Human neuronal extracellular vesicles contain a transcriptional network and tetraspanin-defined subpopulations

  • D. Hicks (Creator)
  • A C Jones (Creator)
  • Nicola J. Corbett (Creator)
  • Kate Fisher (Creator)
  • Stuart Pickering Brown (Creator)
  • Mark Ashe (Creator)
  • Nigel Hooper (Creator)

Dataset

Description

Healthy brain function is mediated by several complementary signalling pathways, many of which are driven by extracellular vesicles (EVs). EVs are heterogeneous in both size and cargo and are constitutively released from cells into the extracellular milieu. They are subsequently trafficked to recipient cells, whereupon their entry can modify the cellular phenotype. Here, in order to further understand the functional role of EVs in neurons, we isolated EVs by size exclusion chromatography from human induced pluripotent stem cell (iPSC)-derived neurons. Electron microscopy and dynamic light scattering revealed that the isolated EVs had a diameter of 30-100 nm. Transcriptomic and proteomics analyses of the EVs and neurons identified key molecules enriched in the EVs involved in cell surface interaction (integrins and collagens), internalisation pathways (clathrin- and caveolin-dependent), downstream signalling pathways (phospholipases, integrin-linked kinase and MAPKs), and long-term impacts on cellular development and maintenance. Overall, we show that key signalling networks and mechanisms are enriched in EVs isolated from human iPSC-derived neurons, and identify subpopulations of EVs defined by differential tetraspanin expression.
Date made available8 Sept 2021
PublisherPRoteomics IDEntifications Database
Date of data production8 Sept 2021

Keywords

  • Human
  • neuron
  • iPSC
  • LC-MS/MS

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