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)

DNA replication and repair require a specific mechanism to join the 3'- and 5'-ends of two strands to maintain DNA continuity. In order to understand the details of this process, we studied the activity of the 5' nucleases with substrates containing an RNA template strand. By comparing the eubacterial and archaeal 5' nucleases, we show that the polymerase domain of the eubacterial enzymes is critical for the activity of the 5' nuclease domain on RNA containing substrates. Analysis of the activity of chimeric enzymes between the DNA polymerases from Thermus aquaticus (TaqPol) and Thermus thermophilus (TthPol) reveals two regions, in the "thumb" and in the "palm" subdomains, critical for RNA-dependent 5' nuclease activity. There are two critical amino acids in those regions that are responsible for the high activity of TthPol on RNA containing substrates. Mutating glycine 418 and glutamic acid 507 of TaqPol to lysine and glutamine, respectively, increases its RNA-dependent 5' nuclease activity 4-10-fold. Furthermore, the RNA-dependent DNA polymerase activity is controlled by a completely different region of TaqPol and TthPol, and mutations in this region do not affect the 5' nuclease activity. The results presented here suggest a novel substrate binding mode of the eubacterial DNA polymerase enzymes, called a 5' nuclease mode, that is distinct from the polymerizing and editing modes described previously. The application of the enzymes with improved RNA-dependent 5' nuclease activity for RNA detection using the invasive signal amplification assay is discussed.
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PMID:RNA template-dependent 5' nuclease activity of Thermus aquaticus and Thermus thermophilus DNA polymerases. 1082 84

Microencapsulation of islets of Langerhans within semipermeable membranes has been proposed to prevent their immune destruction after transplantation. However, the successful application of this method is impaired by a pericapsular reaction, which eventually induces graft failure. Our goal is to study the role of cytokines in the pathogenesis of this reaction, using the model of alginate-poly-L-lysine microcapsule implantation into Wistar rat epididymal fat pads (EFP). The specific objective of this study was to determine the time course of transforming growth factor (TGF)-beta(1) mRNA expression by semi-quantitative reverse transcriptase-polymerase chain reaction. Microcapsules induced an increase of TGF-beta(1) mRNA expression that reached a maximum 14 days after implantation. Seven, 14, 30, and 60 days after microcapsule implantation, the expression of TGF-beta(1) mRNA was significantly higher in pericapsular infiltrate cells than in nonimplanted EFP cells (p<0.05, p<0.0001, p<0.005, and p<0.01, respectively). Injection of physiological saline induced a small and gradual augmentation of TGF-beta(1) mRNA expression with a maximum 30 days after injection (p<0.01 vs. nonimplanted EFP cells). These results demonstrated that microcapsule implantation, in comparison with saline injection, induce an early, extended, and amplified TGF-beta(1) mRNA expression. This suggests that TGF-beta(1) plays a role in the pathogenesis of the pericapsular host reaction.
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PMID:Time course of transforming growth factor-beta(1) (TGF-beta(1)) mRNA expression in the host reaction to alginate-poly-L-lysine microcapsules following implantations into rat epididymal fat pads. 1090 70

CD8(+) T lymphocytes, which are major immune effectors, require primary stimulation by dendritic cells (DC) presenting MHC class I molecule-bound epitopes. Sensitization to exogenous protein epitopes that are not synthesized in DC, such as cross-priming, is obtained through pathways leading to their association with MHC class I. To follow class I-restricted pathways in human DC, we have tracked a lipopeptide derived from the conserved HLA-A*0201-restricted HIV-1 reverse transcriptase 476-484 epitope, by N-terminal addition of an Nepsilon-palmytoyl-lysine. Indeed, lipopeptides elicit cytotoxic responses from CD8(+) T lymphocytes, whereas peptides without a lipid moiety do not. The lipopeptide and its parent peptide were labeled unequivocally by rhodamine to study their entry into immature monocyte-derived human DC by confocal microscopy. The lipid moiety induced endocytosis of the lipopeptide, assessed by rapid entry into vesicles, colocalization with Dextran-FITC and dependence on energy. Internalization occurred even when actin filaments were depolymerized by Cytochalasin B. This internalization induced functional stimulation of specific CD8(+) T lymphocytes in IFN-gamma ELISPOT assays. The peptide alone was not visualized inside the DC and was presented through direct surface association to HLA-A*0201. Therefore, lipopeptides are a unique opportunity to define precisely the pathways that lead exogenous proteins to associate with MHC class I molecules in DC. The results will also be useful to design lipopeptide vaccines.
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PMID:Endocytosis of an HIV-derived lipopeptide into human dendritic cells followed by class I-restricted CD8(+) T lymphocyte activation. 1109 41

