Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics

Lotte Slenders; Marian Wesseling; Siting Wei; Arjan Boltjes; Daniek M C Kapteijn; Petra van de Kraak; Marie A C Depuydt; Koen H M Prange; Noortje A M van den Dungen; Ernest D Benavente; Dominique P V de Kleijn; Gert J de Borst; Menno P J de Winther; Hester M den Ruijter; Gary K Owens; Gerard Pasterkamp; Michal Mokry

doi:10.1016/j.vph.2025.107498

Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics

Lotte Slenders, Marian Wesseling, Siting Wei, Arjan Boltjes, Daniek M C Kapteijn, Petra van de Kraak, Marie A C Depuydt, Koen H M Prange, Noortje A M van den Dungen, Ernest D Benavente, Dominique P V de Kleijn, Gert J de Borst, Menno P J de Winther, Hester M den Ruijter, Gary K Owens, Gerard Pasterkamp, Michal Mokry

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BACKGROUND: Endothelial cells within atherosclerotic plaques can differentiate into a mesenchymal-like phenotype through endothelial-to-mesenchymal transition (EndoMT). Our understanding of the molecular mechanisms underlying EndoMT in human atherosclerosis remains limited. Current gene expression signatures are often derived from in vitro experiments or animal studies and typically reflect genes upregulated in fully differentiated mesenchymal cell states, while genes upregulated during the process are omitted. To address this knowledge gap, we utilized in silico lineage tracing in single-cell transcriptomic (scRNA-seq) data from human plaque tissues to identify the EndoMT gene expression signature.

METHODS AND RESULTS: We constructed three candidate EndoMT lineages across subpopulations of ECs and SMCs in human carotid scRNA-seq data (n = 46). We examined gene expression over the course of these lineages and identified a core signature of 73 genes upregulated in EndoMT. Upregulation of those genes was confirmed in EndoMT trajectories of other human datasets derived from plaque tissue and in Cdh5-Cre ERT2 Rosa-eYFP apoE -/- lineage-traced mice. Analysis of human carotid plaque bulk RNA-seq data (632 patients) found the association of core gene signature with fibrous and more stable histological phenotypes.

CONCLUSION: This study defines the core gene signature of EndoMT in human atherosclerotic plaques, which can serve as a reference for future studies and gene set enrichment analysis.

Originele taal-2	Engels
Pagina's (van-tot)	107498
Tijdschrift	Vascular pharmacology
Volume	159
Vroegere onlinedatum	1 mei 2025
DOI's	https://doi.org/10.1016/j.vph.2025.107498
Status	Gepubliceerd - jun. 2025
Extern gepubliceerd	Ja

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10.1016/j.vph.2025.107498

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Slenders, L., Wesseling, M., Wei, S., Boltjes, A., Kapteijn, D. M. C., van de Kraak, P., Depuydt, M. A. C., Prange, K. H. M., van den Dungen, N. A. M., Benavente, E. D., de Kleijn, D. P. V., de Borst, G. J., de Winther, M. P. J., den Ruijter, H. M., Owens, G. K., Pasterkamp, G., & Mokry, M. (2025). Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics. Vascular pharmacology, 159, 107498. https://doi.org/10.1016/j.vph.2025.107498

@article{9ba5d4ccb36245e881a8dfb805f1e827,

title = "Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics",

abstract = "BACKGROUND: Endothelial cells within atherosclerotic plaques can differentiate into a mesenchymal-like phenotype through endothelial-to-mesenchymal transition (EndoMT). Our understanding of the molecular mechanisms underlying EndoMT in human atherosclerosis remains limited. Current gene expression signatures are often derived from in vitro experiments or animal studies and typically reflect genes upregulated in fully differentiated mesenchymal cell states, while genes upregulated during the process are omitted. To address this knowledge gap, we utilized in silico lineage tracing in single-cell transcriptomic (scRNA-seq) data from human plaque tissues to identify the EndoMT gene expression signature.METHODS AND RESULTS: We constructed three candidate EndoMT lineages across subpopulations of ECs and SMCs in human carotid scRNA-seq data (n = 46). We examined gene expression over the course of these lineages and identified a core signature of 73 genes upregulated in EndoMT. Upregulation of those genes was confirmed in EndoMT trajectories of other human datasets derived from plaque tissue and in Cdh5-Cre ERT2 Rosa-eYFP apoE -/- lineage-traced mice. Analysis of human carotid plaque bulk RNA-seq data (632 patients) found the association of core gene signature with fibrous and more stable histological phenotypes. CONCLUSION: This study defines the core gene signature of EndoMT in human atherosclerotic plaques, which can serve as a reference for future studies and gene set enrichment analysis.",

keywords = "Animals, Carotid Arteries/pathology, Carotid Artery Diseases/pathology, Cell Lineage, Endothelial Cells/pathology, Epithelial-Mesenchymal Transition/genetics, Gene Expression Profiling, Humans, Male, Mice, Mice, Knockout, ApoE, Myocytes, Smooth Muscle/pathology, Phenotype, Plaque, Atherosclerotic, RNA-Seq, Single-Cell Analysis, Transcriptome",

author = "Lotte Slenders and Marian Wesseling and Siting Wei and Arjan Boltjes and Kapteijn, {Daniek M C} and {van de Kraak}, Petra and Depuydt, {Marie A C} and Prange, {Koen H M} and {van den Dungen}, {Noortje A M} and Benavente, {Ernest D} and {de Kleijn}, {Dominique P V} and {de Borst}, {Gert J} and {de Winther}, {Menno P J} and {den Ruijter}, {Hester M} and Owens, {Gary K} and Gerard Pasterkamp and Michal Mokry",

