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)

Human retroviruses, or RNA viruses, including the 2 HIV agents associated with AIDS, and the 2 HTLV agents causing leukemia, are described from the viewpoint of history, detection, serology, transformation mechanism, disease pathophysiology, genetic function, associated disease, and related viruses. Both HTLV and HIV infect the human T-lymphocytes, also known as CD4 or helper cells. Both can now be grown in culture, and their genomes are well characterized. HTLV, an acronym for human T-lymphotropic leukemia virus, causes the fulminating adult T-cell leukemia-lymphoma (ATLL), 1st described in 1977. It is prevalent in population clusters, notably in the Caribbean and in southwestern Japan, and is spread by sexual, blood and perinatal routes, as is HIV. It is thought to promote transformation of target cells by release of growth promoting, soluble factor, perhaps a product of the viral "tat" gene. Besides leukemia, HTLV-1 causes a myelopathy sometimes called tropical spastic paraparesis. HIV, formerly known as HTLV-III, causes depletion of the T-cells, and also infects the brain and nervous system. IT has also been isolated from semen, cervical secretions, saliva, monocytes, milk, endothelial cells, tears and cornea. HIV has 5 more genes than HTLV, which regulate transcription, mRNA processing and virus maturation. Parts of the HIV genome are highly heterogeneous, and mutate rapidly, notable sections of the envelope protein. Thus, HIV has 2 main subtypes, but others are known and probably exist. Approaches toward developing AIDS therapeutic agents as of 1987 are outlined: an effective drug should cross the blood-brain barrier. Several anti-viral drugs that block the enzyme reverse transcriptase area being investigated. Possible mechanisms for growth of Kaposi's sarcoma, activation of herpes type viruses, and animal viruses related to HTLV and HIV are discussed.
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PMID:Retroviruses: new viral infections in man. 289 67

The human T-lymphotropic retrovirus type III (HTLV-III), the etiological agent of AIDS, has recently been detected in tears, cornea, and conjunctiva, raising the possibility of transmission of HTLV-III via contact lens trial sets used in routine fitting. We evaluated the ability of several contact lens cleaning solutions, with or without conditioning or disinfecting solutions, to disinfect contact lenses experimentally contaminated with HTLV-III. Following attempted disinfection, the lenses were cultured for residual HTLV-III on Hg cells for 28 days. Cultures without characteristic cytopathic effects, reverse transcriptase activity, and HTLV-III-specific antigen expression were considered negative. We found that all commercially available cleaning solutions tested were able to disinfect contact lenses exposed to HTLV-III.
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PMID:Safe disinfection of contact lenses after contamination with HTLV-III. 301 32

Four corneas from two cadavers that later had positive test results on enzyme-linked immunosorbent assays and Western blot analysis for antibodies against the human immunodeficiency virus were inadvertently transplanted to recipients who were without known risk of human immunodeficiency virus infection. We performed serial studies of serologic markers of human immunodeficiency virus infection in the cornea recipients and assayed reverse transcriptase levels of their mixed lymphocyte cultures. The four cornea transplant recipients were followed up for 130, 152, 397, and 440 days, respectively, and the results on all serologic tests and reverse transcriptase assays remain negative.
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PMID:Serologic markers after the transplantation of corneas from donors infected with human immunodeficiency virus. 329 63

