Exosome isolation based on polyethylene glycol (PEG): a review.

Exosome acts as an outstanding biomarker for ongoing studies, diagnosis and prognosis of multiples diseases. Therefore, the call for economically and efficiently isolating a large number of exosomes is an active area of investigation. However, to date, the challenges including complex isolated procedure, uneconomical equipment, low protein content and distinct loss in the particle number of exosomes etc. still encounter in exosome isolation. Polyethylene glycol (PEG)-induced exosome isolation increasingly attracts wide attention of scientists. PEG precipitation reveals higher performance in the yield of exosomes among multiple common isolation techniques. PEG-based precipitation is a temporarily low-purity, but inexpensive, time-save, labor-less, convenient and high-yield technique to gain exosomes with high biological activities. Hence, the PEG-based exosome isolation approach wins the endorsement of experimental workers. Herein, we summary the existing knowledge on procedures of PEG-based exosomes separation from different biospecimens, the binding process of PEG to exosomes, some notices, demerits, merits of PEG-based exosome isolation, and at last the advantages by combining PEG-precipitation to other techniques for exosome isolation, with a view to eliciting profound insights for investigators who recruit PEG for exosome separation, and advancing references for the standardization of PEG-based exosome isolation in future.