posted on 2021-11-02, 02:14authored byHanzhuang Liu, Shaorui Liu, Yu Xiao, Wenting Song, Huize Li, Lok Wai Cola Ho, Zhen Shen, Chung Hang Jonathan Choi
Our knowledge in how extracellular
vesicles (EVs) are secreted
from cells remains inadequate due to the limited technologies available
for visualizing them in situ. We report a pH-reversible
boron dipyrromethene (BODIPY) fluorescent probe for confocal imaging
of EVs secreted from living cells without inducing severe cytotoxicity.
This probe predominantly assumes a non-fluorescent leuco-BODIPY form
under basic conditions, but it gradually switches to its fluorescent
parent BODIPY form upon acidification; such pH transition empowers
the imaging of acidic EVs (such as CD81-enriched exosomes and extracellular
multivesicular bodies) in weakly basic culture medium and intracellular
acidic precursor EVs in weakly basic cytoplasm, with minimal false
positive signals frequently encountered for “always-on”
dyes. Joint application of this probe with plasmid transfection reveals
the secretion of some EVs from cellular pseudopodia via microtubule trackways. This probe may provide mechanistic insights
into the extracellular transport of EVs and support the development
of EV-based nanomedicines.