An
abnormal microenvironment underlies poor healing in
chronic
diabetic chronic wounds. However, effectively modulating the microenvironment
of the diabetic wound remains a great challenge due to sustained oxidative
stress and chronic inflammation. Here, we present a unimolecular enzyme–polymer
conjugate that demonstrates excellent multienzymatic cascade activities.
The cascaded enzyme conjugates (CECs) were synthesized by grafting
poly(N-acryloyl-lysine) (pLAAm) from the glycan moieties
of glucose oxidase (GOx) via glycan-initiated polymerization. The
resulting CECs exhibited multiple enzymatic properties of GOx, superoxide
dismutase mimic, and catalase mimic activities simultaneously. The
CECs facilitated the depletion of high blood glucose, ROS scavenging,
bacteria-killing, anti-inflammatory effects, and sustained oxygen
generation, which restored the microenvironment in diabetic wounds.
In vivo results from a diabetic mouse model confirmed the capacity
and efficiency of the cascade reaction for diabetic wound healing.
Our findings demonstrate that the three-in-one enzyme–polymer
conjugates alone can modulate the diabetic microenvironment for wound
healing.