Choice of size-exclusion chromatography column affects recovery, purity, and miRNA cargo analysis of extracellular vesicles from human plasma

Jillian W.P. Bracht; Mandy Los; Edwin van der Pol; Sandra A.W.M. Verkuijlen; Monique A.J. van Eijndhoven; D. Michiel Pegtel; Rienk Nieuwland

doi:10.20517/evcna.2024.34

Extracellular Vesicles and Circulating Nucleic Acids ›› 2024, Vol. 5 ›› Issue (3) :497 -508. DOI: 10.20517/evcna.2024.34

Original Article

Choice of size-exclusion chromatography column affects recovery, purity, and miRNA cargo analysis of extracellular vesicles from human plasma

Author information +

History +

PDF

Abstract

Aim: The miRNA cargo of plasma extracellular vesicles (EVs) is commonly studied for its biomarker potential. However, isolation of EVs from human plasma is challenging. Although size-exclusion chromatography (SEC) is commonly used to isolate plasma EVs, SEC does not completely separate EVs from other miRNA carriers such as cells, lipoproteins, and proteins. Recently, new SEC columns were introduced, but hitherto, no systematic study was performed to compare the recovery and purity of plasma EVs using both traditional and new columns. In this study, we investigated the recovery of EVs and separation efficacy from lipoproteins and proteins using different SEC columns, and how recovery and separation affect miRNA cargo analysis.

Methods: EVs were isolated from pooled (n = 5) platelet-depleted plasma using 10 different SEC columns. For each column, three EV-enriched fractions were pooled and concentrations of EVs, lipoproteins, proteins, and miRNAs were measured by flow cytometry, enzyme-linked immunosorbent assay (ELISA), Bradford assay, and qRT-PCR, respectively.

Results: Our results show that the resin pore size affects all measured parameters: a small pore size increases recovery of EVs and quantity of miRNA, but decreases the separation efficacy compared to a large pore size. Regression analysis showed that the investigated miRNAs are more strongly associated with EVs than with lipoproteins or proteins.

Conclusion: The choice of a SEC column markedly affects the recovery, separation efficacy, and miRNA cargo analysis of human plasma-derived EVs. We recommend either using SEC columns with a 70-nm pore size due to their superior EV purity or studying the effect of non-EV particles on the miRNAs of interest.

Keywords

Size-exclusion chromatography / extracellular vesicles / miRNA / human plasma / lipoproteins

Cite this article

Download citation ▾

Jillian W.P. Bracht, Mandy Los, Edwin van der Pol, Sandra A.W.M. Verkuijlen, Monique A.J. van Eijndhoven, D. Michiel Pegtel, Rienk Nieuwland. Choice of size-exclusion chromatography column affects recovery, purity, and miRNA cargo analysis of extracellular vesicles from human plasma. Extracellular Vesicles and Circulating Nucleic Acids, 2024, 5(3): 497-508 DOI:10.20517/evcna.2024.34

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Witwer KW,Bemis LT.Standardization of sample collection, isolation and analysis methods in extracellular vesicle research.J Extracell Vesicles2013;2 PMCID:PMC3760646

[2]	Yates AG,Erdbrügger U.In sickness and in health: the functional role of extracellular vesicles in physiology and pathology in vivo: Part II: pathology: Part II: pathology.J Extracell Vesicles2022;11:e12190 PMCID:PMC8765328

[3]	Johnsen KB,Andresen TL.What is the blood concentration of extracellular vesicles?.Biochim Biophys Acta Rev Cancer2019;1871:109-16

[4]	Simonsen JB.What are we looking at?.Circ Res2017;121:920-2

[5]	Auber M.An estimate of extracellular vesicle secretion rates of human blood cells.J Extracell Biol.2022;1:e46. PMCID:PMC11080926

[6]	Berckmans RJ,Hau CM,Nieuwland R.Extracellular vesicles and coagulation in blood from healthy humans revisited.J Extracell Vesicles2019;8:1688936 PMCID:PMC6853244

[7]	Lacroix R,Mooberry M,Key NS.The ISTH SSC WorkshopStandardization of pre-analytical variables in plasma microparticle determination: results of the International society on thrombosis and haemostasis SSC collaborative workshop.J Thromb Haemost2013:1190-3 PMCID:PMC4395506

[8]	Bettin B,Li B.Removal of platelets from blood plasma to improve the quality of extracellular vesicle research.J Thromb Haemost2022;20:2679-85 PMCID:PMC9825910

