EC:2.7.7.49 - FACTA Search

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)

During mammalian cortical development, neuronal precursors proliferate within ventricular regions then migrate to their target destinations in the cortical plate, where they organize into layers. In the rat, most cortical neuronal migration occurs during the final week of gestation (Bayer et al, 1991; Jacobson, 1991). At this time (E15-E21), reverse transcriptase-polymerase chain reaction demonstrated that cortical homogenates contain mRNA encoding brain derived neurotrophic factor (BDNF) and the catalytic form of its high-affinity receptor, TrkB. Immunocytochemistry and in situ hybridization of sections revealed that the catalytic TrkB receptors predominantly localize to regions containing migratory cells. Many TrkB+ cells exhibited the classic morphology of migrating neurons, suggesting that TrkB ligands play a role in cortical neuronal migration. We analysed whether TrkB ligands influence the motility of embryonic cortical cells (from E15-E21) using a quantitative in vitro chemotaxis assay. High-affinity TrkB ligands (BDNF and NT4/5) stimulated chemotaxis (directed migration) of embryonic neurons at concentrations ranging from 1 to 100 ng/ml. NT-3, a low-affinity TrkB ligand, only stimulated significant migration at high concentrations (> or =100 ng/ml). Peak migration to BDNF was observed at gestational day 18 (E18). BDNF-induced chemotaxis was blocked by either tyrosine kinase inhibitor, K252a, or the Ca2+-chelator, BAPTA-AM, suggesting that BDNF-induces motility via autophosphorylation of TrkB receptor proteins and involves Ca2+-dependent mechanisms. BDNF-stimulation of increased cytosolic Ca2+ was confirmed with optical recordings of E18 cortical cells loaded with Ca2+ indicator dye. Thus, signal transduction through the TrkB receptor complex directs neuronal migration, suggesting that, in vivo, BDNF exerts chemotropic effects that are critical to morphogenesis of the cortex.
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PMID:Neurotrophins stimulate chemotaxis of embryonic cortical neurons. 951 61

The second generation Hoechst-Bayer non-nucleoside inhibitor, HBY 097 (S-4-isopropoxycarbonyl-6-methoxy-3-(methylthiomethyl)-3, 4-dihydroqui noxalin-2(1H)-thione), is an extremely potent inhibitor of HIV-1 reverse transcriptase (RT) and of HIV-1 infection in cell culture. HBY 097 selects for unusual drug-resistance mutations in HIV-1 RT (e.g. Gly190Glu) when compared with other non-nucleoside RT inhibitors (NNRTIs), such as nevirapine, alpha-APA and TIBO. We have determined the structure of HBY 097 complexed with wild-type HIV-1 RT at 3.1 A resolution. The HIV-1 RT/HBY 097 structure reveals an overall inhibitor geometry and binding mode differing significantly from RT/NNRTI structures reported earlier, in that HBY 097 does not adopt the usual butterfly-like shape. We have determined the structure of the Tyr188Leu HIV-1 RT drug-resistant mutant in complex with HBY 097 at 3.3 A resolution. HBY 097 binds to the mutant RT in a manner similar to that seen in the wild-type RT/HBY 097 complex, although there are some repositioning and conformational alterations of the inhibitor. Conformational changes of the structural elements forming the inhibitor-binding pocket, including the orientation of some side-chains, are observed. Reduction in the size of the 188 side-chain and repositioning of the Phe227 side-chain increases the volume of the binding cavity in the Tyr188Leu HIV-1 RT/HBY 097 complex. Loss of important protein-inhibitor interactions may account for the reduced potency of HBY 097 against the Tyr188Leu HIV-1 RT mutant. The loss of binding energy may be partially offset by additional contacts resulting from conformational changes of the inhibitor and nearby amino acid residues. This would suggest that inhibitor flexibility can help to minimize drug resistance.
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PMID:Structures of Tyr188Leu mutant and wild-type HIV-1 reverse transcriptase complexed with the non-nucleoside inhibitor HBY 097: inhibitor flexibility is a useful design feature for reducing drug resistance. 981 20

A long-term assessment of quantitative hepatitis C virus (HCV) testing was performed at the University of Pittsburgh Medical Center. The Quantiplex HCV RNA 2.0 branched-chain DNA (bDNA) assay (Bayer Diagnostics) for hepatitis C viral load determination was used to test 3,471 specimens. bDNA-negative samples were also tested by an in-house qualitative reverse transcriptase (RT)-PCR assay with a measured sensitivity of fewer than 100 HCV genome equivalents per milliliter. Of 1,239 bDNA-negative specimens, 74.1% were negative and 25.9% were positive by RT-PCR, indicating the presence of viremia in a significant proportion of bDNA-negative samples. We discuss the medical and economic implications of these results and propose two alternatives for clinical laboratories to consider in approaching quantitative HCV testing. For laboratories able to perform a sensitive RT-PCR assay for </=40% of the bDNA test cost, prescreening bDNA requests by RT-PCR may be the most cost-effective approach.
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PMID:Hepatitis C virus quantitation: optimization of strategies for detecting low-level viremia. 1065 9

