W E Rawls scite author profile

Monoclonal antibodies secreted by six hybridomas and recognizing antigenic sites on glycoproteins gC, gAB, gD, gE, and gF of herpes simplex virus type 2 were examined for their ability to protect BALB/c mice from lethal infection by the virus. Administration of monoclonal antibodies to individual glycoproteins intraperitoneally 3 h before footpad challenge with 10 times the 50% lethal dose of virus protected between 35 and 75% of the mice, except for one of two monoclonal antibodies recognizing antigens on gC. The antibodies did not neutralize virus in vitro and protected A/J mice deficient in the fifth component of complement as efficiently as complement-sufficient BALB/c mice. A good correlation was found between protection and titers of monoclonal antibodies assessed by antibody-dependent cell-mediated cytolysis. The results indicate that any of the glycoproteins can serve as antigens for a protective immune response. In addition, the data are compatible with protection being mediated by an antibodydependent cell-mediated cytolysis mechanism.

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Antigenic Differences between Isolates of Herpesvirus Type 2

Seth¹,

Rawls²,

Duff³

et al. 1974

Intervirology

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Isolates of herpesvirus type 2 from different geographic areas were examined for antigenic differences using the kinetics of neutralization and 51Cr release tests. Though differences in the kinetics of neutralization between strains were observed, the 51Cr release test appeared to provide better discrimination of strains. The results of 51Cr release assays using adsorbed sera suggest that 2 subsets of type 2 strains may exist which were tentatively called α and β. Members of subset α appear to have an antigen exposed on the surface of infected cells which is qualitatively or quantitatively expressed to a lesser degree on cells infected with subset β viruses. In the limited number of strains tested, hamster cells transformed by subset α viruses were oncogenic when injected into hamsters while cells transformed by subset β viruses were not.

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Antibody responses in humans to individual proteins of herpes simplex viruses

Gilman¹,

Docherty²,

Rawls³

1981

Infect Immun

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Sera from 231 women were used to examine their frequency of precipitation of various herpes simplex virus type 1 and 2 (HSV-1 and HSV-2) proteins and to determine if there was a rank order of immune responsiveness of humans to these HSV antigens. Radiolabeled viral proteins were reacted with serum and immune complexes isolated with staphylococcal protein A. Individual antigens were resolved by polyacrylamide gel electrophoresis and visualized by fluorography. As a group, these sera precipitated 31 HSV-1 and 27 HSV-2 proteins. HSV-1 polypeptides with molecular weights of 133,000, 99,000, and 82,000, as well as HSV-2 polypeptides with molecular weights of 131,000 and 101,000, were precipitated by essentially all sera that contained antibodies to HSV-1 and HSV-2. 880 on July 31, 2020 by guest http://iai.asm.org/ Downloaded from on July 31, 2020 by guest

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Reactivity between Herpesvirus Type 2-Related Soluble Cervical Tumor Cell Membrane Antigens and Matched Cancer and Control Sera

Hollinshead¹,

Lee²,

McKELWAY³

et al. 1972

Experimental Biology and Medicine

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Reversion of mutations in the thymidine kinase gene in herpes simplex viruses resistant to phosphonoacetate

Campione-Piccardo¹,

Rawls²

1984

Can. J. Microbiol.

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Mutations in the DNA polymerase locus of phage, bacteria, and eukaryotic may change the mutation rates at other loci of the genome. We used resistance to phosphonoacetate to select mutants of herpes simplex virus with mutated DNA polymerase and then determined the reversion frequency of viral thymidine kinase mutation in mutants and recombinants. The results obtained indicate that mutations causing resistance to phosphonoacetate do not affect the mutation rate of the viral genes. This finding is consistent with the existence of two functional regions in the DNA polymerase molecule, one involving the pyrophosphate acceptor site and responsible for resistance to phosphonoacetate and another involved in the editing ability and recognition specificity of the enzyme.

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W E Rawls

Protection against lethal challenge of BALB/c mice by passive transfer of monoclonal antibodies to five glycoproteins of herpes simplex virus type 2

Antigenic Differences between Isolates of Herpesvirus Type 2

Antibody responses in humans to individual proteins of herpes simplex viruses

Reactivity between Herpesvirus Type 2-Related Soluble Cervical Tumor Cell Membrane Antigens and Matched Cancer and Control Sera

Reversion of mutations in the thymidine kinase gene in herpes simplex viruses resistant to phosphonoacetate

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