@article{wang_yu_zhang_zhang_kahkoska_chen_wang_sun_cai_chen_et al._2019, title={Charge-switchable polymeric complex for glucose-responsive insulin delivery in mice and pigs}, volume={5}, ISSN={["2375-2548"]}, DOI={10.1126/sciadv.aaw4357}, abstractNote={A glucose-responsive insulin-polymer complex for self-regulated insulin release has been verified in diabetic mice and minipigs. Glucose-responsive insulin delivery systems with robust responsiveness that has been validated in animal models, especially in large animal models, remain elusive. Here, we exploit a new strategy to form a micro-sized complex between a charge-switchable polymer with a glucose-sensing moiety and insulin driven by electrostatic interaction. Both high insulin loading efficiency (95%) and loading capacity (49%) can be achieved. In the presence of a hyperglycemic state, the glucose-responsive phenylboronic acid (PBA) binds glucose instantly and converts the charge of the polymeric moiety from positive to negative, thereby enabling the release of insulin from the complex. Adjusting the ratio of the positively charged group to PBA achieves inhibited insulin release from the complex under normoglycemic conditions and promoted release under hyperglycemic conditions. Through chemically induced type 1 diabetic mouse and swine models, in vivo hyperglycemia-triggered insulin release with fast response is demonstrated after the complex is administrated by either subcutaneous injection or transdermal microneedle array patch.}, number={7}, journal={SCIENCE ADVANCES}, author={Wang, Jinqiang and Yu, Jicheng and Zhang, Yuqi and Zhang, Xudong and Kahkoska, Anna R. and Chen, Guojun and Wang, Zejun and Sun, Wujin and Cai, Lulu and Chen, Zhaowei and et al.}, year={2019}, month={Jul} }
 @misc{cai_gu_zhong_wen_chen_he_wu_gu_2018, title={Advances in glycosylation-mediated cancer-targeted drug delivery}, volume={23}, ISSN={["1878-5832"]}, DOI={10.1016/j.drudis.2018.02.009}, abstractNote={Targeted drug delivery for cancer therapy is expected to enhance therapeutic efficacy with minimized side effects, where the ligand-receptor recognition serves as a common targeting approach. Various ligands have been reported and carbohydrates, one of the crucial structures of tumor cell membranes, have been demonstrated effective for cell-selective binding. Hence, glycosylation-mediated cancer-targeted drug nanocarriers have received increasing attention in recent years. This review surveys a variety of glycosylated drug delivery systems as well as their applications for cancer therapy. Their challenges, opportunities, and future perspectives are also discussed in the end.}, number={5}, journal={DRUG DISCOVERY TODAY}, author={Cai, Lulu and Gu, Zhipeng and Zhong, Jian and Wen, Di and Chen, Guojun and He, Lin and Wu, Jun and Gu, Zhen}, year={2018}, month={May}, pages={1126–1138} }