Your search keyword '"Guptill, Douglas R."' showing total 2 results

1. Directed evolution of gene-shuffled IFN-alpha molecules with activity profiles tailored for treatment of chronic viral diseases.

Author

Brideau-Andersen AD, Huang X, Sun SC, Chen TT, Stark D, Sas IJ, Zadik L, Dawes GN, Guptill DR, McCord R, Govindarajan S, Roy A, Yang S, Gao J, Chen YH, Skartved NJ, Pedersen AK, Lin D, Locher CP, Rebbapragada I, Jensen AD, Bass SH, Nissen TL, Viswanathan S, Foster GR, Symons JA, and Patten PA

Subjects

Amino Acid Motifs, Amino Acid Sequence, Animals, Antiviral Agents pharmacology, CHO Cells, Cricetinae, Cricetulus, Gene Library, HeLa Cells, Humans, Interferon-alpha chemistry, Interferon-alpha pharmacology, Models, Molecular, Molecular Sequence Data, Protein Binding, Pseudogenes, Th1 Cells drug effects, Chronic Disease therapy, DNA Shuffling, Directed Molecular Evolution, Interferon-alpha genetics, Virus Diseases therapy

Abstract

Type I IFNs are unusually pleiotropic cytokines that bind to a single heterodimeric receptor and have potent antiviral, antiproliferative, and immune modulatory activities. The diverse effects of the type I IFNs are of differential therapeutic importance; in cancer therapy, an enhanced antiproliferative effect may be beneficial, whereas in the therapy of viral infections (such as hepatitis B and hepatitis C), the antiproliferative effects lead to dose limiting bone marrow suppression. Studies have shown that various members of the natural IFN-alpha family and engineered variants, such as IFN-con1, vary in the ratios between various IFN-mediated cellular activities. We used DNA shuffling to explore and confirm the hypothesis that one could simultaneously increase the antiviral and Th1-inducing activity and decrease the antiproliferative activity. We report IFN-alpha hybrids wherein the ratio of antiviral:antiproliferative and Th1-inducing: antiproliferative potencies are markedly increased with respsect to IFN-con1 (75- and 80-fold, respectively). A four-residue motif that overlaps with the IFNAR1 binding site and is derived by cross breeding with a pseudogene contributes significantly to this phenotype. These IFN-alphas have an activity profile that may result in an improved therapeutic index and, consequently, better clinical efficacy for the treatment of chronic viral diseases such as hepatitis B virus, human papilloma virus, HIV, or chronic hepatitis C.

Published

2007

2. Directed evolution of gene-shuffled IFN-α molecules with activity profiles tailored for treatment of chronic viral diseases.

Author

Brideau-Andersen, Amy D., Xiaojian Huang, Siu-Chi Chang Sun, Chen, Teddy T., Stark, Diane, Sas, Ian J., Zadik, Linda, Dawes, Glenn N., Guptill, Douglas R., McCord, Robert, Govindarajan, Sridhar, Roy, Ajoy, Shumin Yang, Gao, Judy, Yong Hong Chen, Skartved, Niels Jørgen Ø., Pedersen, Annette K., Lin, David, Locher, Christopher P., and Rebbapragada, Indrani

Subjects

VIRUS diseases, CYTOKINES, HEPATITIS, THERAPEUTICS, NUCLEIC acids

Abstract

Type I IFNs are unusually pleiotropic cytokines that bind to a single heterodimeric receptor and have potent antiviral, antiproliferative, and immune modulatory activities. The diverse effects of the type I IFNs are of differential therapeutic importance; in cancer therapy, an enhanced antiproliferative effect may be beneficial, whereas in the therapy of viral infections (such as hepatitis B and hepatitis C). the antiproliferative effects lead to dose limiting bone marrow suppression. Studies have shown that various members of the natural IFN-α family and engineered variants, such as IFN-con1, vary in the ratios between various IFN-mediated cellular activities. We used DNA shuffling to explore and confirm the hypothesis that one could simultaneously increase the antiviral and Th1-inducing activity and decrease the antiproliferative activity. We report IFN-α hybrids wherein the ratio of antiviral:antiproliferative and Th1-inducing: antiproliferative potencies are markedly increased with respsect to IFN-con1 (75- and 80-fold, respectively). A four-residue motif that overlaps with the IFNAR1 binding site and is derived by cross breeding with a pseudogene contributes significantly to this phenotype. These IFN-αs have an activity profile that may result in an improved therapeutic index and, consequently, better clinical efficacy for the treatment of chronic viral diseases such as hepatitis B virus, human papilloma virus, HIV, or chronic hepatitis C. [ABSTRACT FROM AUTHOR]

Published

2007