Conclusions
Our results thus reveal that IRSp53 containing EVs represent a subset of plasma membrane EVs whose production depends on branched actin. Significance: IRSp53 belongs to the I-BAR family proteins involved in curving cell membranes through a link with cortical actin. In that perspective, IRSp53 was shown to help membrane curvature of HIV-1 particles and, here, to be part of the budding process of a sub-population of EVs through its link with Arp2/3. IRSp53 is consequently a biomarker of these EVs of the cell plasma membrane.
Results
Here, we explore whether the I-BAR protein IRSp53 is sorting with EVs and if ectopic GFP-tagged I-BAR proteins, such as IRSp53-GFP, as well as related IRTKS-GFP or Pinkbar proteins, can be found in these EVs originated from the cell plasma membrane. We found that a subpopulation of these I-BAR EVs, which are negative for the CD81 exosomal biomarker, are produced from the cell plasma membrane in a TSG101-independent manner but in an Arp2/3-dependent manner. Conclusions: Our results thus reveal that IRSp53 containing EVs represent a subset of plasma membrane EVs whose production depends on branched actin. Significance: IRSp53 belongs to the I-BAR family proteins involved in curving cell membranes through a link with cortical actin. In that perspective, IRSp53 was shown to help membrane curvature of HIV-1 particles and, here, to be part of the budding process of a sub-population of EVs through its link with Arp2/3. IRSp53 is consequently a biomarker of these EVs of the cell plasma membrane.
Significance
IRSp53 belongs to the I-BAR family proteins involved in curving cell membranes through a link with cortical actin. In that perspective, IRSp53 was shown to help membrane curvature of HIV-1 particles and, here, to be part of the budding process of a sub-population of EVs through its link with Arp2/3. IRSp53 is consequently a biomarker of these EVs of the cell plasma membrane.