The patterns of resistance-conferring mutations that are selected in HIV-1 reverse transcriptase (RT) by the racemates of 2'-dideoxy-3'-oxa-4'-thiocytidine (+/-)dOTC and its fluorinated derivative (+/-)dOTFC were characterized. Genotypic and phenotypic analyses of HIV-1 clinical isolates and HXB2D variants selected with (+/-)dOTC and (+/-)dOTFC were performed in primary cells and in the MT-2 T cell line. HIV-1 variants selected with (+/-)dOTC or (+/-)dOTFC displayed fivefold decreased susceptibility to the respective compounds. A substitution of methionine to valine was identified at position 184 (M184V) in variants selected with (+/-)dOTC. In contrast, a mutation of lysine to arginine at position 65 (K65R) was found in variants selected with (+/-)dOTFC. These patterns of selected mutations differ from those seen with the individual enantiomers. Studies with mutated recombinant HXB2D-M184V and -K65R confirmed that these mutations are important for phenotypic resistance in MT-2 cells. Clinical isolates that display resistance to (-)2'-deoxy-3'-thiacytidine (3TC) also showed cross-resistance to (+/-)dOTC and (+/-)dOTFC. These studies demonstrate that similar genotypes may be selected by the dOTC and dOTFC compounds to those with the structurally related drug 3TC.
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PMID:Selection of resistance-conferring mutations in HIV-1 by the nucleoside reverse transcriptase inhibitors (+/-)dOTC and (+/-)dOTFC. 1122 93

Inhibitors of human immunodeficiency virus (HIV) reverse transcriptase (RT) are widely used in the treatment of HIV infection. Loviride (an alpha-APA derivative) and HBY 097 (a quinoxaline derivative) are two potent non-nucleoside RT inhibitors (NNRTIs) that have been used in human clinical trials. A major problem for existing anti-retroviral therapy is the emergence of drug-resistant mutants with reduced susceptibility to the inhibitors. Amino acid residue 103 in the p66 subunit of HIV-1 RT is located near a putative entrance to a hydrophobic pocket that binds NNRTIs. Substitution of asparagine for lysine at position 103 of HIV-1 RT is associated with the development of resistance to NNRTIs; this mutation contributes to clinical failure of treatments employing NNRTIs. We have determined the structures of the unliganded form of the Lys103Asn mutant HIV-1 RT and in complexes with loviride and HBY 097. The structures of wild-type and Lys103Asn mutant HIV-1 RT in complexes with NNRTIs are quite similar overall as well as in the vicinity of the bound NNRTIs. Comparison of unliganded wild-type and Lys103Asn mutant HIV-1 RT structures reveals a network of hydrogen bonds in the Lys103Asn mutant that is not present in the wild-type enzyme. Hydrogen bonds in the unliganded Lys103Asn mutant but not in wild-type HIV-1 RT are observed between (1) the side-chains of Asn103 and Tyr188 and (2) well-ordered water molecules in the pocket and nearby pocket residues. The structural differences between unliganded wild-type and Lys103Asn mutant HIV-1 RT may correspond to stabilization of the closed-pocket form of the enzyme, which could interfere with the ability of inhibitors to bind to the enzyme. These results are consistent with kinetic data indicating that NNRTIs bind more slowly to Lys103Asn mutant than to wild-type HIV-1 RT. This novel drug-resistance mechanism explains the broad cross-resistance of Lys103Asn mutant HIV-1 RT to different classes of NNRTIs. Design of NNRTIs that make favorable interactions with the Asn103 side-chain should be relatively effective against the Lys103Asn drug-resistant mutant.
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PMID:The Lys103Asn mutation of HIV-1 RT: a novel mechanism of drug resistance. 1137 Nov 63

Human endogenous retroviruses (HERVs) have been implicated as causative agents in diseases characterized by inflammation and macrophage activation, such as multiple sclerosis. Because monocyte activation and differentiation influence retroviral transcription and replication, we investigated the contribution of these processes to the expression of four HERV families (HERV-W, HERV-K, HERV-E, and HERV-H) in human monocytes, and autopsied brain tissue from patients with brain diseases associated with increased macrophage activity. Reverse transcriptase-polymerase chain reaction analysis of primary macrophages and U937 monocytoid cells stimulated with phorbol-12-myristate-13-acetate or lipopolysaccharide revealed three- to ninefold increases in HERV-W, HERV-K, and HERV-H RNA levels. In addition, elevated reverse transcriptase activity and HERV RNA were detectable in supernatants from PMA-stimulated U937 cultures, properties that could be attenuated with the inhibitor of monocyte differentiation threonine-lysine-proline. In contrast, stimulation of monocytes decreased or had no effect on HERV-E expression. Compared with controls, HERV-W and HERV-K expression was increased in brain tissue from patients with multiple sclerosis or human immunodeficiency virus infection or AIDS, with concomitant elevated tumor necrosis factor-alpha levels. Similarly, elevated HERV-W levels were detected in patients with Alzheimer's dementia only when tumor necrosis factor-alpha expression was also evident (2 of 6 cases). The detection of several HERVs in inflammatory brain diseases and the capacity to augment HERV expression in monocytes with compounds that influence cellular activity suggest that increased expression of these viruses is a consequence of increased immune activity rather than causative of distinct diseases.
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PMID:Monocyte activation and differentiation augment human endogenous retrovirus expression: implications for inflammatory brain diseases. 1160 92

