Livshits MA, Khomyakova E, Evtushenko EG, Lazarev VN, Kulemin NA, Semina SE, Generozov EV, Govorun VM. Livshits MA, et al. Sci Rep. 2016 Mar 29;6:21447. doi: 10.1038/srep21447. Sci Rep. 2016. PMID: 27022711 Free PMC article. No abstract available.
Exosomes, small (40-100 nm) extracellular membranous vesicles, attract enormous research interest because they are carriers of disease markers and a prospective delivery system for therapeutic agents. Differential centrifugation, the prevalent method of exosome isolation, frequently produces dissimilar and improper results because of the faulty practice of using a common centrifugation protocol with different rotors. Moreover, as recommended by suppliers, adjusting the centrifugation duration according to rotor K-factors does not work for "fixed-angle" rotors. For both types of rotors--"swinging bucket" and "fixed-angle"--we express the theoretically expected proportion of pelleted vesicles of a given size and the "cut-off" size of completely sedimented vesicles as dependent on the centrifugation force and duration and the sedimentation path-lengths. The proper centrifugation conditions can be selected using relatively simple theoretical estimates of the "cut-off" sizes of vesicles. Experimental verification on exosomes isolated from HT29 cell culture supernatant confirmed the main theoretical statements. Measured by the nanoparticle tracking analysis (NTA) technique, the concentration and size distribution of the vesicles after centrifugation agree with those theoretically expected. To simplify this "cut-off"-size-based adjustment of centrifugation protocol for any rotor, we developed a web-calculator.