- Bharadwaj, Gaurav;
- Nhan, Viet;
- Yang, ShanChao;
- Li, Xiaocen;
- Narayanan, Anand;
- Macarenco, Ana Carolina;
- Shi, Yu;
- Yang, Darrion;
- Vieira, Letcia Salvador;
- Xiao, Wenwu;
- Li, Yuanpei;
- Lam, Kit S
Aim
To structurally modify our existing cholic acid (CA)-based telodendrimer (TD; PEG5K-CA8) for effective micellar nanoencapsulation and delivery of the US FDA-approved members of taxane family.Materials & methods
Generation of hybrid TDs was achieved by replacing four of the eight CAs with biocompatible organic moieties using solution-phase peptide synthesis. Drug loading was done using the standard evaporation method.Results
Hybrid TDs can generate micelles with narrow size distributions, low critical micelle concentration values (1-6 μM), better hematocompatibility and lack of in vitro cytotoxicity.Conclusion
Along with PEG5K-CA8, CA-based hybrid nanoplatform is the first of its kind that can stably encapsulate all three FDA-approved taxanes with nearly 100% efficiency up to 20% (w/w) loading.