[9]	Arraud N,Tan S.Extracellular vesicles from blood plasma: determination of their morphology, size, phenotype and concentration.J Thromb Haemost2014;12:614-27

[10]	Bracht JWP,van Eijndhoven MAJ.Platelet removal from human blood plasma improves detection of extracellular vesicle-associated miRNA.J Extracell Vesicles2023;12:e12302 PMCID:PMC9929339

[11]	Holcar M,Lenassi M.Blood nanoparticles - influence on extracellular vesicle isolation and characterization.Front Pharmacol2021;12:773844 PMCID:PMC8635996

[12]	Böing AN,Grootemaat AE,Sturk A.Single-step isolation of extracellular vesicles by size-exclusion chromatography.J Extracell Vesicles2014;3 PMCID:PMC4159761

[13]	Caulfield MP,Lee G.Direct determination of lipoprotein particle sizes and concentrations by ion mobility analysis.Clin Chem2008;54:1307-16

[14]	Li K,Luk FS,Raffai RL.Isolation of plasma lipoproteins as a source of extracellular RNA. In: Patel T, editor. Extracellular RNA.Methods Mol Biol1740:139-153 PMCID:PMC6476197

[15]	Arroyo JD,Kroh EM.Argonaute2 complexes carry a population of circulating microRNAs independent of vesicles in human plasma.Proc Natl Acad Sci U S A2011;108:5003-8 PMCID:PMC3064324

[16]	Gaspar LS,Henriques C.Simple and fast SEC-based protocol to isolate human plasma-derived extracellular vesicles for transcriptional research.Mol Ther Methods Clin Dev2020;18:723-37 PMCID:PMC7452272

[17]	Mateescu B,van Balkom BW.Obstacles and opportunities in the functional analysis of extracellular vesicle RNA - an ISEV position paper.J Extracell Vesicles2017;6:1286095 PMCID:PMC5345583

[18]	Guo J,Lin X.Establishment of a simplified dichotomic size-exclusion chromatography for isolating extracellular vesicles toward clinical applications.J Extracell Vesicles2021;10:e12145 PMCID:PMC8435528

[19]	Nieuwland R,Falcón-Pérez JM.Reproducibility of extracellular vesicle research.Eur J Cell Biol2022;101:151226

[20]	Van Deun J,Li H.Integrated dual-mode chromatography to enrich extracellular vesicles from plasma.Adv Biosyst2020;4:e1900310 PMCID:PMC7606548

[21]	Krušić Alić V,Biberić M.Extracellular vesicles from human cerebrospinal fluid are effectively separated by sepharose CL-6B-comparison of four gravity-flow size exclusion chromatography methods.Biomedicines2022;10:785 PMCID:PMC9032713

[22]	Hall M.Chapter 21 - size exclusion chromatography (SEC). In: Jagschies G, Lindskog E, Łącki K, Galliher P, editors. Biopharmaceutical Processing. Elsevier; 2018.p.421-432.

[23]	Burgess RR.A brief practical review of size exclusion chromatography: rules of thumb, limitations, and troubleshooting.Protein Expr Purif2018;150:81-5

[24]	Ter-Ovanesyan D,Lazarovits R.Framework for rapid comparison of extracellular vesicle isolation methods.Elife.2021;10:e70725 PMCID:PMC8651285

[25]	Welsh JA,Arkesteijn GJA.MIFlowCyt-EV: a framework for standardized reporting of extracellular vesicle flow cytometry experiments.J Extracell Vesicles2020;9:1713526 PMCID:PMC7034442

[26]	van Eijndhoven MA,Groenewegen NJ.Plasma vesicle miRNAs for therapy response monitoring in Hodgkin lymphoma patients.JCI Insight2016;1:e89631 PMCID:PMC5111516

[27]	Raitoharju E,Lyytikäinen LP.Blood hsa-miR-122-5p and hsa-miR-885-5p levels associate with fatty liver and related lipoprotein metabolism-The Young Finns Study.Sci Rep2016;6:38262 PMCID:PMC5137183

[28]	Lane RE,Trau M.Optimizing size exclusion chromatography for extracellular vesicle enrichment and proteomic analysis from clinically relevant samples.Proteomics2019;19:e1800156

[29]	van der Pol E,Coumans FAW.Absolute sizing and label-free identification of extracellular vesicles by flow cytometry.Nanomedicine2018;14:801-10

[30]	Tóth EÁ,Visnovitz T.Formation of a protein corona on the surface of extracellular vesicles in blood plasma.J Extracell Vesicles2021;10:e12140 PMCID:PMC8439280