1. N-Hydroxysuccinimide-Modified Ethynylphosphonamidates Enable the Synthesis of Configurationally Defined Protein Conjugates
Marc-André Kasper, et al. Chembiochem. 2020 Jan 15;21(1-2):113-119. doi: 10.1002/cbic.201900587. Epub 2020 Jan 7.
Herein, the application of N-hydroxysuccinimide-modified phosphonamidate building blocks for the incorporation of cysteine-selective ethynylphosphonamidates into lysine residues of proteins, followed by thiol addition with small molecules and proteins, is reported. It is demonstrated that the building blocks significantly lower undesired homo-crosslinking side products that can occur with commonly applied succinimidyl 4-(N-maleimidomethyl)cyclohexane-1-carboxylate (SMCC) under physiological pH. The previously demonstrated stability of the phosphonamidate moiety additionally solves the problem of premature maleimide hydrolysis, which can hamper the efficiency of subsequent thiol addition. Furthermore, a method to separate the phosphonamidate enantiomers to be able to synthesize protein conjugates in a defined configuration has been developed. Finally, the building blocks are applied to the construction of functional antibody-drug conjugates, analogously to FDA-approved, SMCC-linked Kadcyla, and to the synthesis of a functional antibody-protein conjugate.
2. Labeling Antibodies with N-Hydroxysuccinimide-Long Chain (NHS-LC)-Biotin
Eric A Berg, Jordan B Fishman Cold Spring Harb Protoc. 2020 Jan 2;2020(1):099259. doi: 10.1101/pdb.prot099259.
Labeling antibodies with biotin (biotinylation) is a useful and simple technique. Biotin's small size (244 Da) usually has little effect on the biological activity of the protein target. The most common way to biotinylate an antibody is to cross-link a biotin succinimidyl ester to a primary amine. There are many commercially available types of biotin analogs that can be used for labeling. They vary in reactive group chemistry as well as spacer length. For example, a common analog used for biotinylation is the succinimidyl ester of biotin with an aminohexanoic acid spacer (Long Chain or LC-Biotin), utilized here. A PEG spacer of varying length can also be used.
3. Selective protein N-terminal labeling with N-hydroxysuccinimide esters
Hanjie Jiang, Gabriel D D'Agostino, Philip A Cole, Daniel R Dempsey Methods Enzymol. 2020;639:333-353. doi: 10.1016/bs.mie.2020.04.018. Epub 2020 Apr 28.
In order to gain detailed insight into the biochemical behavior of proteins, researchers have developed chemical tools to incorporate new functionality into proteins beyond the canonical 20 amino acids. Important considerations regarding effective chemical modification of proteins include chemoselectivity, near stoichiometric labeling, and reaction conditions that maintain protein stability. Taking these factors into account, we discuss an N-terminal labeling strategy that employs a simple two-step "one-pot" method using N-hydroxysuccinimide (NHS) esters. The first step converts a R-NHS ester into a more chemoselective R-thioester. The second step reacts the in situ generated R-thioester with a protein that harbors an N-terminal cysteine to generate a new amide bond. This labeling reaction is selective for the N-terminus with high stoichiometry. Herein, we provide a detailed description of this method and further highlight its utility with a large protein (>100kDa) and labeling with a commonly used cyanine dye.
