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Single Extracellular Vesicle Imaging and Computational Analysis Identifies Inherent Architectural Heterogeneity

Kshipra Kapoor, Seoyun Kong, Hikaru Sugimoto, Wenhua Guo, Vivek Boominathan, Yilin Chen, Sibani Lisa Biswal, Tanguy Terlier, Kathleen M. McAndrews, Raghu Kalluri

2024ACS Nano36 citationsDOIOpen Access PDF

Abstract

Evaluating the heterogeneity of extracellular vesicles (EVs) is crucial for unraveling their complex actions and biodistribution. Here, we identify consistent architectural heterogeneity of EVs using cryogenic transmission electron microscopy (cryo-TEM), which has an inherent ability to image biological samples without harsh labeling methods while preserving their native conformation. Imaging EVs isolated using different methodologies from distinct sources, such as cancer cells, normal cells, immortalized cells, and body fluids, we identify a structural atlas of their dominantly consistent shapes. We identify EV architectural attributes by utilizing a segmentation neural network model. In total, 7,576 individual EVs were imaged and quantified by our computational pipeline. Across all 7,576 independent EVs, the average eccentricity was 0.5366 ± 0.2, and the average equivalent diameter was 132.43 ± 67 nm. The architectural heterogeneity was consistent across all sources of EVs, independent of purification techniques, and compromised of single spherical, rod-like or tubular, and double shapes. This study will serve as a reference foundation for high-resolution images of EVs and offer insights into their potential biological impact.

Topics & Concepts

Extracellular vesiclesPipeline (software)SegmentationComputer scienceNanotechnologyBiological systemHigh resolutionMaterials scienceArtificial intelligenceBiologyCell biologyGeologyRemote sensingProgramming languageExtracellular vesicles in diseaseThermal properties of materialsPhotoacoustic and Ultrasonic Imaging
Single Extracellular Vesicle Imaging and Computational Analysis Identifies Inherent Architectural Heterogeneity | Litcius