed using a fusion test. The presence of viral DNA was exhibited by gag-specific polymerase chain reaction, supporting the hypothesis of HIV-1 X4- and R5-virus entry in preadipocytes. Adipose cells represent the first cell type that does not belong to the immune system expressing all specific HIV receptors and may represent new HIV-1 target cells.
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PMID:Human adipose cells express CD4, CXCR4, and CCR5 [corrected] receptors: a new target cell type for the immunodeficiency virus-1? 1215 94

The envelope glycoprotein of human immunodeficiency virus type 1 (HIV-1), gp160, is synthesized as a protein precursor that when proteolytically cleaved yields two subunits, gp120 and gp41. gp120 is the surface glycoprotein on HIV-1 responsible for binding to CD4, and gp41 is the transmembrane glycoprotein involved in the membrane fusion process. gp41 is divided into the N-terminal fusion peptide, the heptad repeat 1 (HR1) and HR2 regions, and the C-terminal transmembrane region, which are collectively responsible for virus fusion and entry into the cell. Synthetic peptides derived from the HR2 and HR1 regions of HIV-1(LAI) have been shown to prevent virus-cell fusion and infection in vitro. In phase II clinical trials in HIV patients, data revealed that T20 has antiviral efficacy and is well tolerated. Similar results were obtained in vitro with HIV-2 and simian immunodeficiency virus, supporting the conservation of the gp41 ectodomain among lentiviruses. Feline immunodeficiency virus (FIV) infection in the cat has been used as a model to develop potential antivirals for HIV. To determine if synthetic gp40 analogs capable of inhibiting FIV infection could be identified, 15 overlapping 35-amino-acid peptides derived from the C-terminal HR2 domain of FIV gp40 were synthesized. These peptides were tested for efficacy against FIV in a syncytium-forming assay with FIV-infected CrFK cells and HeLa cells expressing the FIV receptor CXCR4. Several peptides exhibited activity at the nanogram level. Antiviral activity was confirmed by suppression of reverse transcriptase in a FIV feline CD4(+)-T-cell (FCD4-E) acute-infection assay. These data demonstrate that synthetic peptides derived from the HR2 domain of the FIV gp41 protein are effective inhibitors of FIV infection.
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PMID:C-Terminal gp40 peptide analogs inhibit feline immunodeficiency virus: cell fusion and virus spread. 1218 91

Knowledge of baseline amino acid substitutions arising at certain critical positions in the HIV-1 non-clade-B protease (PR) and reverse transcriptase (RT) enzymes may yield important information with regard to anticipation of responses to antiretroviral treatment and development of drug resistance. We have compared RT and PR sequences within HIV-1 clade C strains isolated from 14 treatment-naive patients originating from Ethiopia and Botswana with those of PR and RT consensus subtype B RT and PR sequences. Variations in the frequency of natural polymorphisms were observed in clade C isolates at drug-resistance sites. Intra-clade C divergence among mutations within PR was statistically significant while that within RT was not. Only a M361 substitution in PR was shared among almost all isolates from Ethiopia and Botswana. Analysis of the co-receptor usage of clade C isolates from Ethiopia and Botswana supports the known preferential usage of the CCR5 co-receptor by HIV-1 clade C strains. No Ethiopian or Botswanian isolates exclusively used the CXCR4 co-receptor, which is consistent with most data obtained with HIV-1 clade B isolates.
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PMID:Co-receptor usage and HIV-1 intra-clade C polymorphisms in the protease and reverse transcriptase genes of HIV-1 isolates from Ethiopia and Botswana. 1221 26