The hepatitis C virus (HCV) encodes an RNA-dependent RNA polymerase (NS5B), which is indispensable for the viral genome replication. Although structural comparison among HCV NS5B, poliovirus 3D-pol, and human immunodeficiency virus-reverse transcriptase RNA-dependent polymerase reveals the canonical palm, fingers, and thumb domains, the crystal structure of HCV NS5B highlights the presence of a unique A1-loop, which extends from the fingers to the thumb domain (amino acids 12-46), providing many contact points for the proposed "closed" conformation of the enzyme. The polymerase also possesses a tunnel, which starts at the active site and terminates on the back surface of the enzyme. This tunnel of 19 A contains five basic amino acids, which may be engaged in NTP trafficking. In the present study, we exploited the crystal structure of the enzyme to elucidate the involvement of these two structural motifs in enzyme activity by site-directed mutagenesis. As predicted, the replacement of leucine 30 located in the Lambda 1-loop is detrimental to the NS5B activity. Heparin-Sepharose column chromatography and analytical ultracentrifugation experiments strongly suggest a local alteration in the structure of the Leu-30 mutant. An analysis of amino acid substitutions in Arg-222 and Lys-151 within the putative NTP tunnel indicates that Arg-222 was critical in delivering NTPs to the active site, whereas Lys-151 was dispensable. Interestingly, the substitution of lysine 151 for a glutamic acid resulted in an enzyme that was consistently more active in de novo synthesis as well as by "copy-back" mechanism of a self-primed substrate when compared with the wild type NS5B enzyme. Burst kinetic analyses indicate that the gain in function of K151E enzyme was primarily the result of the formation of more productive pre-initiation complexes that were used for the elongation reaction. In contrast to the recent observations, both the wild type and mutant enzymes were monomeric in solution, whereas molecules of higher order were apparent in the presence of RNA template.
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PMID:Modulation of hepatitis C virus RNA-dependent RNA polymerase activity by structure-based site-directed mutagenesis. 1214 89

Amino acids at conserved sites in the residue sequence of 10 ancient proteins, from 844 phylogenetically diverse sources, were used to specify their time of origin in the interval before species divergence from the last common ancestor (LCA). The order of amino acid addition to the genetic code, based on biosynthesis path length and other molecular evidence, provided a reference for evaluating the 'code age' of each residue profile examined. Significantly earlier estimates were obtained for conserved amino acid residues in these proteins than non-conserved residues. Evidence from the primary structure of 'fossil' proteins thus corroborated the biosynthetic order of amino acid addition to the code.Low potential ferredoxin (Fdxn) had the earliest residue profile among the proteins in this study. A phylogenetic tree for 82 prokaryote Fdxn sequences was rooted midway between bacteria and archaea branches. LCA Fdxn had a 23-residue antecedent whose residue profile matched mid-expansion phase codon assignments and included an amide residue. It contained a highly acidic N-terminal region and a non-charged C-terminal region, with all four cysteine residues. This small protein apparently anchored a [4Fe-4S] cluster, ligated by C-terminal cysteines, to a positively charged mineral surface, consistent with mediating e(-) transfer in a primordial surface system before cells appeared. Its negatively charged N-terminal 'attachment site' was highly mutable during evolution of ancestral Fdxn for Bacteria and Archaea, consistent with a loss of function after cell formation. An initial glutamate to lysine substitution may link 'attachment site' removal to early post-expansion phase entry of basic amino acids to the code. As proteins evidently anchored non-charged amide residues initially, surface attachment of cofactors and other functional groups emerges as a general function of pre-cell proteins.A phylogenetic tree of 107 proteolipid (PL) helix-1 sequences from H(+)-ATPase of bacteria, archaea and eukaryotes had its root between prokaryote branches. LCA PL h1 residue profile optimally fit a late expansion phase codon array. Sequence repeats in transmembrane PL helices h1 and h2 indicated formation of the archetypal PL hairpin structure involved successive tandem duplications, initiated within the gene for an 11-residue (or 4-residue) hydrophobic peptide. Ancestral PL h1 lacked acidic residues, in a fundamental departure from the prototype pre-cell protein. By this stage, proteins with a hydrophobic domain had evolved. Its non-polar, late expansion phase residue profile point to ancestral PL being a component of an early permeable cell membrane. Other indicators of cell formation about this stage of code evolution include phospholipid biosynthesis path length, FtsZ residue profile, and late entry of basic amino acids into the genetic code. Estimates based on conserved residues in prokaryote cell septation protein, FtsZ, and proteins involved with synthesis, transcription and replication of DNA revealed FtsZ, ribonucleotide reductase, RNA polymerase core subunits and 5'-->3' flap exonuclease, FEN-1, originated soon after cells putatively evolved. While reverse transcriptase and topoisomerase I, Topo I, appeared late in the pre-divergence era, when the genetic code was essentially complete. The transition from RNA genes to a DNA genome seemingly proceeded via formation of a DNA-RNA heteroduplex. These results suggest formation of DNA awaited evolution of a catalyst with a hydrophobic domain, capable of sequestering radical bearing intermediates in its synthesis from ribonucleotide precursors. Late formation of topology altering protein, Topo I, further suggests consolidation of genes into chromosomes followed synthesis of comparatively thermostable DNA strands.
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PMID:Molecular evolution before the origin of species. 1222 77

