Thiol-Mediated Synthesis of Hyaluronic Acid–Epigallocatechin-3‑O‑Gallate Conjugates for the Formation of Injectable Hydrogels with Free Radical Scavenging Property and Degradation Resistance
posted on 2017-08-14, 00:00authored byChixuan Liu, Ki Hyun Bae, Atsushi Yamashita, Joo Eun Chung, Motoichi Kurisawa
Hyaluronic
acid (HA)-based biomaterials have demonstrated only
limited in vivo stability as a result of rapid degradation by hyaluronidase
and reactive oxidative species. The green tea catechin, (−)-epigallocatechin-3-O-gallate (EGCG), has received considerable attention because
of its powerful antioxidant and enzyme-inhibitory activities. We describe
here the synthesis of HA-EGCG conjugate using a thiol-mediated reaction
and its use for the preparation of a long-lasting injectable hydrogel.
HA-EGCG conjugates with tunable degrees of substitution were synthesized
by the nucleophilic addition reaction between EGCG quinone and thiolated
HA under mild conditions. Contrary to unmodified HA, the conjugates
exhibited free radical scavenging and hyaluronidase-inhibitory activities.
Peroxidase-catalyzed coupling reaction between EGCG moieties was employed
to produce in situ forming HA-EGCG hydrogel with surprisingly high
resistance to hyaluronidase-mediated degradation. When injected subcutaneously
in mice, HA-EGCG hydrogel was retained much longer than HA-tyramine
hydrogel with minimal inflammation.