The Relationship Between Adenosine 3′:5′-Cyclic Monophosphate (cAMP) and Interferon Activity in Mouse Cells

References

1. Allen L. B., Eagle N. C., Huffman J. H., Shuman J. A., Meyer R. B., Sidwell R. W. 1974; Enhancement of interferon and antiviral action in L cells by cyclic nucleotides. Proceedings of the Society for Experimental Biology and Medicine 146:580–584
   [Google Scholar]
2. Baron S., Buckler C. E., Dianzani F. 1968; Some determinants of the interferon-induced antiviral state. In Interferon pp 186–203 Edited by Wolstenholme G. E. W., O’Connor M. London: J. and A. Churchill;
   [Google Scholar]
3. Biron K., Raska K. 1973; Effects of dibutyryl cAMP on adenovirus replication in different cell lines. Virology 56:383–385
   [Google Scholar]
4. Brown B. L., Ekins R. P., Albano J. D. M. 1972; Saturation assay for cyclic AMP using endogenous binding protein. Advances in Cyclic Nucleotide Research 2:25–40
   [Google Scholar]
5. Friedman R. M. 1977; Antiviral activities of interferons. Bacteriology Reviews 41:543–567
   [Google Scholar]
6. Friedman R., Pastan I. 1969; Interferon and cyclic-3′5′-adenosine monophosphate: potentiation of antiviral activity. Biochemical and Biophysical Research Communications 36:735–740
   [Google Scholar]
7. Kost T. A., Hayes E. C. 1974; Cyclic AMP enhancement of the antiviral activity afforded mouse LM-cells by interferon. Abstracts of the Annual Meeting of the American Society for Microbiology V 250:
   [Google Scholar]
8. Lowry O. H., Rosebrough N. J., Farr A. L., Randall R. J. 1951; Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 193:265–275
   [Google Scholar]
9. Mécs I., Kasler M., Lozsa A., Kovacs G. 1974; Metabolic effects of interferon preparations and some interferon inducers: activation of adenylate cyclase system. Acta Microbiologica Academiae scientarium hungaricae 24:265–268
   [Google Scholar]
10. Meldolesi M. F., Friedman R. M., Kohn L. D. 1977; An interferon-induced increase in cyclic AMP levels precedes the establishment of the antiviral state. Biochemical and Biophysical Research Communications 79:239–246
    [Google Scholar]
11. O’shaughnessy M. V., Lee S. H. S., Rozee K. R. 1972; Interferon inhibition of DNA synthesis and cell division. Canadian Journal of Microbiology 18:145–151
    [Google Scholar]
12. Robbins S. J., Rapp F. 1979; Inhibition of measles virus replication by cyclic-AMP. Abstracts of the Annual Meeting of the American Society for Microbiology Si 30:
    [Google Scholar]
13. Soltysiak R. M., Maassab H. F. 1977; The effect of cyclic nucleotides on virus infection. Annals of the New York Academy of Sciences 284:375–388
    [Google Scholar]
14. Stanwick T. L., Anderson R. W., Nahmias A. J. 1978; Interaction of cyclic nucleotides, Herpes simplex virus and interferon. Abstracts of the Annual Meeting of the American Society for Microbiology V382:
    [Google Scholar]
15. Stanwick T. L., Nahmias A. J. 1979; Effect of cyclic nucleotides on the yields of Herpes simplex virus and cytomegalovirus in human fibroblast cultures. Abstracts of the Annual Meeting of the American Society for Microbiology S306:
    [Google Scholar]
16. Tovey M. G., Rochette-Egly C., Castagna M. 1979; Effect of interferon on concentrations of cyclic nucleotides in cultured cells. Proceedings of the National Academy of Sciences of the United States of America 76:3890–3893
    [Google Scholar]
17. Weber J. M., Stewart R. B. 1973; Interaction of interferon with cells: limited heterologous reactivity of chick and mouse interferon. Journal of General Virology 19:165–174
    [Google Scholar]
18. Weber J. M., Stewart R. B. 1975; Cyclic AMP potentiation of interferon antiviral activity and effect of interferon on cellular cyclic AMP levels. Journal of General Virology 28:363–372
    [Google Scholar]