Surface PEGylation via Native Chemical Ligation

Native chemical ligation (NCL) is an emerging chemoselective chemistry that forms an amide bond. by trans-thioesterification followed by intramolecular nucleophilic rearrangement between thioester and cysteine. The reaction is simple, occurs in a mild aqueous solution, and gives near-quantitative yields of a desired product. Since the first report in 1994, most studies involving the use of NCL have focused on the total synthesis-of-proteins to address fundamental questions pertaining to many aspects of protein science, such as folding, mirror images, and site-specific labeling of proteins, but applications of the NCL reaction for other areas remain largely unexplored. Herein, we present a facile strategy for surface immobilization of poly(ethylene glycol).(PEG) utilizing the NCL reaction. Surface immobilization of PEG (i.e., PEGylation) plays a key role in preventing nonspecific protein adsorption on surfaces, which is crucial in a wide variety of medical devices. Using cysteine-PEG and thioester-containing phosphonic acid conjugates, we achieved efficient surface PEGylation on titanium surfaces. Ellipsometry, goniometry, and X-ray photoelectron spectroscopy (XPS) unambiguously confirmed the presence of PEGs, which provided nonfouling effects of surfaces. This study indicates that the NCL reaction Will be a useful toolkit for surface bioconjugation and functionalization.