PEG Analogs Synthesized by Ring-Opening Metathesis
Polymerization for Reversible Bioconjugation
Posted on 2018-10-25 - 13:21
Poly(ethylene
glycols) (PEGs) with protein-reactive end-groups
are widely utilized in bioconjugation reactions. Herein, we describe
the use of ring-opening metathesis polymerization (ROMP) to synthesize
unsaturated protein-reactive PEG analogs. These ROMP PEGs (rPEGs)
contained terminal aldehyde functionality and ranged in molecular
weight from 6 to 20 kDa. The polymers were readily conjugated to free
amines on the protein hen egg-white lysozyme (Lyz). Biocompatibility
of the unsaturated PEGs was assessed in vitro, revealing the polymers
to be nontoxic up to concentrations of at least 1 mg/mL in human dermal
fibroblasts (HDFs). The resulting unsaturated rPEG-lysozyme conjugates
underwent metathesis-based depolymerization, resulting in decreased
molecular weight of the conjugate.
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Pelegri-O’Day, Emma M.; Matsumoto, Nicholas M.; Tamshen, Kyle; Raftery, Eric D.; Lau, Uland Y.; Maynard, Heather D. (2018). PEG Analogs Synthesized by Ring-Opening Metathesis
Polymerization for Reversible Bioconjugation. ACS Publications. Collection. https://doi.org/10.1021/acs.bioconjchem.8b00635
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AUTHORS (6)
- EPEmma M. Pelegri-O’DayNMNicholas M. MatsumotoKTKyle TamshenEREric D. RafteryULUland Y. LauHMHeather D. Maynard
KEYWORDS
Ring-Opening Metathesis PolymerizationHDFrPEG-lysozyme conjugatesprotein-reactive end-groupsbioconjugation reactionsprotein-reactive PEG analogsring-opening metathesis polymerizationprotein hen egg-white lysozymemetathesis-based depolymerization20 kDaROMP PEGsPEG Analogs Synthesizedterminal aldehyde functionality