Integrated single-cell RNA-seq analysis reveals mitochondrial calcium signaling as a modulator of endothelial-to- mesenchymal transition

Mathilde Lebas; Giorgia Chinigò; Evan Courmont; Louay Bettaieb; Amani Machmouchi; Jermaine Goveia; Aleksandar Beatovic; Job Van Kerckhove; Cyril Robil; Fabiola Silva Angulo; Mauro Vedelago; Alina Errerd; Lucas Treps; Vance Gao; Hilda C.Delgado De la Herrán; Alicia Mayeuf-Louchart; Laurent L'homme; Mohamed Chamlali; Camille Dejos; Valérie Gouyer; Venkata Naga Srikanth Garikipati; Dhanendra Tomar; Hao Yin; Hajime Fukui; Stefan Vinckier; Anneke Stolte; Lena Christin Conradi; Fabrice Infanti; Loic Lemonnier; Elisabeth Zeisberg; Yonglun Luo; Lin Lin; Jean Luc Desseyn; J. Geoffrey Pickering; Raj Kishore; Muniswamy Madesh; David Dombrowicz; Fabiana Perocchi; Bart Staels; Alessandra Fiorio Pla; Dimitra Gkika; Anna Rita Cantelmo

doi:10.1126/sciadv.adp6182

Integrated single-cell RNA-seq analysis reveals mitochondrial calcium signaling as a modulator of endothelial-to- mesenchymal transition

Mathilde Lebas, Giorgia Chinigò, Evan Courmont, Louay Bettaieb, Amani Machmouchi, Jermaine Goveia, Aleksandar Beatovic, Job Van Kerckhove, Cyril Robil, Fabiola Silva Angulo, Mauro Vedelago, Alina Errerd, Lucas Treps, Vance Gao, Hilda C.Delgado De la Herrán, Alicia Mayeuf-Louchart, Laurent L'homme, Mohamed Chamlali, Camille Dejos, Valérie GouyerVenkata Naga Srikanth Garikipati, Dhanendra Tomar, Hao Yin, Hajime Fukui, Stefan Vinckier, Anneke Stolte, Lena Christin Conradi, Fabrice Infanti, Loic Lemonnier, Elisabeth Zeisberg, Yonglun Luo, Lin Lin, Jean Luc Desseyn, J. Geoffrey Pickering, Raj Kishore, Muniswamy Madesh, David Dombrowicz, Fabiana Perocchi, Bart Staels, Alessandra Fiorio Pla, Dimitra Gkika, Anna Rita Cantelmo

Division of Cardiology

Producción científica: Article › revisión exhaustiva

3 Citas (Scopus)

Resumen

Endothelial cells (ECs) are highly plastic, capable of differentiating into various cell types. Endothelial-to- mesenchymal transition (EndMT) is crucial during embryonic development and contributes substantially to vascular dysfunction in many cardiovascular diseases (CVDs). While targeting EndMT holds therapeutic promise, understanding its mechanisms and modulating its pathways remain challenging. Using single-cell RNA sequencing on three in vitro EndMT models, we identified conserved gene signatures. We validated original regulators in vitro and in vivo during embryonic heart development and peripheral artery disease. EndMT induction led to global expression changes in all EC subtypes rather than in mesenchymal clusters. We identified mitochondrial calcium uptake as a key driver of EndMT; inhibiting mitochondrial calcium uniporter (MCU) prevented EndMT in vitro, and conditional Mcu deletion in ECs blocked mesenchymal activation in a hind limb ischemia model. Tissues from patients with critical limb ischemia with EndMT features exhibited significantly elevated endothelial MCU. These findings highlight MCU as a regulator of EndMT and a potential therapeutic target.

Idioma original	English (US)
Número de artículo	adp6182
Publicación	Science Advances
Volumen	10
N.º	32
DOI	https://doi.org/10.1126/sciadv.adp6182
Estado	Published - ago 2024

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Lebas, M., Chinigò, G., Courmont, E., Bettaieb, L., Machmouchi, A., Goveia, J., Beatovic, A., Van Kerckhove, J., Robil, C., Angulo, F. S., Vedelago, M., Errerd, A., Treps, L., Gao, V., De la Herrán, H. C. D., Mayeuf-Louchart, A., L'homme, L., Chamlali, M., Dejos, C., ... Cantelmo, A. R. (2024). Integrated single-cell RNA-seq analysis reveals mitochondrial calcium signaling as a modulator of endothelial-to- mesenchymal transition. Science Advances, 10(32), Artículo adp6182. https://doi.org/10.1126/sciadv.adp6182

