Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019158 (hepatitis)
 30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two hammerhead ribozymes targeted against the polymerase gene of mouse hepatitis virus (MHV), which consisted of 22-nucleotide (nt) ribozyme core sequences and antisense sequences of different lengths, 243-nt (S-ribozyme) and 926-nt (L-ribozyme), were tested for their++ inhibitory effects on viral multiplication. Vectors that expressed the ribozymes were transfected into mouse DBT cells and several resulting cell lines constitutively expressing the ribozymes were selected and examined for intracellular MHV multiplication in acute and chronic stages of infection. The production of infectious progeny viral particles was significantly reduced in the transfected cell lines expressing either the S-ribozyme or L-ribozyme in acute infection. Although the in vitro cleavage process of the L-ribozyme was slower than that of the S-ribozyme, no difference was observed in inhibitory effects on MHV multiplication between S- and L-ribozymes in the transfected cells. In the transfected cells expressing L-ribozymes, production of viral particles was also inhibited in the chronic stage of MHV infection.
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PMID:Inhibition of viral multiplication in acute and chronic stages of infection by ribozymes targeted against the polymerase gene of mouse hepatitis virus. 883 May 15

We established and characterized persistently-infected DBT cells with mouse hepatitis virus to study the molecular mechanisms of MHV persistence and evolution in vitro. Following infection, viral mRNA and RF RNA were coordinately reduced by about 70% as compared to acute infection suggesting that the reduction in mRNA synthesis was due to reduced levels of transcriptionally active full length and subgenomic length negative-stranded RNAs. Although the rates of mRNA synthesis were also reduced, the relative percent molar ratio of the mRNAs and RF RNAs were similar to those detected during acute infection. In contrast to the finding during BCV persistence, analysis of the MHV leader RNA indicated that the leader RNA and leader/body junction sequences were extremely stable. These data suggested that polymorphism and mutations resulting in intraleader ORFs was not required for MHV persistence. Conversely MHV persistence was significantly associated with a A to G mutation at nt 77 in the 5' end untranslated region (UTR) of the genomic RNA.
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PMID:Evolution and persistence mechanisms of mouse hepatitis virus. 883 May 48

OBLV60 is an acid-dependent syncytium-forming variant isolated from OBL21 cells persistently infected with the pH-independent mouse hepatitis virus (MHV)-4 strain. The fusion activity of OBLV60 can be strictly regulated by controlling pH and thus provides the means to definitively examine the entry of MHV into cells by endosomal and nonendosomal pathways. Shortly after high multiplicity infection, both MHV-4 and OBLV60 were detected by electron microscopy in endosomal vesicles and were recovered from lysates of cells treated with proteinase K to remove extracellular virus. For OBLV60, but not MHV-4, exposure to lysosomotropic compounds early in infection prevented viral penetration and significantly reduced viral yields. These results suggested that both MHV-4 and OBLV60 utilized the endosomal route of entry into cells, but that MHV-4 did not require acidification of endosomal vesicles. Studies on the entry of virus through fusion at the cell surface were performed by briefly exposing surface-bound OBLV60 to a fusion-permissive pH under conditions that prevent endocytic entry. Acid treatment of surface-bound OBLV60 caused a significant increase in the yields of virus produced in cultures of fusion-sensitive Sac- or DBT cells, demonstrating entry of virus by fusion at the cell surface. No measurable increase in virus production was detected with acid treatment of OBLV60 bound to OBL21 cells, suggesting that entry at the cell surface does not occur in these cells, which are resistant to MHV-induced syncytia formation. These results raise interesting questions concerning how mechanisms of MHV entry influence the selection of fusion variants.
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PMID:Entry of mouse hepatitis virus into cells by endosomal and nonendosomal pathways. 920 Dec 12

The 3C-like proteinase (3CLpro) of mouse hepatitis virus (MHV) is predicted to cleave at least 11 sites in the 803-kDa gene 1 polyprotein, resulting in maturation of proteinase, polymerase, and helicase proteins. However, most of these cleavage sites have not been experimentally confirmed and the proteins have not been identified in vitro or in virus-infected cells. We used specific antibodies to identify and characterize a 22-kDa protein (p1a-22) expressed from gene 1 in MHV A59-infected DBT cells. Processing of p1a-22 from the polyprotein began immediately after translation, but some processing continued for several hours. Amino-terminal sequencing of p1a-22 purified from MHV-infected cells showed that it was cleaved at a putative 3CLpro cleavage site, Gln_Ser4014 (where the underscore indicates the site of cleavage), that is located between the 3CLpro domain and the end of open reading frame (ORF) 1a. Subclones of this region of gene 1 were used to express polypeptides in vitro that contained one or more 3CLpro cleavage sites, and cleavage of these substrates by recombinant 3CLpro in vitro confirmed that amino-terminal cleavage of p1a-22 occurred at Gln_Ser4014. We demonstrated that the carboxy-terminal cleavage of the p1a-22 protein occurred at Gln_Asn4208, a sequence that had not been predicted as a site for cleavage by MHV 3CLpro. Our results demonstrate the usefulness of recombinant MHV 3CLpro in identifying and confirming cleavage sites within the gene 1 polyprotein. Based on our results, we predict that at least seven mature proteins are processed from the ORF 1a polyprotein by 3CLpro and suggest that additional noncanonical cleavage sites may be used by 3CLpro during processing of the gene 1 polyprotein.
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PMID:Mouse hepatitis virus 3C-like protease cleaves a 22-kilodalton protein from the open reading frame 1a polyprotein in virus-infected cells and in vitro. 949 85

