Sortase A as a cross-linking enzyme in tissue engineering

Enzymatic crosslinking has immense appeal for tissue engineers as one of the most biocompatible methods of hydrogel crosslinking. Sortase A has a number of unique advantages over previous systems. We show an impressive and tunable range of crosslinking kinetics, from almost instantaneous gelation to several minutes. We also demonstrate that Sortase A crosslinked hydrogels have good cytocompatibility and cause no immune reaction when implanted in vivo. With its additional benefits of excellent stability in solution and easy large-scale synthesis available to any lab, we believe this novel crosslinking modality will find multiple applications in high throughput screening, tissue engineering, and biofabrication.

Enzymatic crosslinking has immense appeal for tissue engineers as one of the most biocompatible methods of hydrogel crosslinking. Sortase A has a number of unique advantages over previous systems. We show an impressive and tunable range of crosslinking kinetics, from almost instantaneous gelation to several minutes. We also demonstrate that Sortase A crosslinked hydrogels have good cytocompatibility and cause no immune reaction when implanted in vivo. With its additional benefits of excellent stability in solution and easy large-scale synthesis available to any lab, we believe this novel crosslinking modality will find multiple applications in high throughput screening, tissue engineering, and biofabrication.