TY - JOUR
T1 - Microscopy-based single-cell proteomic profiling reveals heterogeneity in DNA damage response dynamics
AU - Su, Pin Rui
AU - You, Li
AU - Beerens, Cecile
AU - Bezstarosti, Karel
AU - Demmers, Jeroen
AU - Pabst, Martin
AU - Kanaar, Roland
AU - Hsu, Cheng Chih
AU - Chien, Miao Ping
PY - 2022
Y1 - 2022
N2 - Single-cell proteomics has the potential to decipher tumor heterogeneity, and a method like single-cell proteomics by mass spectrometry (SCoPE-MS) allows profiling several tens of single cells for >1,000 proteins per cell. This method, however, cannot link the proteome of individual cells with phenotypes of interest. Here, we developed a microscopy-based functional single-cell proteomic-profiling technology, called FUNpro, to address this. FUNpro enables screening, identification, and isolation of single cells of interest in a real-time fashion, even if the phenotypes are dynamic or the cells of interest are rare. We applied FUNpro to proteomically profile a newly identified small subpopulation of U2OS osteosarcoma cells displaying an abnormal, prolonged DNA damage response (DDR) after ionizing radiation (IR). With this, we identified the PDS5A protein contributing to the abnormal DDR dynamics and helping the cells survive after IR.
AB - Single-cell proteomics has the potential to decipher tumor heterogeneity, and a method like single-cell proteomics by mass spectrometry (SCoPE-MS) allows profiling several tens of single cells for >1,000 proteins per cell. This method, however, cannot link the proteome of individual cells with phenotypes of interest. Here, we developed a microscopy-based functional single-cell proteomic-profiling technology, called FUNpro, to address this. FUNpro enables screening, identification, and isolation of single cells of interest in a real-time fashion, even if the phenotypes are dynamic or the cells of interest are rare. We applied FUNpro to proteomically profile a newly identified small subpopulation of U2OS osteosarcoma cells displaying an abnormal, prolonged DNA damage response (DDR) after ionizing radiation (IR). With this, we identified the PDS5A protein contributing to the abnormal DDR dynamics and helping the cells survive after IR.
KW - 53BP1
KW - DDR foci dynamics
KW - DNA damage response
KW - functional single-cell selection
KW - PDS5A
KW - phenotype-to-proteome linking
KW - phototagging
KW - single-cell proteomics
KW - tumor heterogeneity
KW - ultrawide field-of-view optical microscope
UR - http://www.scopus.com/inward/record.url?scp=85133264524&partnerID=8YFLogxK
U2 - 10.1016/j.crmeth.2022.100237
DO - 10.1016/j.crmeth.2022.100237
M3 - Article
AN - SCOPUS:85133264524
VL - 2
JO - Cell Reports Methods
JF - Cell Reports Methods
IS - 6
M1 - 100237
ER -