Extracellular vesicle fusion visualized by cryo-EM

Extracellular vesicles (EVs) transfer bioactive molecules between cells in a process reminiscent of enveloped viruses. EV cargo delivery is thought to occur by protein-mediated and pH-dependent membrane fusion of the EV and the cellular membrane. However, there is a lack of methods to identify the fusion proteins and resolve their mechanism.

Researchers at the Weizmann Institute of Science developed and benchmarked an in vitro biophysical assay to investigate EV membrane fusion. The assay was standardized by directly comparing EV- and viral-fusion with liposomes. The researchers show that EVs and retroviruses fuse with liposomes mimicking the membrane composition of the late endosome in a pH and protein-dependent manner. Moreover, they directly visualize the stages of membrane fusion using cryo-electron tomography. The researchers find that, unlike most retroviruses, EVs remain fusogenic after acidification and re-neutralization. These results provide novel insights into the EV cargo delivery mechanism and an experimental approach to identify the EV fusion machinery.

Cryo-EM imaging reveals EV hemifusion intermediates

(A) Illustration showing canonical membrane fusion intermediates. Contact: the viral membrane is tightly in contact (< 2 nm) with the apposing membrane and the two bilayers run parallel to each other. Hemifusion: the two proximal leaflets of lipid bilayers have joined and the hemifusion diaphragm is composed of only the two remaining leaflets. Content mixing: the two membranes merge at the contact point with the two bilayers transitioning continuously from one onto the other. At this stage, the content can mix, but the pores can still collapse and reseal. Expanded pore: the fusion pore increases in diameter and complete content mixing can occur. (B – E) Representative Cryo – TEM images of EV-LUV fusion intermediates. Insets show the interaction spot at higher magnification (Top panel). Middle panel: Outlines showing EV (magenta) and LUV (green) membranes as defined by luminal gray level distribution. Bottom panel: Line profile to evaluate the presence of bilayer-leaflets. Yellow and white lines indicate membrane leaflets in inset and region where line profile was acquired, respectively. (B) Contact between EV and LUV (C) Hemifusion. Arrow indicates the location where the two bilayers merged into one. (D) Content mixing. White arrow indicates the fusion pore. (E) Expanded pore: dumbbell-shaped pore with an enlarged neck and apparent flow of the EV cargo into the LUV lumen. White arrow indicates the putative extended neck where the vesicles fused. (F) Quantification of interaction intermediates for LUVs – LUVs and EVs – LUVs systems at pH 7.4 and 5.0. (G) Tomographic reconstruction of EVs (magenta) – LUV (green) interaction at pH 5.0 revealing content mixing between the vesicles. White arrowhead indicates the fusion pore.

Morandi MI, Busko P, Ozer-Partuk E et al. (2022) Extracellular vesicle fusion visualized by cryo-EM. bioRXiv [online pre-print]. [article]

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