TY - JOUR
T1 - Single-cell multiomics profiling reveals heterogeneous transcriptional programs and microenvironment in DSRCTs
AU - Henon, Clémence
AU - Vibert, Julien
AU - Eychenne, Thomas
AU - Gruel, Nadège
AU - Colmet-Daage, Léo
AU - Ngo, Carine
AU - Garrido, Marlène
AU - Dorvault, Nicolas
AU - Marques Da Costa, Maria Eugenia
AU - Marty, Virginie
AU - Signolle, Nicolas
AU - Marchais, Antonin
AU - Herbel, Noé
AU - Kawai-Kawachi, Asuka
AU - Lenormand, Madison
AU - Astier, Clémence
AU - Chabanon, Roman
AU - Verret, Benjamin
AU - Bahleda, Rastislav
AU - Le Cesne, Axel
AU - Mechta-Grigoriou, Fatima
AU - Faron, Matthieu
AU - Honoré, Charles
AU - Delattre, Olivier
AU - Waterfall, Joshua J.
AU - Watson, Sarah
AU - Postel-Vinay, Sophie
N1 - Publisher Copyright:
© 2024
PY - 2024/6/18
Y1 - 2024/6/18
N2 - Desmoplastic small round cell tumor (DSRCT) is a rare, aggressive sarcoma driven by the EWSR1::WT1 chimeric transcription factor. Despite this unique oncogenic driver, DSRCT displays a polyphenotypic differentiation of unknown causality. Using single-cell multi-omics on 12 samples from five patients, we find that DSRCT tumor cells cluster into consistent subpopulations with partially overlapping lineage- and metabolism-related transcriptional programs. In vitro modeling shows that high EWSR1::WT1 DNA-binding activity associates with most lineage-related states, in contrast to glycolytic and profibrotic states. Single-cell chromatin accessibility analysis suggests that EWSR1::WT1 binding site variability may drive distinct lineage-related transcriptional programs, supporting some level of cell-intrinsic plasticity. Spatial transcriptomics reveals that glycolytic and profibrotic states specifically localize within hypoxic niches at the periphery of tumor cell islets, suggesting an additional role of tumor cell-extrinsic microenvironmental cues. We finally identify a single-cell transcriptomics-derived epithelial signature associated with improved patient survival, highlighting the clinical relevance of our findings.
AB - Desmoplastic small round cell tumor (DSRCT) is a rare, aggressive sarcoma driven by the EWSR1::WT1 chimeric transcription factor. Despite this unique oncogenic driver, DSRCT displays a polyphenotypic differentiation of unknown causality. Using single-cell multi-omics on 12 samples from five patients, we find that DSRCT tumor cells cluster into consistent subpopulations with partially overlapping lineage- and metabolism-related transcriptional programs. In vitro modeling shows that high EWSR1::WT1 DNA-binding activity associates with most lineage-related states, in contrast to glycolytic and profibrotic states. Single-cell chromatin accessibility analysis suggests that EWSR1::WT1 binding site variability may drive distinct lineage-related transcriptional programs, supporting some level of cell-intrinsic plasticity. Spatial transcriptomics reveals that glycolytic and profibrotic states specifically localize within hypoxic niches at the periphery of tumor cell islets, suggesting an additional role of tumor cell-extrinsic microenvironmental cues. We finally identify a single-cell transcriptomics-derived epithelial signature associated with improved patient survival, highlighting the clinical relevance of our findings.
KW - EWSR1::WT1
KW - cancer-associated fibroblasts
KW - desmoplastic small round cell tumor
KW - microenvironment
KW - molecular and cellular heterogeneity
KW - plasticity
KW - sarcoma
KW - single-cell RNA-sequencing
KW - spatial transcriptomics
KW - transcription factor
UR - http://www.scopus.com/inward/record.url?scp=85195395037&partnerID=8YFLogxK
U2 - 10.1016/j.xcrm.2024.101582
DO - 10.1016/j.xcrm.2024.101582
M3 - Article
C2 - 38781959
AN - SCOPUS:85195395037
SN - 2666-3791
VL - 5
JO - Cell Reports Medicine
JF - Cell Reports Medicine
IS - 6
M1 - 101582
ER -