Accurate and sensitive quantification of human immunodeficiency virus type 1 (HIV-1) RNA has been invaluable as a marker for disease prognosis and for clinical monitoring of HIV-1 disease. The first generation of commercially available HIV-1 RNA tests were optimized to detect the predominant HIV-1 subtype found in North America and Europe, subtype B. However, these tests are frequently suboptimal in detecting HIV-1 genetic forms or subtypes found in other parts of the world. The goal of the present study was to evaluate the performance of a new viral load assay with non-subtype B viruses. A transcription-mediated amplification method for detection and quantitation of diverse HIV-1 subtypes, called the Gen-Probe HIV-1 viral load assay, is under development. In this study we examined the performance of the Gen-Probe HIV-1 viral load assay relative to that of the commonly used commercial HIV-1 RNA assays using a panel of primary isolates from Kenya. For comparison, we included several subtype B cloned viruses, and we quantified each virus using an in-house quantitative-competitive reverse transcriptase PCR (QC-RT-PCR) method and gag(p24) antigen capture. The Gen-Probe HIV-1 viral load assay and a version of the Roche AMPLICOR HIV-1 MONITOR test (version 1.5) that was designed to detect a broader range of subtypes were both sensitive for the quantification of Kenyan primary isolates, which represented subtype A, C, and D viruses. The Gen-Probe HIV-1 viral load assay was more sensitive for the majority of viruses than the Roche AMPLICOR HIV-1 MONITOR test version 1.0, the Bayer Quantiplex HIV RNA 3.0 assay, or a QC-RT-PCR method in use in our laboratory, suggesting that it provides a useful method for quantifying HIV-1 RNAs from diverse parts of the world, including Africa.
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PMID:Evaluation of performance of the Gen-Probe human immunodeficiency virus type 1 viral load assay using primary subtype A, C, and D isolates from Kenya. 1087 65

We developed a rapid and highly reproducible assay based on real-time PCR (TaqMan, Applied Biosystems, Foster City, CA) to quantitate simian immunodeficiency virus (SIV) RNA in plasma samples. This assay was compared with the current branched-chain DNA assay (Bayer, Emeryville, CA). Results obtained with the real-time TaqMan PCR assay were comparable to those obtained with the branched-chain DNA assay in overlapping ranges of sensitivities (r = 0.9429, p < 0.05). However, the real-time TaqMan PCR assay was capable of detecting as few as 50 copies of RNA/ml, whereas branched-chain DNA was only sensitive to 1,500 copies of RNA/ml. Therefore, several animals that tested negative by branched-chain DNA were positive by realtime TaqMan PCR. Two false positive tests were also recorded for the branched-chain DNA test. False negative and positive tests were confirmed by cell culture isolation and conventional nested RT-PCR. The SIV TaqMan assay detected a wide range of wild-type, cloned, and recombinant SIV strains with similar amplification efficiency, including SIVmac251, SIVmac239, SIVmac239 containing the 184V mutation in RT, SIV1A11, SIVmac239 delta3, SIVmac-M4, and chimeras (SHIVs) containing specific HIV-1 genes, such as reverse transcriptase (RT-SHIV) or Env (SHIV-E). In conclusion, the high sensitivity, increased specificity, wide dynamic range, simplicity, and reproducibility of the real-time SIV RNA quantitation allow the screening of large numbers of samples and make this method especially suitable for measuring both viral DNA and RNA levels during vaccine and therapy studies.
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PMID:Real-time TaqMan PCR as a specific and more sensitive alternative to the branched-chain DNA assay for quantitation of simian immunodeficiency virus RNA. 1117 7

A new generation of protease inhibitors is entering studies. Abbott Lab's ABT-378 and Pharmacia/Upjohn's PNU-140690 are beginning clinical studies and both are designed to overcome resistance problems. Several companies are developing new compounds to inhibit reverse transcriptase, such as Bristol-Myers Squibb's lobucavir and Hoechst/Bayer's HBY097. Calanolide A, which will soon begin trials, has a different resistance pattern than other non-nucleoside reverse transcriptase inhibitors, which may be an important advantage. Several groups are developing compounds to inhibit the HIV zinc finger, such as Parke-Davis' compound, CI-1012; and a Dutch company who is developing Azodicarbonamide, a drug currently in phase I/II trials for people with advanced disease in Europe. HIV drugs to date have not been successful in blocking viral fusion. However, three new fusion inhibitors are showing promise within the laboratory: Pentafuside (currently in phase I trials), Fuji ImmunoPharmaceuticals' FP-21399 (currently in phase I trials), and ISIS Pharmaceuticals' ISIS 5320. A new class of drugs known as integrase inhibitors has been of interest to pharmaceutical companies for the past several years; only one drug, Aronex Pharmaceuticals' Zintevir, has reached phase I/II trials.
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PMID:Protease inhibitors and beyond. 1136 10