The genes for the alpha 1(IX), alpha 1(II), and alpha 2(I) collagen chains can give rise to different isoforms of mRNA, generated by alternative promotor usage [for alpha 1(IX) and alpha 2(I)] or alternative splicing [for alpha 1(II)]. In this study, we employed competitive reverse transcriptase PCR to quantitate the amounts of transcriptional isoforms for these genes in the embryonic avian cornea from its inception (about 3 1/2 days of development) to 11 days. In order to compare values at different time points, the results were normalized to those obtained for the "housekeeping" enzyme, glycerol-3-phosphate dehydrogenase (G3PDH). These values were compared to those obtained from other tissues (anterior optic cup and cartilage) that synthesize different combinations of the collagen isoforms. We found that, in the cornea, transcripts from the upstream promotor of alpha 1(IX) collagen (termed "long IX") were predominant at stage 18-20 (about 3 1/2 days), but then fell rapidly, and remained at a low level. By 5 days (just before stromal swelling) the major mRNA isoform of alpha 1(IX) was from the downstream promoter (termed "short IX"). The relative amount of transcript for the short form of type IX collagen rose to a peak at about 6 days of development, and then declined. Throughout this period, the predominant transcriptional isoform of the collagen type II gene was IIA (i.e., containing the alternatively spliced exon 2). This indicates that the molecules of type II collagen that are assembled into heterotypic fibrils with type I collagen possess, at least transiently, an amino-terminal globular domain similar to that found in collagen types I, III, and V. For type I, the "bone/tendon" mRNA isoform of the alpha 2(I) collagen gene was predominant; transcripts from the downstream promotor were at basal levels. In other tissues expressing collagen types IX and II, long IX was expressed predominantly with the IIA form in the anterior optic cup at stage 22/23; in 14 1/2 day cartilage, long IX was expressed predominantly along with the IIB form of alpha 1(II). The downstream transcript of the alpha 2(I) gene (Icart) was found at high levels only in cartilage.
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PMID:Analysis of transcriptional isoforms of collagen types IX, II, and I in the developing avian cornea by competitive polymerase chain reaction. 770 20

Neutrophils and Langerhans cells participate in inflammatory reactions within the human cornea. Because granulocyte-macrophage (GM)-CSF is a chemotactic and activating factor for these two cell types, we investigated whether this cytokine is produced by human corneal epithelial cells and corneal fibroblasts. Cultures of each cell type were exposed to increasing concentrations of IL-1 alpha or TNF-alpha. Culture supernatants were assayed for GM-CSF by using ELISA and cytokine mRNA levels were monitored by using reverse transcriptase-PCR. IL-1 alpha treatment of both cell types resulted in the appearance of GM-CSF mRNA and the production of > 480 pg protein/10(6) cells. However, TNF-alpha treatment yielded divergent results. Stimulation of epithelial cells with TNF-alpha resulted in the appearance of > 560 GM-CSF mRNA molecules per cell and production of > 1300 pg GM-CSF/10(6) cells. In contrast, stimulation of corneal fibroblasts resulted in < 16 GM-CSF mRNA molecules/cell and < 60 pg GM-CSF/10(6) cells. Binding studies with 125I-labeled TNF-alpha revealed that corneal fibroblasts had as many receptor sites as did corneal epithelial cells. Furthermore, corneal fibroblasts could respond to TNF-alpha-receptor-mediated signal transduction because they produced nanogram amounts of IL-6 after being treated with this cytokine. The results suggest that both cell types synthesize GM-CSF in response to IL-1 alpha, but that only corneal epithelial cells produce significant amounts of GM-CSF after TNF-alpha exposure. Differences in the responses of the two cell types to TNF-alpha may reflect a means of limiting accumulation of neutrophils and Langerhans cells and, thus, minimize corneal damage.
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PMID:Differential regulation of granulocyte-macrophage colony-stimulating factor gene expression in human corneal cells by pro-inflammatory cytokines. 820 39

One of the defining characteristics of herpes simplex virus type 1 (HSV-1) infection is the ability of the virus to establish a lifelong latent state in neurons. We previously demonstrated (R. Ramakrishnan, A.J. Fink, G. Jiang, P. Desai, J. C. Glorioso, and M. Levine, J. Virol. 68:1864-1873, 1994) by in situ PCR that many more neurons contain viral genomes than are detected by in situ hybridization for HSV latency-associated transcripts (LATs). To determine whether all cells which contain genomes express LATs, we examined trigeminal ganglia for LATs 1 and 8 weeks after corneal scarification with ribonucleotide reductase-deficient HSV-1 by in situ reverse transcriptase PCR. The number of LAT-positive cells detected by in situ reverse transcriptase was substantially greater than the number of cells positive by in situ hybridization and appeared to be similar to the number of cells containing HSV genomes by in situ PCR and the number of ganglionic neurons that project to the cornea as detected by retrograde labeling with Fluorogold. These results demonstrate LAT expression in many neurons containing HSV-1 genomes.
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PMID:Detection of herpes simplex virus type 1 latency-associated transcript expression in trigeminal ganglia by in situ reverse transcriptase PCR. 870 93

