Adoption of Regulations for Cell Therapy Development: Linkage Between Taiwan and Japan.

Although cell-based therapy has become a promising treatment, its practice and evaluation process remain unstandardized. Therefore, Japan initiated a dual-track regulatory framework for cell-based therapy aiming to promote and regulate the therapies to ensure that patients can access safe and effective treatments. Influenced by such pathway, Taiwan adopted the framework and initiated its own cell-based therapy regulation in 2018. This paper discusses how Japan has influenced Taiwan in developing regulations for cell-based therapy.

Development of pH-Sensitive Cationic PEGylated Solid Lipid Nanoparticles for Selective Cancer-Targeted Therapy.

Solid lipid nanoparticles (SLNs) are suitable candidates for the delivery of various anti-cancer drugs. However, currently insufficient tumor-permeability and non-specific uptake by the reticuloendothelial system limits the application of SLNs. Here, we developed novel pH-sensitive cationic polyoxyethylene (PEGylated) SLNs (PEG-SLNs+) that could accumulate long-term at various tumor sites to enhance the therapeutic efficiency of camptothecin (CPT). These CPT-loaded PEG-SLNs+ (CPT-PEG-SLNs+) were spherical nanoparticles, with small size (∼52.3±1.7 nm), positive charge (∼34.3±3.5 mV) and high entrapment efficiency (∼99.4±1.7%). Drug release profile indicated the overall released amount of CPT from CPT-PEG-SLNs+ at pH 5.5 was 20.2% more than at pH 7.4, suggesting CPT-PEG-SLNs+ were a pH-sensitive SLNs. This PEG-SLNs+ could be efficiently uptaken into cells to inhibit the proliferation of CL1-5 cells (IC50 = 0.37 ±0.21 ug/ml) or HCC36 cells (IC50 = 0.16±0.43 ug/ml). In living animal, our PEG-SLNs+ could accumulate long-term (for more than 120 hours) in various types of tumor, including human lung carcinoma (NCI-H358, CRL5802, CL1-5), human colon carcinoma (HCT-116) and human hepatocellular carcinoma (HCC36), and CPT-PEG-SLNs+ could efficiently enhance the therapeutic efficiency of CPT to suppress the growth of the HCC36 or CL1-5 tumors. Therefore, Successful development of these pH-sensitive PEGylated cationic SLNs may provide a selective and efficient drug delivery system for cancer therapy.