Monoclonal Antibodies to the Latent Membrane Protein of Epstein-Barr Virus Reveal Heterogeneity of the Protein and Inducible Expression in Virus-transformed Cells
1 CRC Laboratories, Department of Cancer Studies, University of Birmingham, Medical School, Birmingham B15 2TJ, U.K. and 2 Kovler Viral Oncology Laboratories, University of Chicago, Illinois 60637, U.S.A. Monoclonal antibodies specific for the latent membrane protein (LMP) of Epstein-Barr virus (E...
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| Published in | Journal of general virology Vol. 68; no. 6; pp. 1575 - 1586 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Reading
Soc General Microbiol
01.06.1987
Society for General Microbiology |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-1317 1465-2099 |
| DOI | 10.1099/0022-1317-68-6-1575 |
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| Abstract | 1 CRC Laboratories, Department of Cancer Studies, University of Birmingham, Medical School, Birmingham B15 2TJ, U.K.
and 2 Kovler Viral Oncology Laboratories, University of Chicago, Illinois 60637, U.S.A.
Monoclonal antibodies specific for the latent membrane protein (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell transformation, have been generated from mice immunized with a -galactosidase fusion protein containing the carboxyl half of the B95.8 strain LMP sequence. Four monoclonal IgG 1 antibodies, designated CS.1, CS.2, CS.3 and CS.4, which together recognized at least three different epitopes on the molecule, were used to examine various aspects of LMP expression in B cell lines transformed in vitro . The pooled CS.1 to 4 reagent detected the LMPs encoded by each of 20 geographically distinct EBV isolates, despite a degree of inter-isolate heterogeneity in the size and antigenicity of the protein. In cell lines carrying the prototype B95.8 virus strain, particularly if these were virus producers, an additional lower molecular weight LMP was also detected; this appeared to correspond to the truncated form of the protein already predicted to exist from the analysis of B95.8 lytic cycle mRNAs. Attempts were made to identify an analogous truncated form of LMP in cell lines carrying other virus isolates after treatment with phorbol ester and/or sodium butyrate to induce virus production. Surprisingly these experiments showed that expression of the full length LMP molecule was itself strongly inducible by these agents; when monitored at the single cell level, this was a generalized response and was not restricted to cells entering a lytic cycle. Expression of LMP in EBV-transformed B cells therefore appears to be subject to a distinct type of regulation.
Keywords: EBV, latent membrane protein, MAbs
Received 27 October 1986;
accepted 5 March 1987. |
|---|---|
| AbstractList | 1 CRC Laboratories, Department of Cancer Studies, University of Birmingham, Medical School, Birmingham B15 2TJ, U.K.
and 2 Kovler Viral Oncology Laboratories, University of Chicago, Illinois 60637, U.S.A.
Monoclonal antibodies specific for the latent membrane protein (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell transformation, have been generated from mice immunized with a -galactosidase fusion protein containing the carboxyl half of the B95.8 strain LMP sequence. Four monoclonal IgG 1 antibodies, designated CS.1, CS.2, CS.3 and CS.4, which together recognized at least three different epitopes on the molecule, were used to examine various aspects of LMP expression in B cell lines transformed in vitro . The pooled CS.1 to 4 reagent detected the LMPs encoded by each of 20 geographically distinct EBV isolates, despite a degree of inter-isolate heterogeneity in the size and antigenicity of the protein. In cell lines carrying the prototype B95.8 virus strain, particularly if these were virus producers, an additional lower molecular weight LMP was also detected; this appeared to correspond to the truncated form of the protein already predicted to exist from the analysis of B95.8 lytic cycle mRNAs. Attempts were made to identify an analogous truncated form of LMP in cell lines carrying other virus isolates after treatment with phorbol ester and/or sodium butyrate to induce virus production. Surprisingly these experiments showed that expression of the full length LMP molecule was itself strongly inducible by these agents; when monitored at the single cell level, this was a generalized response and was not restricted to cells entering a lytic cycle. Expression of LMP in EBV-transformed B cells therefore appears to be subject to a distinct type of regulation.