Allograft rejection is the main cause of corneal graft failure. T lymphocytes and macrophages have been implied to be involved in corneal rejection, but little is known about the molecular mechanism in this process. In this study, cytokine mRNA expression in the cornea was analysed during experimental corneal transplantation. The donor and acceptor corneas of two groups of rats were studied after receiving an allo- (PVG to AO rat) or autograft (AO rat). For controls, central buttons and peripheral corneal rings of the non-transplanted contralateral eyes were used. At different post-operative days (1, 3, 7, 12 and 19), the corneas were removed and subjected to mRNA isolation. All corneal samples underwent semi-quantitative reverse transcriptase-polymerase chain reaction analysis for interleukin-1 beta, interleukin-1, receptor antagonist, interleukin-2, interleukin-4, interleukin-6, interleukin-10, tumor necrosis factor-alpha, interferon-gamma, monocyte chemotactic protein-1 and macrophage inflammatory protein-2 mRNA expression. Corneal rejection, characterized by opaque corneas with prominent neovascularization, was always diagnosed around day 12. Contralateral, non-grafted corneas showed constitutive mRNA expression for interleukin-1 receptor antagonist and in a few samples also monocyte chemotactic protein-1 and macrophage inflammatory protein-2 mRNA was found. Both allo- and autografts expressed mRNA for the cytokines found in contralateral, non-grafted tissue, as well as for interleukin-1 beta, interleukin-6, interleukin-10 and tumor necrosis factor-alpha. In allografts, the mRNA levels for these cytokines remained constant throughout all post-operative days, with increased interleukin-6 mRNA expression after post-operative day 12. The analysis of the autografts revealed high cytokine mRNA levels until post-operative day 3 or 7, which decreased from then on, except for interleukin-1 receptor antagonist. mRNA for interleukin-2, interleukin-4 and interferon-gamma was not observed in autografts at any time point and in allografts, until post-operative day 12. Interleukin-2 and interferon-gamma mRNA showed maximal expression on POD 12, while in autografts, a marked decrease was observed after POD 3. IL-10 mRNA levels decreased immediately after POD 1 in autografted eyes. For TNF-alpha, an increased mRNA expression starting on POD 7 was found in recipient rings of allografted eyes, while in autografts a weak expression was seen in some samples. MIP-2 transcription increased on PAD 12, while in autografts, its expression was not markedly different from that detected in the contralateral, non-grafted peripheral cornea.
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PMID:Cytokine mRNA expression during experimental corneal allograft rejection. 894 52

1. Angiotensin II (AngII) is generated locally in several tissues, including ocular tissues. Recently, it has been suggested that in addition to angiotensin-converting enzyme (ACE), an alternative AngII-generating enzyme, chymase, is present in the present in the cardiovascular tissues of humans, monkeys and dogs and may be involved in the local production of AngII. The purpose of the present study was to determine whether chymase contributes to AngII generation in dog and monkey ocular tissues and to clarify the intraocular AngII-generating system. 2. Chymase-like and ACE activities were measured in dog and monkey ocular tissues, carotid artery, heart and lung. Their mRNA levels were quantified using the competitive reverse transcriptase-polymerase chain reaction (RT-PCR) method. 3. Chymase-like activity was detected in the anterior uveal tract, choroid and sclera in dog eyes, but not in the cornea, lens or fluid phase (vitreous body and aqueous humor). In monkey eyes, chymase-like activity was detected in the anterior uveal tract and it was higher here than in the heart. Angiotensin-converting enzyme activity was detected in the anterior uveal tract, choroid, retina, sclera and fluid phase in both dog and monkey eyes. Chymase and ACE mRNA were detected in tissues showing enzymatic activity. 4. These findings show for the first time that chymase, in addition to ACE, is expressed locally in dog and monkey ocular tissues and may be involved in local AngII generation in the eye.
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PMID:Angiotensin II-generating system in dog and monkey ocular tissues. 913 Dec 92