Molecular mechanisms regulating virus xenotropism and cross-species transmission are poorly understood. Host range mutants (MHV-H2) of mouse hepatitis virus (MHV) strains were isolated from mixed cultures containing progressively increasing concentrations of nonpermissive Syrian baby hamster kidney (BHK) cells and decreasing concentrations of permissive murine astrocytoma (DBT) cells. MHV-H2 was polytrophic, replicating efficiently in normally nonpermissive BHK cells, Syrian and Chinese hamster (DDT-1 and CHO) cells, human adenocarcinoma (HRT), primate kidney (VERO) and in murine 17Cl-1 cell lines. Little if any virus replication was detected in feline kidney (CRFK), and porcine testicular (ST) cell lines. To study the effects of xenotrophic spread on virus receptor-interactions in the original host, murine DBT cells were pretreated with a monoclonal antibody (MAb) CC1, directed against the MHV receptor, MHVR, a biliary glycoprotein (Bgp1a). Under treatment conditions that completely ablated the replication of the parental MHV strains, CC1 antireceptor antibodies did not block MHV-H2 replication. Following expression of MHVR in normally nonpermissive ST and CRFK cells, infection with the parental MHV strains, but not MHV-H2 was observed. To characterize the molecular basis preventing the interaction between MHV-H2 and MHVR, revertants of MHV-H2 (MHV-H2R6, MHV-H2R11) were isolated following a persistent MHV-H2 infection in DBT cells. These revertant viruses efficiently recognized MHVR, however infection of murine cells was resistant to MAb CC1 blockade. In addition, MHV-H2 and the revertant viruses efficiently recognized other Bgp receptors for docking and entry. These data suggest that interspecies transfer may remodel normal virus-receptor interactions that may result in altered virulence, tropism or pathogenesis in the original host.
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PMID:Virus-receptor interactions and interspecies transfer of a mouse hepatitis virus. 978 62

A variant Mouse Hepatitis virus (MHV), designated MHV-H2, was isolated by serial passage in mixed cultures of permissive DBT cells and nonpermissive Syrian Hamster Kidney (BHK) cells. MHV-H2 replicated efficiently in hamster, mouse, primate kidney (Vero, Cos 1, Cos 7), and human adenocarcinoma (HRT) cell lines but failed to replicate in porcine testicular (ST), feline kidney (CRFK), and canine kidney (MDCK) cells. To understand the molecular basis for coronavirus cross-species transfer into human cell lines, the replication of MHV-H2 was studied in hepatocellular carcinoma (HepG2) cells which expressed high levels of the human homologue of the normal murine receptor, biliary glycoprotein (Bgp). MHV-H2 replicated efficiently in human HepG2 cells, at low levels in breast carcinoma (MCF7) cells, and poorly, if at all, in human colon adenocarcinoma (LS 174T) cell lines which expressed high levels of carcinoembryonic antigen (CEA). These data suggested that MHV-H2 may utilize the human Bgp homologue as a receptor for entry into HepG2 cells. To further study MHV-H2 receptor utilization in human cell lines, blockade experiments were performed with a panel of different monoclonal or polyclonal antiserum directed against the human CEA genes. Pretreatment of HepG2 cells with a polyclonal antiserum directed against all CEA family members, or with a monoclonal antibody, Kat4c (cd66abde), directed against Bgp1, CGM6, CGM1a, NCA and CEA, significantly reduced virus replication and the capacity of MHV-H2 to infect HepG2 cells. Using another panel of monoclonals with more restricted cross reactivities among the human CEA's, Col-4 and Col-14, but not B6.2 B1.13, Col-1, Col-6 and Col-12 blocked MHV-H2 infection in HepG2 cells. These antibodies did not block sindbis virus (SB) replication in HepG2 cells, or block SB, MHV-A59 or MHV-H2 replication in DBT cells. Monoclonal antibodies Col-4, Col-14, and Kat4c (cd66abde) all reacted strongly with human Bgp and CEA, but displayed variable binding patterns with other CEA genes. Following expression of human Bgp in normally nonpermissive porcine testicular (ST) and feline kidney (CRFK) cells, the cells became susceptible to MHV-H2 infection. These data suggested that phylogenetic homologues of virus receptors represent natural conduits for virus xenotropism and cross-species transfer.
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PMID:Human biliary glycoproteins function as receptors for interspecies transfer of mouse hepatitis virus. 978 63

