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)

Exposure to mineral dusts such as silica has been associated with progressive pulmonary inflammation and fibrosis. There is evidence that the release of reactive oxygen intermediates (ROI) and cytokines by alveolar macrophages (AM) is involved in lung injury associated with silica exposure. However, the chronology and relationship between these two mediators are poorly understood. In this study, an animal model of silicosis has been used, allowing simultaneous follow-up of lung histopathologic state, AM TNF-alpha production at the protein (biologic assay) and mRNA (reverse transcriptase-PCR) levels, and the release of ROI (luminol-dependent chemiluminescence), after bronchoalveolar lavages. In particular, it has been shown that intratracheal instillation of silica (50 mg/kg) in rats led to fibrosis characterized by cellular interstitial infiltrates with granulomas, and in AM, it led to 1) an early and continuous increase in 12-O-tetradecanoylphorbol-13-acetate- or zymosan-triggered ROI production (days 1, 3, 14, and 28 post-treatment), and 2) a rise of TNF-alpha mRNA expression and protein secretion on days 3 and 14. A free radical scavenger pretreatment (N-ter-butyl-alpha-phenylnitrone) reversed lung histopathologic changes and decreased AM ROI production and TNF-alpha expression at the level of mRNA. These findings suggest that ROI production is an important primary event determining the silica-induced inflammatory process. ROI may act in an autocrine or paracrine manner and regulate TNF-alpha production by a mechanism promoting gene expression. The critical role of this cytokine in the pathogenesis of silicosis was confirmed by anti-TNF-alpha Ab treatment.
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PMID:Reactive oxygen intermediates as regulators of TNF-alpha production in rat lung inflammation induced by silica. 856 58

The mechanisms responsible for ethanol-mediated teratogenesis have not been resolved. However, possible etiologies include the local formation of the teratogen acetaldehyde or oxygen radicals by fetal ethanol-oxidizing enzymes. As alcohol dehydrogenases are expressed at very low concentrations in human embryonic tissues, the ethanol-inducible P450 enzyme, CYP2E1, could be the sole catalyst of fetal ethanol oxidation. With this in mind, we examined the expression of this P450 in liver samples from fetuses ranging in gestational age from 16 to 24 weeks. Immunoblot analysis of fetal liver microsomes revealed the presence of a protein immunoreactive with CYP2E1 antibodies that exhibited a slightly lower molecular weight than that found in adult liver samples. Embryonic CYP2E1 expression was further confirmed by the reverse transcriptase reaction with RNA from a 19-week gestational fetal liver used as template. Catalytic capabilities of human fetal microsomes were assessed by measurement of the rate of ethanol oxidation to acetaldehyde, which were 12-27% of those exhibited by adult liver microsomes. Immunoinhibition studies with CYP2E1 antibodies revealed that the corresponding antigen was the major catalyst of this reaction in both fetal and adult tissues. We then assessed whether embryonic CYP2E1 was, like the adult enzyme, inducible by xenobiotics. Treatment of primary fetal hepatocyte cultures with either ethanol or clofibrate demonstrated a 2-fold increase in CYP2E1 levels compared with untreated cells. Collectively, our results indicate that CYP2E1 is present in human fetal liver, that the enzyme is functionally similar to CYP2E1 from adults, and that fetal hepatocyte CYP2E1 is inducible in culture by xenobiotics, including ethanol. Because fetal CYP2E1 mediates ethanol metabolism, the enzyme may play a pivotal role in the local production of acetaldehyde and free radicals, both of which have potential deleterious effects on the developing fetus.
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PMID:Expression, induction, and catalytic activity of the ethanol-inducible cytochrome P450 (CYP2E1) in human fetal liver and hepatocytes. 863 58