Virtually all the compounds that are currently used or are subject of advanced clinical trials for the treatment of HIV infections, belong to one of the following classes: (i) nucleoside reverse transcriptase inhibitors (NRTIs): i.e., zidovudine, didanosine, zalcitabine, stavudine, lamivudine, abacavir, emtricitabine and nucleotide reverse transcriptase inhibitors (NtRTIs) (i.e., tenofovir disoproxil fumarate); (ii) non-nucleoside reverse transcriptase inhibitors (NNRTIs): i.e., nevirapine, delavirdine, efavirenz, emivirine; and (iii) protease inhibitors (PIs): i.e., saquinavir, ritonavir, indinavir, nelfinavir, amprenavir, and lopinavir. In addition to the reverse transcriptase and protease reaction, various other events in the HIV replicative cycle can be considered as potential targets for chemotherapeutic intervention: (i) viral adsorption, through binding to the viral envelope glycoprotein gp120 (polysulfates, polysulfonates, polycarboxylates, polyoxometalates, polynucleotides, and negatively charged albumins); (ii) viral entry, through blockade of the viral coreceptors CXCR4 (i.e., bicyclam (AMD3100) derivatives) and CCR5 (i.e., TAK-779 derivatives); (iii) virus-cell fusion, through binding to the viral envelope glycoprotein gp41 (T-20, T-1249); (iv) viral assembly and disassembly, through NCp7 zinc finger-targeted agents [2,2'-dithiobisbenzamides (DIBAs), azadicarbonamide (ADA)]; (v) proviral DNA integration, through integrase inhibitors such as 4-aryl-2,4-dioxobutanoic acid derivatives; (vi) viral mRNA transcription, through inhibitors of the transcription (transactivation) process (flavopiridol, fluoroquinolones). Also, various new NRTIs, NNRTIs, and PIs have been developed that possess, respectively: (i) improved metabolic characteristics (i.e., phosphoramidate and cyclosaligenyl pronucleotides by-passing the first phosphorylation step of the NRTIs), (ii) increased activity ["second" or "third" generation NNRTIs ( i.e., TMC-125, DPC-083)] against those HIV strains that are resistant to the "first" generation NNRTIs, or (iii), as in the case of PIs, a different, modified peptidic (i.e., azapeptidic (atazanavir)) or non-peptidic scaffold (i.e., cyclic urea (mozenavir), 4-hydroxy-2-pyrone (tipranavir)). Non-peptidic PIs may be expected to inhibit HIV mutant strains that have become resistant to peptidomimetic PIs.
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PMID:New anti-HIV agents and targets. 1236 88

HIV entry within the cell involves the presence of at least two chemokine co-receptors, the CCR5 and CXCR4 receptors. Viral entry can be inhibited by the natural ligands for CXCR4, the CXC chemokine SDF-1 and CCR5, the CC chemokines RANTES, MIP-1alpha and MIP-1beta, respectively. Much research has been devoted ultimately to the development of small molecule chemokine antagonists that inhibit virus entry within the cell, and constitute in this way novel antiviral medications. The most potent and specific CXCR4 antagonists reported up to now are the bicyclam derivatives, which also potently block X4 HIV replication. One such compound, AMD3100 has proved to be a highly specific CXCR4 antagonist, which consistently blocks the outgrowth of all X4 HIV and dual-tropic (R5/X4) variants that use CXCR4 for entering the cells. From such bicyclam analogues, AMD3100 was selected as the clinical candidate, which, after initial Phase I studies, proceeded to Phase II trials, but unfortunately showed significant cardiac side effects which lead to its withdrawal from further development. The first nonpeptidic compound that interacts with CCR5, but not with CXCR4, is a quaternary ammonium derivative, TAK-779, which also shows potent but variable anti-HIV activity. A large number of potent CCR5 antagonists from several classes of polycyclic derivatives have been recently disclosed. Many such derivatives showed nanomolar binding affinity to the receptor, and at least one of them, the oxime-piperidine derivative SCH-351125 has progressed to clinical evaluation. The development of such agents for clinical use may constitute an additional approach for the treatment of HIV infection, in addition to the classical one involving reverse transcriptase and protease inhibitors.
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PMID:Non-peptidic chemokine receptors antagonists as emerging anti-HIV agents. 1242 Jul 52

Highly active inhibitors of human immunodeficiency virus (HIV) reverse transcriptase and protease have made it possible to dramatically reduce virus load in HIV-positive individuals. However, the presence of viral reservoirs, the emergence of drug-resistant HIV variants and the side effects of these compounds call for research into new drugs that target different stages of the viral life cycle. One attractive target is the first step in HIV replication: entry of virus into cells. HIV entry is initiated by the attachment of the virus to the host cell membrane, which is some cases involves binding to attachment factors such as DC-SIGN. Subsequent interaction of the envelope protein (Env) with the CD4 receptor causes conformational changes that enable Env to interact with a coreceptor, generally the chemokine receptors CCR5 or CXCR4. Coreceptor engagement triggers the final conformational changes in Env, which mediate lipid mixing between the viral and cellular membranes. All of these steps are potential targets for therapeutic intervention: targeting proteins that mediate viral attachment may reduce HIV transmission, while receptor blockade will inhibit virus entry. Highly conserved domains in Env which bind to CD4 and coreceptor are promising targets for broadly neutralizing antibodies, and peptide inhibitors that bind to Env and that block membrane fusion are in advanced clinical trials. These new approaches may supplement current HIV therapy and may assist in the development of an HIV vaccine.
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PMID:Evaluation of current approaches to inhibit HIV entry. 1246 49