The tissue and cellular expression pattern of a recently cloned murine calcium-sensitive chloride channel (mCaCC) was determined. In situ hybridization was performed on formalin-fixed, paraffin-embedded murine tissues using digoxigenin-labeled, single-stranded RNA probes. The data were substantiated with northern blot and reverse transcriptase-polymerase chain reaction analyses. All three assays consistently indicated strong expression in tissues with secretory or ion regulatory functions, such as mammary gland, respiratory and intestinal epithelia, gall bladder, pancreas, kidney, uterus, and epididymis. Additional mCaCC expression was observed in germinal centers of lymphatic tissues, in spermatids, and in keratinocytes of the skin, esophagus, and cornea. The results are in accordance with previous electrophysiological reports on calcium-activated chloride conductances in various murine exocrine secretory epithelia and suggest a role of mCaCC in transepithelial ion transport. However, expression in other than secretory tissues indicates a more complex function.
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PMID:The murine calcium-sensitive chloride channel (mCaCC) is widely expressed in secretory epithelia and in other select tissues. 968 88

The avascular cornea has limited access to plasma proteins, including plasminogen, a protein that is synthesized by the liver and supplied to most tissues via the blood. Recent experiments by others using plasminogen-deficient mice revealed the importance of plasmin, the active form of plasminogen, for the maintenance of the normal cornea and for corneal wound healing [Kao, Kao, Bugge, Kaufman, Kombrinck, Converse, Good and Degan (1998) Invest. Ophthalmol. Vis. Sci. 39, 502-508; Drew, Kaufman, Kombrinck, Danton, Daugherty, Degen and Bugge (1998) Blood 91, 1616-1624]. In the present experiments, plasmin was identified as a major serine proteinase in the human cornea. The major plasminogen and plasmin forms on non-reducing zymograms and Western blots had Mr values of 76x10(3) and 85x10(3), with minor forms of Mr 200x10(3), 135x10(3), 68x10(3) and 45x10(3). Angiostatin-like peptides with Mrs of 48x10(3), 45x10(3) and 38x10(3) were observed which bound to lysine-Sepharose and reacted with anti-plasminogen monoclonal antibodies directed towards kringle domains 1-3 of plasminogen. The cornea contained 1.1+/-0.15 microgram of plasminogen+plasmin/cornea, or 0.54+/-0.05 microgram of plasminogen+plasmin/mg of protein. Cornea conditioned medium contained nine times the amount of plasminogen+plasmin that could be extracted from the cornea. These data suggested that corneal cells, unlike most extrahepatic cells, synthesize plasminogen. The synthesis of plasminogen by the cornea was confirmed by immunoprecipitation of metabolically labelled plasminogen, sequencing of its cDNA obtained by reverse transcriptase-PCR and inhibition of protein synthesis. Interleukins-1alpha and -1beta stimulated corneal plasminogen synthesis 2-3-fold; however, interleukin-6 decreased corneal plasminogen synthesis by approx. 40% at early times after addition of the cytokine. By 24 h of culture, no differences were noted in the presence and absence of interleukin-6. Thus the cornea can synthesize plasminogen and regulate its synthesis in response to its environment, including cytokines induced in the cornea by injury and inflammation. Therefore the cornea can control the amount of plasminogen, the precursor of both plasmin and angiostatin.
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PMID:Extrahepatic synthesis of plasminogen in the human cornea is up-regulated by interleukins-1alpha and -1beta. 1021 10


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