Yu-Sen Wang scite author profile

Interferons display a wide range of antiviral, antiproliferative, and immunomodulatory activities on a variety of cell types and have been used to treat many diseases including hairy-cell leukemia and hepatitis B and C and have also been applied to other therapeutic areas. To improve the pharmacological properties of interferon (IFN) alpha-2b, a long-acting pegylated form (PEG-IFN) has been developed [PEG, monomethoxy poly(ethylene glycol) with average molecular mass of 12 000 Da]. PEG-IFN is a mixture of pegylated proteins with differing sites of PEG attachment. To identify the major positional isomer in the pegylated material [PEG-IFN(His-34)], NMR studies were conducted on a subtilisin-digested N-acetylated peptide of the major positional isomer [PEG-IFN(His-34)dig], synthetic peptide analogues containing His-34, as well as unmodified IFN and PEG-IFN(His-34). Our studies reveal a novel interferon-polymer attachment site as a histidine-linked interferon conjugate. We show that the major component of PEG-IFN is pegylated in the imidazole side chain of histidine-34. Chemical shift data suggest that pegylation occurs mainly at the N(delta)(1) position in the imidazole side chain of this residue. This positional isomer, PEG-IFN(His-34), comprises approximately 47% of the total pegylated species when PEG-IFN is synthesized under the current experimental conditions at pH 6.5 with an electrophilic derivative of PEG, succinimidyl carbonate PEG. The reversibility of the histidine modification was examined. The PEG-imidazole adduct in the intact protein, PEG-IFN(His-34), is labile but much more stable than in the peptide, PEG-IFN(His-34)dig. Apparently, the tertiary structure of the intact protein protects the His(34)-imidazole ring from depegylation.

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Structure, Biology, and Therapeutic Implications of Pegylated Interferon Alpha-2b

Youngster¹,

Wang²,

Grace³

et al. 2002

CPD

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Derivatization of protein-based therapeutics with polyethylene glycol (pegylation) can often improve pharmacokinetic and pharmacodynamic properties of the proteins and thereby, improve efficacy and minimize dosing frequency. This review will provide an overview of pegylation technology and pegylated protein-based drugs being used or investigated clinically. The novel therapeutic, PEG Intron(R), formed by attaching a 12-kDa mono-methoxy polyethylene glycol (PEG) to the interferon alpha-2b protein, will be discussed in detail in terms of its structure, biological activities, pharmacokinetic properties, and clinical efficacy for the treatment of chronic hepatitis C. Detailed physicochemical and biological characterization studies of PEG Intron revealed its composition of pegylated positional isomers and the specific anti-viral activity associated with each of them. Pegylation of Intron A at pH 6.5 results in a mixture of> or = 95% mono-pegylated isoforms with the predominant species (approximately 50%) derivatized to the His(34) residue with the remaining positional isomers pegylated at various lysines, the N-terminal cysteine, as well as serine, tyrosine, and another histidine residue. The anti-viral activity for each pegylated isomer showed that the highest specific activity (37%) was associated with the His(34)-pegylated isomer. Though pegylation decreases the specific activity of the interferon alpha-2b protein in vitro, the potency of PEG Intron was comparable to the Intron A standard at both the molecular and cellular level. The substituted IFN had an enhanced pharmacokinetic profile in both animal and human studies, and, when combined with ribavirin, was very effective in reducing hepatitis C viral load and maintaining sustained viral suppression in patients.

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Yu-Sen Wang

Structural and biological characterization of pegylated recombinant interferon alpha-2b and its therapeutic implications

Identification of the Major Positional Isomer of Pegylated Interferon Alpha-2b

Structure, Biology, and Therapeutic Implications of Pegylated Interferon Alpha-2b

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