纳米载体
胰岛素
生物利用度
药物输送
药理学
胰岛素释放
药品
全身循环
糖尿病
医学
靶向给药
血液循环
毒品携带者
化学
口服途径
细胞通透性
疾病
纳米颗粒
受体
输送系统
药学
作者
Yunyun Wang,Wangdi Song,Taiyu Wang,Yue Sheng,Shengnan Xue,Yanyan Dang,Aamir Rasool,Genlin Zhang
摘要
The expanding protein-based drug market is facing limitations from invasive delivery methods. These methods can cause discomfort and pose infection risk, particularly for the chronic disease patients such as diabetes requiring insulin with adherence challenges. Oral insulin, though preferred, suffers from <2% bioavailability, thus, nano-drug delivery system (NDDS) is becoming a highly promising strategy to enhance bioavailability and stability. However, the low expression of receptors and limited uptake capacity remain challenge. The use of cell-penetrating peptides (CPPs) will enhance the permeability of epithelial cells, and combining them with nanoparticles (NPs) can further improve the stability of protein-based drugs in blood circulation and facilitate the development of efficient delivery carriers. This comprehensive review delves into the design, synthesis, classification, challenges, and cellular uptake mechanisms of CPPs-cargo complexes and CPPs-NP nanocarriers for insulin delivery. Furthermore, it provides an in-depth exploration of the challenges and prospects of these innovative approaches.
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