Phosphorothioate oligonucleotides (PS-oligo) and PS-oligos with cholesterol conjugates (ChPS-oligo) complementary to the leader RNA of strain JHM of mouse hepatitis virus (JHMV) were more effective inhibitors of viral multiplication than natural oligodeoxynucleotides (PO-oligo) in JHMV-infected DBT cells. PS- and ChPS-oligos were 1,000 times more potent than unmodified PO-oligo. No significant difference was observed in the inhibitory efficiency between PS-oligo and ChPS-oligo. Sequence-dependent inhibition of viral multiplication was shown at low concentrations (0.001-0.1 M) of antisense PS-oligo and ChPS-oligo. Phosphorothioate oligodeoxycytidine, PS-(dC)20, and PS-(dC)20 with cholesterol conjugates, and PS- and ChPS-oligo which have no significant homology to the JHMV sequences, showed inhibitory effects on JHMV multiplication at concentrations higher than 0.5 M. These results showed that PS-oligo and ChPS-oligo were more potent than PO-oligo in the inhibition of JHMV multiplication, and that PS-oligo and ChPS-oligo may inhibit JHMV multiplication by two different mechanisms, that is by sequence-dependent and sequence-independent manners.
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PMID:Inhibitory effects of modified oligonucleotides complementary to the leader RNA on the multiplication of mouse hepatitis virus. 978 47

Cell lines and viruses were isolated from mouse hepatitis virus (MHV-A59) persistently-infected DBT cells at different times postinfection. Cloned cell lines had cured virus infection, displayed low levels of MHVR receptor expression and were progressively more resistance to MHV infection. MHV persistence was likely maintained by epigenetic expression of the MHVR receptor in subsets of these resistant cells and by the emergence of persistent viruses characterized by high affinity MHVR receptor usage. Persistent viruses also displayed higher affinity for alternative biliary glycoprotein receptors suggesting that receptor homologue scanning functioned in the maintenance of persistence. Importantly, persistent viruses isolated after 210 days postinfection efficiently replicated in human HepG2 cells, a hepatocarcinoma cell line, suggesting that persistence promotes the interspecies transfer of MHV.
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PMID:Receptor homologue scanning functions in the maintenance of MHV-A59 persistence in vitro. 978 53

Persistent infection with mouse hepatitis virus (MHV) strain A59 in murine DBT (delayed brain tumor) cells resulted in the emergence of host range variants, designated V51A and V51B, at 210 days postinfection. These host range mutants replicated efficiently in normally nonpermissive Chinese hamster ovary (CHO), in human hepatocarcinoma (HepG2), and to a lesser extent in human breast carcinoma (MCF7) cell lines. Little if any replication was noted in baby hamster kidney (BHK), green African monkey kidney (COS-7), feline kidney (CRFK), and swine testicular (ST) cell lines. By fluorescent antibody (FA) staining, persistent viruses V10B and V30B, isolated at days 38 and 119 days postinfection, also demonstrated very low levels of replication in human HepG2 cells. These data suggest that persistence may rapidly select for host range expansion of animal viruses. Pretreatment of HepG2 cells with a polyclonal antibody directed against human carcinoembryonic antigens (CEA) or with some monoclonal antibodies (Col-1, Col-4, Col-12, and Col-14) that bind human CEA significantly inhibited V51B infection. Under identical conditions, little or no blockade was evident with other monoclonal antibodies (kat4c or Col-6) which also bind the human CEA glycoproteins. In addition, an antibody (EDDA) directed against irrelevant antigens did not block V51B replication. Pretreatment with the Col-4 and Col-14 antibodies did not block Sindbis virus replication in HepG2 cells or MHV infection in DBT cells, suggesting that one or more CEA glycoproteins likely functioned as receptors for V51B entry into human cell lines. To test this hypothesis, the human biliary glycoprotein (Bgp) and CEA genes were cloned and expressed in normally nonpermissive BHK cell lines by using noncytopathic Sindbis virus replicons (pSinRep19). By growth curves and FA staining, human CEA and to a much lesser extent human Bgp functioned as receptors for V51B entry. Furthermore, V51B replication was blocked with polyclonal antiserum directed against human CEA and Bgp. Under identical conditions, the parental MHV strain A59 failed to replicate in BHK cells expressing human Bgp or CEA. These data suggest that MHV persistence may promote virus cross-species transmissibility by selecting for virus variants that recognize phylogenetic homologues of the normal receptor.
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PMID:Persistent infection promotes cross-species transmissibility of mouse hepatitis virus. 984 69

We demonstrated that infection of 17Cl-1 cells with the murine coronavirus mouse hepatitis virus (MHV) induced caspase-dependent apoptosis. MHV-infected DBT cells did not show apoptotic changes, indicating that apoptosis was not a universal mechanism of cell death in MHV-infected cells. Expression of MHV structural proteins by recombinant vaccinia viruses showed that expression of MHV E protein induced apoptosis in DBT cells, whereas expression of other MHV structural proteins, including S protein, M protein, N protein, and hemagglutinin-esterase protein, failed to induce apoptosis. MHV E protein-mediated apoptosis was suppressed by a high level of Bcl-2 oncogene expression. Our data showed that MHV E protein is a multifunctional protein; in addition to its known function in coronavirus envelope formation, it also induces apoptosis.
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PMID:Induction of apoptosis in murine coronavirus-infected cultured cells and demonstration of E protein as an apoptosis inducer. 1043 79


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