It has been previously reported that minoxidil inhibits the activity of lysyl hydroxylase (LH), an enzyme which catalyzes the formation of hydroxylysine, which is necessary for proper maturation of collagen at the transcriptional and enzymatic levels. Using the reverse transcriptase-polymerase chain reaction, we confirmed that this inhibition occurred at least at the transcriptional level. Furthermore, we took advantage of this sensitive and rapid method to perform a quantitative structure activity relation study using several compounds structurally related to minoxidil. We found that when the C6 of the pyrimidinyl moiety was substituted, it had to be by a tertiary nitrogen, i.e. an N-piperidin ring for the inhibition of LH mRNA synthesis to be observed. Surprisingly, however, we found that 2,4-diamino-pyrimidin-3-oxide, a new compound lacking an organic moiety para to the nitroxide oxygen, also retained a high inhibitory effect on LH mRNA expression, comparable to that of minoxidil. We thus conclude that the presence of a substituent para to the nitroxide oxygen is dispensable for inhibition of LH mRNA to be observed in vitro. This brings new insights into the design of therapeutic agents useful in any condition where an overproduction of mature collagen is unwanted, i.e. accelerated wound healing, keloids and localized scleroderma.
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PMID:A minoxidil-related compound lacking a C6 substitution still exhibits strong anti-lysyl hydroxylase activity in vitro. 873 14

The object of this study was to investigate the influence of reactive oxygen intermediates (ROI), such as H2O2, on HIV-1 infection of cell cultures. The CD4+ HeLa human epithelial carcinoma cell line clone pBKTRLac was infected with HIV-1MN that had been treated with 0.01-5mM H2O2. Virus infectivity was detected by 3 methods: (a) using transactivation of LTR-linked beta-Galactosidase, (b) viral core p24 antigen enzyme-linked immunoasorbent assay (ELISA), and (c) reverse transcriptase activity assay. Treatment of HIV-1MN cell free virus particles with 0.01 mM H2O2 resulted in a significant increase in virus infection. This effect declined with increasing H2O2 concentrations from 0.05 to 0.1 mM. Further increases in H2O2 concentration up to 5 mM resulted in significant suppression in virus infection. These observations indicate that H2O2 may play a role in affecting the course of HIV infection.
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PMID:Influence of hydrogen peroxide on the in vitro infectivity of human immunodeficiency virus. 890 98

This study investigated whether hypoxia affected the expression of mitochondrial manganese-containing superoxide dismutase (Mn-SOD) and the cytosolic copper and zinc-containing superoxide dismutase (Cu,Zn-SOD) in alveolar type II epithelial (ATII) cells and lung fibroblasts. Cells were exposed in vitro to air (controls) or to 2.5% oxygen (hypoxia) for 24 h. Mn-SOD and Cu,Zn-SOD mRNA expression was measured by quantitative reverse transcriptase-polymerase chain reaction. Both Mn-SOD and Cu,Zn-SOD mRNA expression in ATII cells decreased significantly after 1 day in hypoxic conditions. The decrease in Mn-SOD mRNA (-69%) was greater than that in Cu,Zn-SOD mRNA (-48%). ATII cell surfactant protein A transcript expression remained constant. Mn-SOD (-52%) and Cu,Zn-SOD (-54%) mRNA expression decreased similarly in lung fibroblasts cultured during hypoxia. The half-life of the Mn-SOD mRNA measured in lung fibroblasts exposed to air or hypoxia for 24 h decreased significantly from 5.8 +/- 0.1 to 3.8 +/- 0.7 h (-34%). The half-life for the Cu,Zn-SOD decreased significantly from 4.0 +/- 0.3 to 2.4 +/- 0.1 h (-40%). Neither Mn-SOD nor Cu,Zn-SOD protein expression in ATII cells changed significantly during hypoxia. Hypoxia decreases expression of Mn-SOD and Cu,Zn-SOD mRNA in ATII cells and lung fibroblasts in part by decreasing stability of the mRNA transcripts.
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PMID:Effects of hypoxia on expression of superoxide dismutases in cultured ATII cells and lung fibroblasts. 899 66

