UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The discovery of persistent transmissible agents by veterinarians has led to striking advances in the infectious cause of neuropathies of human beings. There is evidence for persisting infection in congenital rubella and the herpes group of viruses including cytomegalovirus infections. Hepatitis types A and B are candidates for inclusion in the category of persisting viral infections. The rubeola or measles virus is established as a persistent virus which causes elevated antibodies in the serum and cerebrospinal fluid of many patients with severe demyelinating disease such as subacute sclerosing panencephalitis and multiple sclerosis. Elevated antibodies against vaccinia virus have been found in the cerebrospinal fluid of some patients with multiple sclerosis and neuromyelitis optica, a rare form of multiple sclerosis.
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PMID:Persistent or slow viral infections and related diseases. 16 38

The 2,3-dihydroxy-6-bromo-pyrazino-[2,3-beta]-pyrazine is a substance selected during the antiviral screening of pyrazino-pyrazine derivatives. The compound shows antiviral activity in vitro against measles, NDV, some influenza viruses and against herpes simplex and zoster, infectious canine hepatitis and vaccinia viruses. It had no effect on ECHO 9 virus. Therapeutic trials showed activity also on herpetic keratoconjunctivitis experimentally induced in rabbits.
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PMID:Antiviral activity of a pyrazino-pyrazine derivative. 16 10

"Gigasept" is a highly efficient chemical disinfectant on the basis of succine dialdehyde and form aldehyde. The virucidal capacity was assayed in the suspension test procedure with different representative RNA and DNA viruses with and without an envelope, such as polio wild virus type I, coxsackie virus type B 3, adeno virus type 3, herpes virus type ) and vaccinia virus. Parameter for disinfectant activity was the virus inactivation kinetic, i. e. interdependence of titer reduction vs. disinfectant concentration and disinfectant contact time. A "minimal disinfection" was defined as a greater than or equal to 99.9% virus inactivation. A "disinfection per definitionem" must gain a titer reduction of greater than or equal to 10(3) ID 50 and absence of virus. According to these criteria all virus strains were inactivated by Gigasept regardless of absence or presence of serum, which was tested in a concentration of 40% calf serum. Disinfection per definitionem was achieved with Gigasept concentrations of 3% after 60 min. or 5% after 30 min. except for enteroviruses. This group of viruses has to be disinfected with a 10% solution for 4 hours or with a 5% solution overnight. Gigasept, on the basis of these results, can be classified as a highly effective virucidal disinfectant. As to the hepatitis virus group however, no data so far are available. An enterovirus - disinfection procedure is recommended in hepatitis risk areas, as long as test systems for hepatitis viruses are not developed.
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PMID:[Virucidal activity of the disinfectant "gigasept" against different enveloped and non-enveloped RNA-and DNA-viruses, pathogenic for men. I. Investigation in the suspension test (author's transl)]. 17 45

The resistance of a total of 13 different viruses to some important chemico-physical influences was studied under uniform experimental conditions. Stability in tape water, thermostability and sensitivity to anodic oxidation, gamma radiation, some virucidal substances and several commercial disinfectants were tested. In evaluating the results, an attempt is made to rank the viruses investigated according to their sensitivity. On average a bovine parvovirus, and also a reovirus and three enteroviruses, proved most stable. These were followed by infectious canine hepatitis (adenoviruses). Newcastle disease (paramyxoviruses) and vaccinia (poxviruses) demonstrating less resistance. In all the tests an orthomyxovirus (influenza A), a rhabdovirus (vesicular stomatitis), and particularly a herpesvirus (pseudorabies) and a togavirus (sindbis) proved to have relatively low resistance.
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PMID:[Variations in resistance of viruses from different groups to chemico-physical decontamination methods]. 51 42