note = "Copyright {\textcopyright} 2024. Published by Elsevier Inc.",

year = "2025",

month = jun,

doi = "10.1016/j.vph.2025.107498",

language = "English",

volume = "159",

pages = "107498",

journal = "Vascular pharmacology",

issn = "1537-1891",

publisher = "Elsevier Inc.",

}

Slenders, L, Wesseling, M, Wei, S, Boltjes, A, Kapteijn, DMC, van de Kraak, P, Depuydt, MAC, Prange, KHM, van den Dungen, NAM, Benavente, ED, de Kleijn, DPV, de Borst, GJ, de Winther, MPJ, den Ruijter, HM, Owens, GK, Pasterkamp, G & Mokry, M 2025, 'Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics', Vascular pharmacology, vol. 159, blz. 107498. https://doi.org/10.1016/j.vph.2025.107498

Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics. / Slenders, Lotte; Wesseling, Marian; Wei, Siting et al.
In: Vascular pharmacology, Vol. 159, 06.2025, blz. 107498.

Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel › peer review

TY - JOUR

T1 - Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics

AU - Slenders, Lotte

AU - Wesseling, Marian

AU - Wei, Siting

AU - Boltjes, Arjan

AU - Kapteijn, Daniek M C

AU - van de Kraak, Petra

AU - Depuydt, Marie A C

AU - Prange, Koen H M

AU - van den Dungen, Noortje A M

AU - Benavente, Ernest D

AU - de Kleijn, Dominique P V

AU - de Borst, Gert J

AU - de Winther, Menno P J

AU - den Ruijter, Hester M

AU - Owens, Gary K

AU - Pasterkamp, Gerard

AU - Mokry, Michal

PY - 2025/6

Y1 - 2025/6

N2 - BACKGROUND: Endothelial cells within atherosclerotic plaques can differentiate into a mesenchymal-like phenotype through endothelial-to-mesenchymal transition (EndoMT). Our understanding of the molecular mechanisms underlying EndoMT in human atherosclerosis remains limited. Current gene expression signatures are often derived from in vitro experiments or animal studies and typically reflect genes upregulated in fully differentiated mesenchymal cell states, while genes upregulated during the process are omitted. To address this knowledge gap, we utilized in silico lineage tracing in single-cell transcriptomic (scRNA-seq) data from human plaque tissues to identify the EndoMT gene expression signature.METHODS AND RESULTS: We constructed three candidate EndoMT lineages across subpopulations of ECs and SMCs in human carotid scRNA-seq data (n = 46). We examined gene expression over the course of these lineages and identified a core signature of 73 genes upregulated in EndoMT. Upregulation of those genes was confirmed in EndoMT trajectories of other human datasets derived from plaque tissue and in Cdh5-Cre ERT2 Rosa-eYFP apoE -/- lineage-traced mice. Analysis of human carotid plaque bulk RNA-seq data (632 patients) found the association of core gene signature with fibrous and more stable histological phenotypes. CONCLUSION: This study defines the core gene signature of EndoMT in human atherosclerotic plaques, which can serve as a reference for future studies and gene set enrichment analysis.

AB - BACKGROUND: Endothelial cells within atherosclerotic plaques can differentiate into a mesenchymal-like phenotype through endothelial-to-mesenchymal transition (EndoMT). Our understanding of the molecular mechanisms underlying EndoMT in human atherosclerosis remains limited. Current gene expression signatures are often derived from in vitro experiments or animal studies and typically reflect genes upregulated in fully differentiated mesenchymal cell states, while genes upregulated during the process are omitted. To address this knowledge gap, we utilized in silico lineage tracing in single-cell transcriptomic (scRNA-seq) data from human plaque tissues to identify the EndoMT gene expression signature.METHODS AND RESULTS: We constructed three candidate EndoMT lineages across subpopulations of ECs and SMCs in human carotid scRNA-seq data (n = 46). We examined gene expression over the course of these lineages and identified a core signature of 73 genes upregulated in EndoMT. Upregulation of those genes was confirmed in EndoMT trajectories of other human datasets derived from plaque tissue and in Cdh5-Cre ERT2 Rosa-eYFP apoE -/- lineage-traced mice. Analysis of human carotid plaque bulk RNA-seq data (632 patients) found the association of core gene signature with fibrous and more stable histological phenotypes. CONCLUSION: This study defines the core gene signature of EndoMT in human atherosclerotic plaques, which can serve as a reference for future studies and gene set enrichment analysis.

KW - Animals

KW - Carotid Arteries/pathology

KW - Carotid Artery Diseases/pathology

KW - Cell Lineage

KW - Endothelial Cells/pathology

KW - Epithelial-Mesenchymal Transition/genetics

KW - Gene Expression Profiling

KW - Humans

KW - Male

KW - Mice

KW - Mice, Knockout, ApoE

KW - Myocytes, Smooth Muscle/pathology

KW - Phenotype

KW - Plaque, Atherosclerotic

KW - RNA-Seq

KW - Single-Cell Analysis

KW - Transcriptome

UR - https://www.mendeley.com/catalogue/98d9489a-c54f-3c90-9610-9d66fcb990e5/

U2 - 10.1016/j.vph.2025.107498

DO - 10.1016/j.vph.2025.107498

M3 - Article

C2 - 40318741

SN - 1537-1891

VL - 159

SP - 107498

JO - Vascular pharmacology

JF - Vascular pharmacology

ER -

Endothelial-to-mesenchymal transition gene signature derived from single-cell transcriptomics of human atherosclerotic tissue associates with stable plaque histological characteristics

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