Recent reports have demonstrated that prostaglandin F2alpha-induced generation of reactive oxygen species or their intermediates inhibits progesterone synthesis and may also serve as a trigger for apoptosis in the corpus luteum (CL). BCL-2, an inhibitor of apoptosis in a wide variety of cell types, has been reported to prevent oxidative stress-induced cell death. Thus, the present studies were conducted to determine whether levels of mRNA encoding BCL-2 and related members of this gene family (BAX and BCL-Xshort, which induce apoptosis; BCL-Xlong, a BCL-2 homologue that prevents apoptosis) differed in functional (Day 21 of pregnancy) versus regressed (Day 21 of the estrous cycle) CL in the bovine ovary. Levels of mRNAs encoding p53, a transcriptional regulator of the bcl-2 and bax genes, and interleukin-1beta-converting enzyme (ICE), a protein recently implicated in the induction of apoptosis whose expression may be enhanced by oxidative stress, were also assessed. Partial cDNA clones encoding bovine bax, bcl-x, p53, and Ice were isolated using the reverse transcriptase-polymerase chain reaction (RT-PCR) technique with total RNA prepared from functional or regressed CL. A bovine bcl-2 cDNA could not be isolated from luteal tissue RNA despite the use of several primer pairs for amplification. Total RNA was then extracted from functional or regressed CL and analyzed by Northern blot analysis. The occurrence of apoptosis in regressed CL, as evidenced by the presence of internucleosomal DNA cleavage, was associated with a significant increase in both bax and Ice mRNA levels as compared with levels of bax and Ice expression in functional CL (p < 0.05, n = 3). There were no significant differences in bcl-x or p53 mRNA levels in functional versus regressed CL. Analysis of bcl-x mRNA by RT-PCR revealed that the long form was the primary, if not only, mRNA expressed in functional and regressed bovine luteal tissue. On the basis of data that increased expression of bax is associated with, and may be required for, apoptosis in ovarian granulosa cells and germ cells, we propose that BAX may play a similar role in apoptosis induction during luteal regression. Moreover, the increased Ice mRNA levels in regressed CL provides the first evidence that the ICE family of death proteases may be involved in luteolysis.
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PMID:Increased bax and interleukin-1beta-converting enzyme messenger ribonucleic acid levels coincide with apoptosis in the bovine corpus luteum during structural regression. 900 48

Superoxide dismutase (SOD) is an enzyme used in the treatment of oxygen radical-related diseases. Lecithinization of SOD enhances its pharmacological activity. Lecithinized SOD (PC-SOD) inhibits human immunodeficiency virus (HIV) types 1 and 2 in MT-4 cells. HIV-1-infected MT-4 cells were cultured for 5 days in the presence of PC-SOD, at various concentrations. In an MTT assay, reverse transcriptase (RT) activity of the cell extract and p24 antigen production were measured. Untreated, HIV-1-infected MT-4 cells served as control. PC-SOD inhibited viral replication most effectively at 2500 U/ml, a concentration that did not affect cell viability, with an EC50 value of 718 U/ml. PC-SOD treatment inhibited RT activity and p24 production in a dose-dependent manner. Western blot analysis of the HIV-1-infected MT-4 cells treated with PC-SOD at 2500 U/ml did not detect any expression of viral proteins. Failure to inhibit virus adsorption, proviral DNA and mRNA synthesis, and RT and proteinase enzyme activity suggests that the mechanism of action of PC-SOD is entirely different from those of the currently available anti-HIV drugs. PC-SOD shows synergistic interaction with AZT, ddI, ddC, KNI-272, and dextran sulfate. PC-SOD also inhibited the oxidative stress-induced depletion of sulfhydryls, which are the cause of diminished antioxidant defenses in HIV-infected patients.
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PMID:Lecithinized superoxide dismutase: an inhibitor of human immunodeficiency virus replication. 907 27