In accordance with the system of viral species, viral disorders of the oral mucosa may be classified with regard to their intensity of affection. There are but few viral infections exclusively affecting the oral mucosa like e.g. 1. Glossitis papulosa of Michelson, representing a special form of vaccinia inoculata, 2. Gingivo-stomatitis herpetica and 3. warts of the mucosa or condyloma-like papillomas of the oral mucosa including oral papillomatosis, that, itself shows morphological and clinical similarities to laryngeal papilloma. A second group of disorders mainly affecting the oral mucosa includes the "Aphthoid of Pospischill and Feyrter", Zahorsky's herpangina and other viral infections by the Coxsackie group, like vesicular stomatitis. The 3rd group represents viral infections of other organs in which affection of the oral mucosa is a prerogative, e.g. smallpox, varicella, foot-and-mouth disease and pharyngo-conjunctival fever. A 4th group includes those viral infections of the organs in which co-affection of oral mucosa occurs frequently or once in a while (at occasions). Here, we find eczema vaccinatum, herpes zoster, herpes simplex of the oral mucosa mostly on the hard palate, eczema herpeticatum, post-herpetic Erythema exsudativum multiforme, Mononucleosis infectiosa Pfeiffer, viral flu, German measles, parotitis epidemica, rubeola and ECHO-exanthema. A 5th and last group is made up by viral infections of other organs, in which affection of the oral mucosa hardly occurs at all. This group contains paravaccinal Ecthyma contagiosum, poliomyelitis, viral infection of the city of Marburg and some Arbovirus infections. Relatively few viral disorders never co-exist with lesions on the oral mucosa like e.g. Virus-hepatitis or some viral encephalitides. Groups 1 and 2, most important of all, are presented in detail regarding clinics, diagnostics, differential-diagnosis and therapy. The disorders within the other 3 groups are discussed only regarding their importance in the field of ENT-related symptoms of the oral mucosa. A number of pictures and tables completes important clinical details and give further hints to their differential-diagnosis.
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PMID:[Virus diseases of the mouth mucosa]. 83 Jan 6

We have previously shown that cells infected with mouse hepatitis virus (MHV) bind rabbit, mouse, and rat IgG by the Fc portion of the IgG molecule. This Fc-binding activity appeared to be mediated by the MHV S protein. S protein could also be precipitated from MHV-infected cells by a monoclonal antibody directed against the murine Fc gamma receptor (Fc gamma R). To prove definitively that the S protein mediates Fc-binding activity, we have expressed the MHV S protein utilizing recombinant vaccinia viruses. The anti-Fc gamma R monoclonal antibody, 2.4G2, precipitated recombinant S protein in cells of murine, human, and rabbit origin. Since the anti-Fc receptor monoclonal antibody does not react with human and rabbit Fc receptors these results demonstrate that the epitope recognized by this antibody is carried on the MHV S protein and is not murine in origin. Examination of various MHV isolates and escape mutants failed to identify the precise sequences in S responsible for the molecular mimicry of the murine Fc gamma R. These data are consistent with the hypothesis that a previously identified region of similarity between the S protein and the Fc gamma R mediates this activity. The Fc binding activity of S was expressed on the cell surface, since MHV-JHM-infected cells, but not uninfected cells, formed rosettes with anti-sheep red blood cell (SRBC) antibody-coated SRBC. The anti-Fc gamma R monoclonal antibody neutralized MHV-JHM and inhibited syncytium formation induced by the MHV S protein.
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PMID:MHV S peplomer protein expressed by a recombinant vaccinia virus vector exhibits IgG Fc-receptor activity. 130 71

A cDNA encoding the spike (S) protein of the neurovirulent murine coronavirus JHMV variant cl-2 was isolated and sequenced. Analysis of the cDNA revealed that the S protein consists of 1376 amino acids, as does the S protein of mouse hepatitis virus 4. We inserted the cDNA into the genome of vaccinia virus to obtain a recombinant vaccinia virus (rVV). The S protein expressed in RK13 cells infected by the rVV was shown to be electrophoretically and immunologically indistinguishable from the S protein produced in DBT cells infected with cl-2 virus. RVV infection of rats and mice induced S protein-specific antibody production detectable by immunofluorescence and neutralization. Moreover, the S protein expressed by the rVV induced syncytium formation not only in mouse DBT and L cells, which are susceptible to cl-2 virus infection, but also in rabbit RK13 cells, which are not susceptible to cl-2 virus infection. This result suggests the possibility that RK13 cells have binding sites for the cl-2 virus S protein.
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PMID:Molecular cloning and expression of a spike protein of neurovirulent murine coronavirus JHMV variant cl-2. 131 38