Human immunodeficiency virus (HIV) gp120 induces multiple cellular signaling pathways, including the phosphatidylinositol 3-kinase (PI3-kinase) pathway. The role of the PI3-kinase pathway in HIV-1 replication is not understood. Here we examined whether HIV-1 gp120 upregulates the PI3-kinase pathway and whether PI3-kinase activity plays a role in virus replication in primary human CD4(+) T cells and macrophages. Soluble and virion-associated HIV-1 gp120 induced calcium mobilization and phosphorylation of the PI3-kinase downstream effectors PKB/Akt and p70 S6 kinase. gp120-induced PI3-kinase activity and calcium mobilization were inhibited by pertussis toxin and blocking antibodies directed against CCR5 and CXCR4, suggesting that the signaling is mediated through the chemokine receptor. The PI3-kinase inhibitor LY294002 inhibited infection of CD4(+) T cells and macrophages with X4 and R5 HIV-1-pseudotyped viruses at concentrations that did not induce cell toxicity or downregulate HIV-1 coreceptor expression. When gp120-induced signaling was bypassed with the vesicular stomatitis virus G envelope protein, infection was still sensitive to PI3-kinase inhibition, suggesting that basal PI3-kinase activity is required for infection. LY294002 inhibited HIV-1 infection when added after viral entry and did not affect formation of the HIV-1 reverse transcriptase products R/U5 and long terminal repeat/Gag in the presence of the inhibitor. However, when the inhibitor was added after viral integration had occurred, no inhibition of HIV infection was observed. Our studies show that inhibition of the PI3-kinase signaling pathway suppresses virus infection post-viral entry and post-reverse transcription but prior to HIV gene expression. This type of host-virus interaction has implications for anti-HIV therapeutics that target cellular signaling machinery.
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PMID:Phosphatidylinositol 3-kinase regulates human immunodeficiency virus type 1 replication following viral entry in primary CD4+ T lymphocytes and macrophages. 1255 92

CCR5-using (R5) human immunodeficiency virus type 1 (HIV-1) is a major viral population that is transmitted by sexual intercourse and that replicates in infected individuals during the asymptomatic stage of HIV-1 infection, suggesting that agents effective against R5 HIV-1 can be expected to prevent viral transmission and delay disease progression. However, R5 HIV-1 is unable to replicate in human T-cell lines, which is an apparent obstacle to efficient and reliable susceptibility tests of compounds for their activities against R5 HIV-1. To establish a simple and rapid assay system for the monitoring of R5 HIV-1 replication and drug susceptibility, we have established a novel reporter T-cell line, MOCHA (which represents MOLT-4 cells stably expressing CCR5 and carrying the HIV-1 long terminal repeat-driven secretory alkaline phosphatase). Cells of this cell line express CD4, CXCR4, and CCR5 on their surfaces and secrete human placental alkaline phosphatase into the culture supernatants during HIV-1 infection. MOCHA cells proved to be highly permissive for the replication of R5 HIV-1 as well as CXCR4-using (X4) HIV-1, and the alkaline phosphatase activity increased in parallel with increasing HIV-1 p24 antigen levels in the culture supernatants. When HIV-1 reverse transcriptase inhibitors, protease inhibitors, and entry inhibitors, including the CCR5 antagonist TAK-779 and the CXCR4 antagonist AMD3100, were examined for their inhibitory effects on R5 and X4 HIV-1 replication in MOCHA cells, the antiviral activities of these compounds were found to be almost identical to those previously reported in peripheral blood mononuclear cells. Thus, MOCHA cells are an extremely useful tool for detection of R5 and X4 HIV-1 replication and drug susceptibility tests.
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PMID:Novel reporter T-cell line highly susceptible to both CCR5- and CXCR4-using human immunodeficiency virus type 1 and its application to drug susceptibility tests. 1279 75


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