Both plants and animals catabolize lysine (Lys) via two consecutive enzymes, Lys-ketoglutarate reductase (LKR) and saccharopine dehydrogenase (SDH), which are linked on a single polypeptide encoded by a single LKR/SDH gene. We have previously shown that the Arabidopsis LKR/SDH gene also encodes a monofunctional SDH that is transcribed from an internal promoter. In the present report, we have identified two cDNAs derived from cotton (Gossypium hirsutum) boll abscission zone that encode a novel enzymatic form of Lys catabolism, i.e. a catabolic monofunctional LKR. The monofunctional LKR mRNA is also encoded by the LKR/SDH gene, using two weak polyadenylation sites located within an intron. In situ mRNA hybridization and quantitative reverse transcriptase-polymerase chain reaction analyses also suggest that the cotton monofunctional LKR is relatively abundantly expressed in parenchyma cells of the abscission zone. DNA sequence analysis of the LKR/SDH genes of Arabidopsis, maize (Zea mays), and tomato (Lycopersicon esculentum) suggests that these genes can also encode a monofunctional LKR mRNA by a similar mechanism. To test whether the LKR/SDH and monofunctional LKR enzymes possess different biochemical properties, we used recombinant Arabidopsis LKR/SDH and monofunctional LKR enzymes expressed in yeast (Saccharomyces cerevisiae) cells. The K(m) of the monofunctional LKR to Lys was nearly 10-fold lower than its counterpart that is linked to SDH. Taken together, our results suggest that the LKR/SDH locus of plants is a super-composite locus that can encode three related but distinct enzymes of Lys catabolism. These three enzymes apparently operate in concert to finely regulate Lys catabolism during plant development.
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PMID:The bifunctional LKR/SDH locus of plants also encodes a highly active monofunctional lysine-ketoglutarate reductase using a polyadenylation signal located within an intron. 1222 95

The methionine-to-valine mutation in codon 184 (M184V) in reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1) or simian immunodeficiency virus (SIV) confers resistance to (-)-2'-deoxy-3'-thiacytidine (3TC; lamivudine) and increased sensitivity to 9-[2-(phosphonomethoxy)propyl]adenine (PMPA; tenofovir). We have used the SIV model to evaluate the effect of the M184V mutation on the emergence of resistance to the combination of 3TC plus PMPA. A site-directed mutant of SIVmac239 containing M184V (SIVmac239-184V) was used to select for resistance to both 3TC and PMPA by serial passage in the presence of increasing concentrations of both drugs. Under these selection conditions, the M184V mutation reverted in the majority of the selections. Variants resistant to both drugs were found to have the lysine-to-arginine mutation at codon 65 (K65R), which has previously been associated with resistance to PMPA in both SIV and HIV. Similarly, in rhesus macaques infected with SIVmac239-184V for 46 weeks and treated daily with (-)-2'-deoxy-5-fluoro-3'-thiacytidine [(-)-FTC], there was no reversion of M184V, but this mutation reverted to 184 M in all three animals within 24 weeks of treatment with (-)-FTC and PMPA. Although the addition of PMPA to the (-)-FTC therapy induced a decrease in virus loads in plasma, these loads eventually returned to pre-PMPA levels in each case. All animals receiving this combination developed the K65R mutation. These results demonstrate that the combination of PMPA with 3TC or (-)-FTC selects for the K65R mutation and against the M184V mutation in SIV RT.
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PMID:Reversion of the M184V mutation in simian immunodeficiency virus reverse transcriptase is selected by tenofovir, even in the presence of lamivudine. 1250 28

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