A highly programmable platform for sequential release of protein therapeutics
Haozheng Wang, Rui Liu, Sha Wang, Ying Guan, Yongjun Zhang
Abstract
microspheres. Then the microspheres are coated with hydrogen-bonded tannic acid (TA)/polyethylene glycol (PEG) layer-by-layer films. The encapsulated protein does not release from the microsphere until the TA/PEG coating is fully disintegrated. As the TA/PEG coating is eroded at a constant rate, the lag time for protein release is proportional to the coating thickness. To achieve sequential release, one can simply coat the protein-encapsulated microspheres with different thickness TA/PEG films and then mix them. Both in vitro and in vivo tests demonstrate that the proteins can be released from the mixed samples in a sequence according to the thickness of the TA/PEG coatings. The time intervals between the protein releases can be facilely adjusted by adjusting the thickness of the TA/PEG coatings. In addition, sequential release of more than 3 proteins can be facilely achieved.