Exosomes have many advantages as natural drug delivery carriers, but their application is limited by the inefficient loading of intracellular drugs (such as proteins and nucleic acids). In this study, mCherry, a red fluorescent protein, was used as the endogenous cargo target. Through gene modification of donor cells and fusion expression of membrane localization elements (PB, CAAX, Palm and CD63), mCherry was specifically sorted into exosomes through biogenesis. Results show that CD63 had the highest sorting efficiency, followed by Palm. PB and CAAX led enrichment of mCherry on the plasma membrane, but not in exosomes. The approach provides an alternative to facilitate packaging of cargo by exosomes and thus to increase the efficient delivery of endogenous protein drugs.
外泌体作为天然药物运送载体具有诸多优点,但其对细胞内源药物 (蛋白、核酸等) 的有限装载限制了其应用。文中以红色荧光蛋白mCherry 为模拟细胞内源性货物,通过对供体细胞的基因改造及采用膜定位元件融合策略,将mCherry 富集于细胞质膜,再经天然发生 (Biogenesis) 途径,高效分选进入外泌体。结果表明,在CAAX、PB、Palm 和CD63 四组膜定位元件中,CD63 和Palm 能有效提高靶蛋白mCherry 在外泌体中的装载量。该研究可为工程化外泌体的设计、内源蛋白等货物的高效递送提供参考。.
Keywords: drug delivery carrier; endogenous protein; exosome; loading efficiency; membrane localization element.