2006
DOI: 10.1038/nprot.2006.346
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PEGylation of native disulfide bonds in proteins

Abstract: PEGylation has turned proteins into important new biopharmaceuticals. The fundamental problems with the existing approaches to PEGylation are inefficient conjugation and the formation of heterogeneous mixtures. This is because poly(ethylene glycol) (PEG) is usually conjugated to nucleophilic amine residues. Our PEGylation protocol solves these problems by exploiting the chemical reactivity of both of the sulfur atoms in the disulfide bond of many biologically relevant proteins. An accessible disulfide bond is … Show more

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Cited by 116 publications
(112 citation statements)
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References 30 publications
(38 reference statements)
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“…The next step uses MS to confirm the PEGylated protein's mass and the polydispersity of the reactive PEG. Finally, CD is used to confirm the secondary structure of the protein [38]. Current technological advances are enabling the use of these techniques for optimization of different manufacturing processes, for example product yields and heterogeneity, and have great advantages over time-consuming chromatographic steps.…”
Section: Mass and Structure Analysis Of Peg-proteinsmentioning
confidence: 99%
See 1 more Smart Citation
“…The next step uses MS to confirm the PEGylated protein's mass and the polydispersity of the reactive PEG. Finally, CD is used to confirm the secondary structure of the protein [38]. Current technological advances are enabling the use of these techniques for optimization of different manufacturing processes, for example product yields and heterogeneity, and have great advantages over time-consuming chromatographic steps.…”
Section: Mass and Structure Analysis Of Peg-proteinsmentioning
confidence: 99%
“…When the conjugates have been separated and analyzed a series of assays should be performed to confirm the biological activity of the protein [38]. Selection of these assays depends entirely on the activity of the protein in its native form and the characteristics PEGylation is intended to improve for the desired application.…”
Section: Analysis Of the Activity Of Pegylated Proteinsmentioning
confidence: 99%
“…Another approach is to use conjugation reagents capable of bis-alkylation that can conjugate to both cysteine thiols from an existing disulfide in the protein [147,148]. Conjugation results in a 3-carbon bridge spanning the two cysteine thiols of the original disulfide with PEG conjugated site-specifically on the bridge.…”
Section: Protein Pegylationmentioning
confidence: 99%
“…Conjugation of the drug to the unpaired cysteine residues using maleimide chemistry yields ADCs with homogeneous DAR [147,346,348]. Genentech's THIOMABs is the most advanced technology using engineered unpaired cysteine residues, and this approach is currently being investigated by several other companies, including MedImmune, Seattle Genetics, and Pfizer.…”
Section: Conjugation: Payload Stoichiometry and Stability Of Conjugationmentioning
confidence: 99%
“…Traditionally, inter-chain disulfide bonds are selectively reduced to reactive thiols for alkylation with drugs [16,17], which may have negative effects on the stability [14] and effectorfunctions of antibodies [18]. A promising solution to these problems is to restore a covalent linkage between the reduced cysteine residues by the utilization of bis-reactive bridging reagents such as monosulfone [19,20] and 3, 4-substituted maleimide [21e24]. Here, we envisage that it would be possible to selectively attach polymerization initiator molecules to an antibody at its inter-chain disulfide bridging sites by disulfide re-bridging to yield a macroinitiator, followed by in situ growth of dye or drug-labelled polymer conjugates.…”
Section: Introductionmentioning
confidence: 99%