The quantitation of mRNA, essential for assessing mechanisms of enzyme regulation, is normally carried out using reverse transcriptase-polymerase chain reaction (RT-PCR). An alternative method uses a signal-amplification nucleic acid probe assay, which measures RNA directly by the QuantiGene Expression Kit and incorporates branched DNA technology from Bayer and luminometer-based readings of a chemilumigenic alkaline phosphatase substrate. To broaden the utility of this assay, we investigated substitution of a fluorescent substrate, 2'-(2-benzothiazol)-6'-hydroxybenzothiazole phosphate and a fluorometer, and applied the method to quantitation of CYP1A1 and 1B1 mRNA in human T-47D and HepG2 cells following induction by benzo[a]pyrene (B[a]P) and dibenzo[a,h]anthracene (DB[a,h]A). The fluorescence response increased linearly for 200 min without photobleaching and increased linearly (r2=0.997) up to at least 0.2 microg total RNA. The data revealed that at 0.5 and 1.0 microM inducing agent, the induction of CYP1A1 mRNA in HepG2 cells by DB[a,h]A exceeded that by B[a]P by 18- and 6-fold, respectively. In T-47D cells B[a]P induced CYP1A1 mRNA by 23-fold and CYP1B1 mRNA by 3.9-fold. A B[a]P cocontaminant in the environment, arsenite, did not affect B[a]P-induced levels of CYP1A1 or 1B1 mRNA in these cells. The modified analytical system provides a rapid-throughput, reproducible, and less labor-intensive method than RT-PCR for quantifying cellular mRNA levels.
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PMID:Quantitation of CYP1A1 and 1B1 mRNA in polycyclic aromatic hydrocarbon-treated human T-47D and HepG2 cells by a modified bDNA assay using fluorescence detection. 1253 Dec 1

Guidelines for the use of antiretroviral agents consider that viral load values may differ using the branched DNA (bDNA) and polymerase chain reaction (PCR) methods. Whereas the most commonly used PCR assay (Amplicor v1.5, Roche) targets HIV gag sequences, the bDNA (Quantiplex v3.0, Bayer) is based on the recognition of HIV pol sequences. The possibility that accumulation of drug-resistance mutations at the reverse transcriptase and/or protease genes could influence viral load measurements using bDNA was examined in a case control study. Plasma samples collected from 46 HIV-infected individuals receiving antiretroviral therapy and carrying different number of drug resistance mutations were analyzed. The performance of both bDNA and PCR assays was found to be comparable irrespective of the presence or absence of drug resistance mutations.
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PMID:Can drug resistance mutations influence the measurement of plasma HIV-RNA by different viral load techniques? 1295 33

Viral load quantitation has become the major prognostic marker for disease prognosis and outcome of antiretroviral therapy in the treatment of HIV-infected individuals. The three major methodologies for viral load quantitation: the reverse transcriptase-polymerase chain reaction (RT-PCR; Amplicor HIV-1 Monitor Test, Roche Diagnostic Systems, Pleasanton, CA), the nucleic acid sequence-based amplification (NASBA; NucliSens HIV-1 QT Test, Organon Teknika, Bostel, The Netherlands); and a signal amplification methodology termed branchedchain DNA (bDNA) technique (Quantiplex HIV-1 RNA test, Bayer Diagnostics, Emeryville, CA) are briefly reviewed here.
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PMID:Molecular-based methods for quantifying HIV viral load. 1500 82

We evaluated a low cost manual reverse transcriptase assay (ExaVir Load V.1 and V.2; Cavidi Tech AB) against commercially available HIV RNA assays that quantify viral load to assess its suitability for use in resource-constrained settings. Frozen plasma samples previously tested for RNA by RT-PCR (Roche Diagnostics) and bDNA (Bayer Diagnostics) were retested for RT activity. Text sequence obtained from HIV genotype analysis was submitted to the Stanford HIV Resistance Database V.3.9 and were examined for resistant virus. Detectable RT was present in 98% of samples (V.1; n=127) and in 95% of samples (V.2; n=69) with RNA >10,000 and >1,000 copies/ml respectively. Positive association was found between the log10 RNA copies/ml and log10 RT copies/ml equivalents variables using Pearson's correlation (V.1: r=0.89, n=189; V.2: r=0.89, n=85). The RT activity over time closely followed the trend for RNA levels in samples from 10 HIV seropositive patients with progressive disease. A strong association between RT and RNA was also found with paired samples from 19 patients taken at initiation or change of antiretroviral therapy and again within 2 months. Current (n=40) or no (n=119) exposure to efavirenz therapy had no effect on RT assay performance despite efavirenz binding tightly to the RT enzyme. Samples that demonstrated resistance to the non-nucleoside RT inhibitors (n=112) had a decrease in RT of 0.20 log10 indicating a possible decrease in RT fitness. The RT assay showed good association with current molecular assays, and V.2 is sufficiently sensitive for monitoring HIV viral load in resource-constrained settings.
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PMID:Evaluation of a low cost reverse transcriptase assay for plasma HIV-1 viral load monitoring. 1585 22

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