Recently, we showed that a murine member of the carcinoembryonic antigen family of glycoproteins serves as a cellular receptor (MHVR) for the coronavirus mouse hepatitis virus A59 (MHV-A59) (G. S. Dveksler, M. N. Pensiero, C. B. Cardellichio, R. K. Williams, G.-S. Jiang, K. V. Holmes, and C. W. Dieffenbach, J. Virol. 65:6881-6891, 1991; R. K. Williams, G.-S. Jiang, and K. V. Holmes, Proc. Natl. Acad. Sci. USA 88:5533-5536, 1991). To examine the role of posttranscriptional modification of MHVR on virus-receptor interactions, a vaccinia virus-based expression system was employed. Expression from the vaccinia virus recombinant (Vac-MHVR) in BHK-21 cells resulted in high levels of MHVR glycoprotein on the cell surface and made these cells susceptible to MHV-A59 infection. Nonglycosylated core MHVR proteins were made in Vac-MHVR-infected BHK-21 cells in the presence of tunicamycin by in vitro translation of MHVR mRNA in a rabbit reticulocyte cell-free system in the absence of microsomal membranes and by expression of an N-terminal deletion clone of MHVR lacking its signal peptide. These three nonglycosylated MHVR proteins were recognized by polyclonal antibody against affinity-purified receptor but did not bind antireceptor monoclonal antibody (MAb) CC1 or MHV-A59 virions. Partial glycosylation of MHVR, either expressed in Vac-MHVR-infected cells treated with monensin or synthesized by in vitro translation with microsomal membranes, restored both the MAb CC1- and the virus-binding activities of the MHVR glycoprotein. Deletion of 26 amino acids at the carboxyl terminus of MHVR resulted in a secreted protein which was able to bind MAb CC1 and MHV-A59. These results suggest that either a carbohydrate moiety is an element of the MHVR-binding site(s) for virus and MAb CC1 or a posttranslational membrane-associated process is required for functional conformation of the receptor glycoprotein.
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PMID:Binding of the coronavirus mouse hepatitis virus A59 to its receptor expressed from a recombinant vaccinia virus depends on posttranslational processing of the receptor glycoprotein. 131 94

Complementary DNA clones corresponding to one of the putative structural regions of the hepatitis C virus (HCV) genome were obtained from sera of non-A non-B hepatitis patients. The putative envelope gene was expressed by using a recombinant vaccinia virus carrying this region of the HCV genome. In cells infected with the recombinant vaccinia virus, a glycosylated protein with an M(r) of about 35K (gp35) was specifically detected by convalescent sera from hepatitis C patients. The sera from rabbits immunized with this recombinant vaccinia virus reacted to the gp35 produced in insect cells and also to gp35 which was translated in vitro in the glycosylated and processed form. The gp35 was used to detect antibodies in sera of only 7 to 23% of HCV patients at various stages of HCV disease. These results suggest that the gp35 of HCV may not have high antigenicity in humans.
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PMID:Expression and characterization of glycoprotein gp35 of hepatitis C virus using recombinant vaccinia virus. 132 87

The lymphocyte proliferative response to mouse hepatitis virus, strain JHM (MHV-JHM), a well-described cause of chronic and acute neurological infections, has been studied using vaccinia virus recombinants expressing individual MHV proteins. The surface (S) and transmembrane (M) glycoproteins were the most active proteins in causing proliferation of lymphocytes isolated from immunized adult mice, whereas lymphocytes from persistently infected mice proliferated only in response to the S protein. The cells from immunized mice which proliferated most actively in response to MHV were positive for the CD4 antigen and secreted interferon-gamma. In addition, the most responsive subset of cells did not express gp90MEL-14, the lymph node-specific homing receptor. The results identify a subpopulation of CD4+ T cells that may be an important component of the cell-mediated immune response to this virus. The data also suggest that response to the M protein is important in preventing disease progression in C57BL/6 mice since cells which recognize this protein are absent from persistently infected mice.
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PMID:Immune response to a murine coronavirus: identification of a homing receptor-negative CD4+ T cell subset that responds to viral glycoproteins. 134 68

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