Technology Introduction:
The study integrates metabolic glycoengineering in serum-free cultured MSCs to present azide groups on the surface of MSC-derived extracellular vesicles (EVs). Through SPAAC click chemistry, DBCO molecules are attached, and a single-chain antibody fragment (scFv) targeting the liver receptor ASGR1 is designed for modification. This establishes a high-quality, precise, and cost-effective non-genetic modification platform for CAR-sEV, enhancing the targeting capability and therapeutic efficiency.
Industry Applicability:
CAR-sEV technology creates a cell-free, targeted delivery platform for cell/gene therapies and vaccines. Using mild, metal-free SPAAC click chemistry with EV purification, it supports scalable manufacturing. Modular scFv swapping enables liver (ASGR1), neurological (TransferrinR), cancer (PD-L1/EGFR), and cardiovascular (VCAM-1) applications. Flexible licensing and OEM partnerships accelerate market entry. Biocompatible, low-immunogenic, and customizable, it meets precision delivery demands.