Structural Analysis of Exosomes Using Different Types of Electron Microscopy

Choi, Hyosun; Mun, Ji Young

doi:10.9729/am.2017.47.3.171

Cited by 33 publications

(20 citation statements)

References 17 publications

(16 reference statements)

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“…Nano–Sight analysis of the EV pellets revealed a homogenous population of EVs less than 150 nm in diameter. This was further confirmed by TEM, where we observed an EV size range of 60–130 nm, and the classical cup–shaped morphology described with a similar staining method [ 48 ].…”

Section: Discussionsupporting

confidence: 84%

Characterization of Urine Stem Cell-Derived Extracellular Vesicles Reveals B Cell Stimulating Cargo

Zidan

Al‐Hawwas

Perkins

et al. 2021

IJMS

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Elucidation of the biological functions of extracellular vesicles (EVs) and their potential roles in physiological and pathological processes is an expanding field of research. In this study, we characterized USC–derived EVs and studied their capacity to modulate the human immune response in vitro. We found that the USC–derived EVs are a heterogeneous population, ranging in size from that of micro–vesicles (150 nm–1 μm) down to that of exosomes (60–150 nm). Regarding their immunomodulatory functions, we found that upon isolation, the EVs (60–150 nm) induced B cell proliferation and IgM antibody secretion. Analysis of the EV contents unexpectedly revealed the presence of BAFF, APRIL, IL–6, and CD40L, all known to play a central role in B cell stimulation, differentiation, and humoral immunity. In regard to their effect on T cell functions, they resembled the function of mesenchymal stem cell (MSC)–derived EVs previously described, suppressing T cell response to activation. The finding that USC–derived EVs transport a potent bioactive cargo opens the door to a novel therapeutic avenue for boosting B cell responses in immunodeficiency or cancer.

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Section: Discussionsupporting

confidence: 84%

Characterization of Urine Stem Cell-Derived Extracellular Vesicles Reveals B Cell Stimulating Cargo

Zidan

Al‐Hawwas

Perkins

et al. 2021

IJMS

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“…The presence and purity of epididymosomes was further validated by staining with the EV-specific marker CD9 and absence of the cellular marker GAPDH (Figure 1B). Size analysis by nanoparticle-tracking indicated that the collected particles are 50-300 nm in diameter (Figure 1D), and imaging by transmission electron microscopy showed the typical cup-shaped structures of epididymosomes (Figure 1C, Supplementary Figure 1A) [18]. RNA profiling by high-resolution automated electrophoresis showed enrichment for small RNAs of different lengths, similar to previous studies on cauda epididymosomal RNA content (Supplementary Figure 1B) [2,13].…”

Section: Resultssupporting

confidence: 84%

Early life stress affects the miRNA cargo in epididymal extracellular vesicles in mouse

Alshanbayeva

Tanwar

Roszkowski

et al. 2021

Preprint

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Sperm RNA can be modified by environmental factors and has been implicated in communicating signals about changes in a father's environment to the offspring. The RNA composition of sperm is influenced during its final stage of maturation in the epididymis by extracellular vesicles released by epididymal cells. We studied the effect of exposure to stress in postnatal life on the transcriptome of epididymal extracellular vesicles using a mouse model of transgenerational transmission. We found that the small RNA signature of epididymal extracellular vesicles, particularly miRNAs, is altered in adult males exposed to postnatal stress. miRNAs changes correlate with differences in the expression of their target genes in sperm and zygotes generated from that sperm. These results suggest that stressful experiences in early life can have persistent biological effects on the male reproductive tract that may in part be responsible for the transmission of the effects of exposure to the offspring.

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“…In cryo-electron microscopy (cryo-EM), samples will be fixed by cryo-immobilization where waters are vitrified instead of ice crystal formation in the sample by liquid ethane cooling. Cryo-immobilizing allows samples to be preserved in their native hydrated state, thus avoiding artifacts commonly caused by conventional fixation method such as cup shaped EVs [46, 47]. Combined with immunogold labeling, cryo-TEM can image EVs containing proteins and track EV uptake by recipient cells [48], as well as distinguishing EV subgroups by their size [49, 50].…”

Section: Transmission Electron Microscopymentioning

confidence: 99%

“…After cryo-immobilization, samples can also undergo freezing substitution with fixing and embedding reagents for the specimens to be imaged under traditional TEM in room temperature. Since cryo-EM yields superior sample quality and morphology preservation over traditional EM methods [47], it is increasingly being applied to study EVs.…”

Section: Transmission Electron Microscopymentioning

confidence: 99%

Imaging extracellular vesicles: current and emerging methods

2018

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Extracellular vesicles (EVs) are lipid bilayer-enclosed nanoparticles released by cells. They range from 30 nm to several micrometers in diameter, and ferry biological cargos such as proteins, lipids, RNAs and DNAs for local and distant intercellular communications. EVs have since been found to play a role in development, as well as in diseases including cancers. To elucidate the roles of EVs, researchers have established different methods to visualize and study their spatiotemporal properties. However, since EV are nanometer-sized, imaging them demands a full understanding of each labeling strategy to ensure accurate monitoring. This review covers current and emerging strategies for EV imaging for prospective studies.

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Structural Analysis of Exosomes Using Different Types of Electron Microscopy

Cited by 33 publications

References 17 publications

Characterization of Urine Stem Cell-Derived Extracellular Vesicles Reveals B Cell Stimulating Cargo

Characterization of Urine Stem Cell-Derived Extracellular Vesicles Reveals B Cell Stimulating Cargo

Early life stress affects the miRNA cargo in epididymal extracellular vesicles in mouse

Imaging extracellular vesicles: current and emerging methods

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