Proximity Proteomics
Has Potential for Extracellular
Vesicle Identification
Posted on 2021-06-11 - 20:47
Extracellular vesicles (EVs) are
biomarkers and mediators of intercellular
communication. In biological samples, EVs are secreted by various
types of cells. The proteomic identification of proteins expressed
in EVs has potential to contribute to research and clinical applications,
particularly for cancer. In this study, the proximity-labeling method-based
proteomic approach was used for EV identification, labeling membrane
components proximal to a given molecule on the EV membrane surface.
Due to the small labeling range, proteins on the surface of the same
EVs are likely to be labeled by selecting a given EV surface antigen.
The protein group of cancer cell-secreted EV (cEV), which abundantly
expresses a close homologue of L1 (CHL1), was examined using a model
mouse for lung cancer (LC). cEV-expressed proteins were identified
by proteomic analysis of enzyme-mediated activation of radical sources
by comparing serum EVs from wild-type and LC mice. SLC4A1 was found
to be co-expressed in CHL1-expressing EVs, highlighting EVs expressing
both CHL1 and SLC4A1 as candidates for cEVs. Serum EVs expressing
both CHL1 and caspase 14 were significantly elevated in LC patients
compared with healthy individuals. Thus, the combination of proximity
labeling and proteomic analysis allows for effective EV identification.
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Kaneda, Hisako; Ida, Yui; Kuwahara, Ryusuke; Sato, Izumi; Nakano, Takanari; Tokuda, Haruhiko; et al. (2021). Proximity Proteomics
Has Potential for Extracellular
Vesicle Identification. ACS Publications. Collection. https://doi.org/10.1021/acs.jproteome.1c00149
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AUTHORS (10)
HK
Hisako Kaneda
YI
Yui Ida
RK
Ryusuke Kuwahara
IS
Izumi Sato
TN
Takanari Nakano
HT
Haruhiko Tokuda
TS
Tsuyoshi Sato
TM
Takayuki Murakoshi
KH
Koichi Honke
NK
Norihiro Kotani