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Journal of Extracellular Vesicles Volume 2, 2013 - Issue 1
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Original Research Articles

Characterisation of tissue factor-bearing extracellular vesicles with AFM: comparison of air-tapping-mode AFM and liquid Peak Force AFM

Julie HardijDepartment of Pharmacy NARILIS, Namur Thrombosis and Hemostasis Center (NTHC), University of Namur, Namur, BelgiumCorrespondence[email protected]
,
Francesca CecchetResearch Centre in Physics of Matter and Radiation, NARILIS, University of Namur, Namur, Belgium
,
Alexandre BerquandBruker Nano Heidelberg, Germany
,
Damien GheldofDepartment of Pharmacy NARILIS, Namur Thrombosis and Hemostasis Center (NTHC), University of Namur, Namur, Belgium
,
Christian ChatelainHematology Laboratory NARILIS, Namur Thrombosis and Hemostasis Center (NTHC), CHU Mont-Godinne, Université Catholique De Louvain, Louvain-La-Neuve, Belgium
,
François MullierHematology Laboratory NARILIS, Namur Thrombosis and Hemostasis Center (NTHC), CHU Mont-Godinne, Université Catholique De Louvain, Louvain-La-Neuve, Belgium
,
Bernard ChatelainHematology Laboratory NARILIS, Namur Thrombosis and Hemostasis Center (NTHC), CHU Mont-Godinne, Université Catholique De Louvain, Louvain-La-Neuve, Belgium
&
Jean-Michel DognéDepartment of Pharmacy NARILIS, Namur Thrombosis and Hemostasis Center (NTHC), University of Namur, Namur, Belgium
 show all
Article: 21045 | Received 05 Apr 2013, Accepted 08 Jul 2013, Published online: 27 Aug 2013
 
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Abstract

Introduction

Extracellular vesicles (EVs) are shed from cells and carry markers of the parent cells. Vesicles derived from cancer cells reach the bloodstream and locally influence important physiological processes. It has been previously shown that procoagulant vesicles are circulating in patients’ fluids. These EVs are therefore considered as promising biomarkers for the thrombotic risk. Because of their small size, classical methods such as flow cytometry suffer from limitation for their characterisation. Atomic force microscopy (AFM) has been proposed as a promising complementary method for the characterisation of EVs.

Objectives

The objectives of this study are: (a) to develop and validate AFM with specific antibodies (anti-TF) and (b) to compare air and liquid modes for EVs’ size and number determination as potential biomarkers of the prothrombotic risk.

Methods

AFM multimode nanoscope III was used for air tapping mode (TM). AFM catalyst was used for liquid Peak Force Tapping (PFT) mode. Vesicles are generated according to Davila et al.'s protocol. Substrates are coated with various concentrations of antibodies, thanks to ethanolamine and glutaraldehyde.

Results

Vesicles were immobilised on antibody-coated surfaces to select tissue factor (TF)-positive vesicles. The size range of vesicles observed in liquid PFT mode is 6–10 times higher than in air mode. This corresponds to the data found in the literature.

Conclusion

We recommend liquid PFT mode to analyse vesicles on 5 µg/ml antibody-coated substrates.

To access the supplementary material to this article, please see Supplementary files under Article Tools online.

To access the supplementary material to this article, please see Supplementary files under Article Tools online.

Acknowledgements

The authors thank Ulrike Engel and the Nikon Imaging Center in Heidelberg, Germany. Julie Hardij is a recipient of a FRIA grant.

Notes

To access the supplementary material to this article, please see Supplementary files under Article Tools online.

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