Keywords: EBV, latent membrane protein, MAbs
Received 27 October 1986;
accepted 5 March 1987. Monoclonal antibodies specific for the "latent membrane protein" (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell transformation, have been generated from mice immunized with a beta -galactosidase fusion protein containing the carboxyl half of the B95.8 strain LMP sequence. The experiments showed that expression of the full length LMP molecule was itself strongly inducible by these agents; when monitored at the single cell level, this was a generalized response and was not restricted to cell entering a lytic cycle. Expression of LMP in EBV-transformed B cell therefore appears to be subject to a distinct type of regulation. Monoclonal antibodies specific for the 'latent membrane protein' (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell transformation, have been generated from mice immunized with a beta-galactosidase fusion protein containing the carboxyl half of the B95.8 strain LMP sequence. Four monoclonal IgG1 antibodies, designated CS.1, CS.2, CS.3 and CS.4, which together recognized at least three different epitopes on the molecule, were used to examine various aspects of LMP expression in B cell lines transformed in vitro. The pooled CS.1 to 4 reagent detected the LMPs encoded by each of 20 geographically distinct EBV isolates, despite a degree of inter-isolate heterogeneity in the size and antigenicity of the protein. In cell lines carrying the prototype B95.8 virus strain, particularly if these were virus producers, an additional lower molecular weight LMP was also detected; this appeared to correspond to the truncated form of the protein already predicted to exist from the analysis of B95.8 lytic cycle mRNAs. Attempts were made to identify an analogous truncated form of LMP in cell lines carrying other virus isolates after treatment with phorbol ester and/or sodium butyrate to induce virus production. Surprisingly these experiments showed that expression of the full length LMP molecule was itself strongly inducible by these agents; when monitored at the single cell level, this was a generalized response and was not restricted to cells entering a lytic cycle. Expression of LMP in EBV-transformed B cells therefore appears to be subject to a distinct type of regulation. Monoclonal antibodies specific for the 'latent membrane protein' (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell transformation, have been generated from mice immunized with a beta-galactosidase fusion protein containing the carboxyl half of the B95.8 strain LMP sequence. Four monoclonal IgG1 antibodies, designated CS.1, CS.2, CS.3 and CS.4, which together recognized at least three different epitopes on the molecule, were used to examine various aspects of LMP expression in B cell lines transformed in vitro. The pooled CS.1 to 4 reagent detected the LMPs encoded by each of 20 geographically distinct EBV isolates, despite a degree of inter-isolate heterogeneity in the size and antigenicity of the protein. In cell lines carrying the prototype B95.8 virus strain, particularly if these were virus producers, an additional lower molecular weight LMP was also detected; this appeared to correspond to the truncated form of the protein already predicted to exist from the analysis of B95.8 lytic cycle mRNAs. Attempts were made to identify an analogous truncated form of LMP in cell lines carrying other virus isolates after treatment with phorbol ester and/or sodium butyrate to induce virus production. Surprisingly these experiments showed that expression of the full length LMP molecule was itself strongly inducible by these agents; when monitored at the single cell level, this was a generalized response and was not restricted to cells entering a lytic cycle. Expression of LMP in EBV-transformed B cells therefore appears to be subject to a distinct type of regulation.Monoclonal antibodies specific for the 'latent membrane protein' (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell transformation, have been generated from mice immunized with a beta-galactosidase fusion protein containing the carboxyl half of the B95.8 strain LMP sequence. Four monoclonal IgG1 antibodies, designated CS.1, CS.2, CS.3 and CS.4, which together recognized at least three different epitopes on the molecule, were used to examine various aspects of LMP expression in B cell lines transformed in vitro. The pooled CS.1 to 4 reagent detected the LMPs encoded by each of 20 geographically distinct EBV isolates, despite a degree of inter-isolate heterogeneity in the size and antigenicity of the protein. In cell lines carrying the prototype B95.8 virus strain, particularly if these were virus producers, an additional lower molecular weight LMP was also detected; this appeared to correspond to the truncated form of the protein already predicted to exist from the analysis of B95.8 lytic cycle mRNAs. Attempts were made to identify an analogous truncated form of LMP in cell lines carrying other virus isolates after treatment with phorbol ester and/or sodium butyrate to induce virus production. Surprisingly these experiments showed that expression of the full length LMP molecule was itself strongly inducible by these agents; when monitored at the single cell level, this was a generalized response and was not restricted to cells entering a lytic cycle. Expression of LMP in EBV-transformed B cells therefore appears to be subject to a distinct type of regulation. |
| Author | Evans, Helen S Young, Lawrence S Rowe, Martin Rickinson, Alan B Kieff, Elliot Hennessy, Kevin |
| Author_xml | – sequence: 1 fullname: Rowe, Martin – sequence: 2 fullname: Evans, Helen S – sequence: 3 fullname: Young, Lawrence S – sequence: 4 fullname: Hennessy, Kevin – sequence: 5 fullname: Kieff, Elliot – sequence: 6 fullname: Rickinson, Alan B |
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| Keywords | Membrane protein Herpesviridae Transformed cell Epstein Barr virus Monoclonal antibody Cell transformation Latency Immunological method Virus Immunoblotting method Heterogeneity Immunofluorescence ELISA assay γ-Herpesvirinae |
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and 2 Kovler Viral Oncology Laboratories,... Monoclonal antibodies specific for the 'latent membrane protein' (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell... Monoclonal antibodies specific for the "latent membrane protein" (LMP) of Epstein-Barr virus (EBV), one of the effector proteins of EBV-induced B cell... |
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| SubjectTerms | Antibodies, Monoclonal - immunology Antigens, Viral - analysis Antigens, Viral - biosynthesis Antigens, Viral - immunology Biological and medical sciences Butyrates - pharmacology Butyric Acid Cell Line Cell Transformation, Viral Epitopes Epstein-Barr virus Fluorescent Antibody Technique Fundamental and applied biological sciences. Psychology Herpesvirus 4, Human - growth & development Herpesvirus 4, Human - immunology Herpesvirus 4, Human - metabolism Humans Immunologic Techniques Membrane Proteins - analysis Membrane Proteins - biosynthesis Membrane Proteins - immunology Microbiology Molecular Weight monoclonal antibodies proteins Recombinant Fusion Proteins - immunology Replicative cycle, interference, host-virus relations, pathogenicity, miscellaneous strains Tetradecanoylphorbol Acetate - pharmacology transformed cells Viral Matrix Proteins Viral Proteins - analysis Viral Proteins - biosynthesis Viral Proteins - immunology Virology |
| Title | Monoclonal Antibodies to the Latent Membrane Protein of Epstein-Barr Virus Reveal Heterogeneity of the Protein and Inducible Expression in Virus-transformed Cells |
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