Publication date: Oct 03, 2024
Sortase-mediated ligation (SML) has become a powerful tool for site-specific protein modification. However, sortase A (SrtA) suffers from low catalytic efficiency and mediates an equilibrium reaction. Therefore, ligations with large macromolecules may be challenging. Here, the synthesis of polymeric building blocks for sortase-mediated ligation constituting peptide-polymers with either the recognition sequence for sortase A (LPXTGX) or its nucleophilic counterpart (G) is demonstrated. The peptide-polymers are synthesized by solid-phase peptide synthesis followed by photo-iniferter (PI) reversible addition-fragmentation chain-transfer (RAFT) polymerization of various monomers. The building blocks are subsequently utilized to investigate possibilities and limitations when using macromolecules in SML. In particular, diblock copolymers are obtained even when using the orthogonal building blocks in equimolar ratio by exploiting a technique to shift the reaction equilibrium. However, ligations of two polymers can not be achieved when the degree of polymerization exceeds 100. Subsequently, C-terminal protein-polymer conjugates are synthesized. Several polymers are utilized that can replace the omnipresent polyethylene glycol (PEG) in future therapeutics. The conjugation is exemplified with a nanobody that is known for efficient neutralization of SARS-CoV-2. The study demonstrates a universal approach to polymer-LPXTGX and G-polymer building blocks and gives insight into their application in SML.
Concepts | Keywords |
---|---|
Large | peptide‐polymer conjugates |
Lpxtgx | protein‐polymer conjugates |
Nanobody | RAFT polymerization |
Polymers | sortase‐mediated ligation |
Therapeutics |
Semantics
Type | Source | Name |
---|---|---|
disease | IDO | protein |
disease | IDO | site |
drug | DRUGBANK | Polyethylene glycol |