The (thio)carboxanilide derivatives are potent and selective inhibitors of HIV-1 reverse transcriptase (RT) and have a favourable antiviral activity spectrum. To understand better their mode of action, and to provide a structural basis for further improvement, models of RT complexed with four (thio)carboxanilide inhibitors (UC781, UC10, UC38 and UC84) have been constructed based on the X-ray structure of RT complexed with 9-chloro-TIBO. In the models, the protein conformation is similar to that of the RT-TIBO complex and the complexes are stabilised by hydrogen bonding between the inhibitors and the main chain oxygen of Lys101. Significant hydrophobic interactions include those with Leu100, Val106, Val179, Tyr188, Phe227, Leu234, and His235. The thiocarboxanilides UC781 and UC10 also make important hydrophobic interactions with Trp229. The models are consistent with the inhibitors' relative antiviral potencies and the observed resistance data. They further predict that mutations to Phe227, Trp229, or Leu234 might confer resistance. Since these are not observed, some constraining structural or functional role for these residues in the active enzyme is suggested.
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PMID:Models which explain the inhibition of reverse transcriptase by HIV-1-specific (thio)carboxanilide derivatives. 917 93

High concentrations of oxygen, indispensable for the treatment of severe hypoxemia from neonatal as well as adult respiratory distress syndrome, increase the risk of oxygen toxicity. Biochemical mechanisms are lipid peroxidation, protein sulfhydryl oxidation, enzyme inactivation, and DNA damage. Recent reports suggest that cytokines might be involved in free radical injury as well as in adaptive response to hyperoxic injury. However, actual signal transduction pathways involving cytokines have not yet been clarified. In this study we exposed cultured human umbilical vein endothelial cells (HUVECs) to either ambient air or 100% oxygen, and compared for the rate of DNA synthesis ([3H]thymidine uptake) at different time points up to 72 h. After exposing the cells to each treatment condition, we extracted RNA, constructed complementary DNA using reverse transcriptase, amplified the specific DNA segments of cytokines by polymerase chain reaction (PCR), and used the PCR products for gel electrophoresis to examine the bands which signified mRNA levels of corresponding cytokines. There was a significant decrease in the rate of DNA synthesis as early as 24 h. The mRNA expression of IL-1 beta and TNFa seemed less influenced by hyperoxia, while IL-8 and TGF beta showed marked increase in mRNA levels at 6 h of 100% oxygen exposure.
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PMID:Hyperoxia influences mRNA expression of cytokines in cultured human umbilical vein endothelial cells. 952 79

Two catalytic functions were required, minimally, for the appearance of DNA in evolution: a ribonucleotide reductase (RNR) and a reverse transcriptase (RT). If one accepts the explanatory strength of the RNA world model, it is clear that DNA molecules arose in the RNA world at some stage during the early evolution of cells. I suggest that competition for limited and valuable resources such as nucleotides, amino acids, and sugars made an early appearance among RNA cells, RNA viruses, viroids, and RNA plasmids. Structural and functional similarities between the different types of polymerases favor the simple hypothesis that the first RTs were RNA polymerase mutants that preferentially joined together preexisting deoxyribonucleotide triphosphates (dNTPs) using RNA templates. What was the role of dNTPs inside cells before DNA was synthesized and tested by natural selection? The oxygen atom that is removed by the reductase is of crucial importance to many ribozyme functions, since the 2'-OH is a strong nucleophile that forms transitional states during catalysis. Consequently, a RNR may have been used by cellular parasites to inhibit ribozyme action. Thus, DNA may have been, initially, an inert by-product of retrotranscription in lineages that acquired RTs and could synthesize DNA molecules using cellular RNA templates to detoxify the intracellular environment. DNA was useless as template until a transcriptase (DNA-dependent RNA polymerase) evolved that could copy (-)DNA to reconstitute the (+)RNA genome, indeed a successful way of confronting ribonuclease threats in the RNA world.
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PMID:Inhibition of ribozymes by deoxyribonucleotides and the origin of DNA. 969 60


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