Lebas, M, Chinigò, G, Courmont, E, Bettaieb, L, Machmouchi, A, Goveia, J, Beatovic, A, Van Kerckhove, J, Robil, C, Angulo, FS, Vedelago, M, Errerd, A, Treps, L, Gao, V, De la Herrán, HCD, Mayeuf-Louchart, A, L'homme, L, Chamlali, M, Dejos, C, Gouyer, V, Garikipati, VNS, Tomar, D, Yin, H, Fukui, H, Vinckier, S, Stolte, A, Conradi, LC, Infanti, F, Lemonnier, L, Zeisberg, E, Luo, Y, Lin, L, Desseyn, JL, Pickering, JG, Kishore, R, Madesh, M, Dombrowicz, D, Perocchi, F, Staels, B, Pla, AF, Gkika, D & Cantelmo, AR 2024, 'Integrated single-cell RNA-seq analysis reveals mitochondrial calcium signaling as a modulator of endothelial-to- mesenchymal transition', Science Advances, vol. 10, n.º 32, adp6182. https://doi.org/10.1126/sciadv.adp6182

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abstract = "Endothelial cells (ECs) are highly plastic, capable of differentiating into various cell types. Endothelial-to- mesenchymal transition (EndMT) is crucial during embryonic development and contributes substantially to vascular dysfunction in many cardiovascular diseases (CVDs). While targeting EndMT holds therapeutic promise, understanding its mechanisms and modulating its pathways remain challenging. Using single-cell RNA sequencing on three in vitro EndMT models, we identified conserved gene signatures. We validated original regulators in vitro and in vivo during embryonic heart development and peripheral artery disease. EndMT induction led to global expression changes in all EC subtypes rather than in mesenchymal clusters. We identified mitochondrial calcium uptake as a key driver of EndMT; inhibiting mitochondrial calcium uniporter (MCU) prevented EndMT in vitro, and conditional Mcu deletion in ECs blocked mesenchymal activation in a hind limb ischemia model. Tissues from patients with critical limb ischemia with EndMT features exhibited significantly elevated endothelial MCU. These findings highlight MCU as a regulator of EndMT and a potential therapeutic target.",

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T1 - Integrated single-cell RNA-seq analysis reveals mitochondrial calcium signaling as a modulator of endothelial-to- mesenchymal transition

AU - Lebas, Mathilde

AU - Chinigò, Giorgia

AU - Courmont, Evan

AU - Bettaieb, Louay

AU - Machmouchi, Amani

AU - Goveia, Jermaine

AU - Beatovic, Aleksandar

AU - Van Kerckhove, Job

AU - Robil, Cyril

AU - Angulo, Fabiola Silva

AU - Vedelago, Mauro

AU - Errerd, Alina

AU - Treps, Lucas

AU - Gao, Vance

AU - De la Herrán, Hilda C.Delgado

AU - Mayeuf-Louchart, Alicia

AU - L'homme, Laurent

AU - Chamlali, Mohamed

AU - Dejos, Camille

AU - Gouyer, Valérie

AU - Garikipati, Venkata Naga Srikanth

AU - Tomar, Dhanendra

AU - Yin, Hao

AU - Fukui, Hajime

AU - Vinckier, Stefan

AU - Stolte, Anneke

AU - Conradi, Lena Christin

AU - Infanti, Fabrice

AU - Lemonnier, Loic

AU - Zeisberg, Elisabeth

AU - Luo, Yonglun

AU - Lin, Lin

AU - Desseyn, Jean Luc

AU - Pickering, J. Geoffrey

AU - Kishore, Raj

AU - Madesh, Muniswamy

AU - Dombrowicz, David

AU - Perocchi, Fabiana

AU - Staels, Bart

AU - Pla, Alessandra Fiorio

AU - Gkika, Dimitra

AU - Cantelmo, Anna Rita

PY - 2024/8

Y1 - 2024/8

N2 - Endothelial cells (ECs) are highly plastic, capable of differentiating into various cell types. Endothelial-to- mesenchymal transition (EndMT) is crucial during embryonic development and contributes substantially to vascular dysfunction in many cardiovascular diseases (CVDs). While targeting EndMT holds therapeutic promise, understanding its mechanisms and modulating its pathways remain challenging. Using single-cell RNA sequencing on three in vitro EndMT models, we identified conserved gene signatures. We validated original regulators in vitro and in vivo during embryonic heart development and peripheral artery disease. EndMT induction led to global expression changes in all EC subtypes rather than in mesenchymal clusters. We identified mitochondrial calcium uptake as a key driver of EndMT; inhibiting mitochondrial calcium uniporter (MCU) prevented EndMT in vitro, and conditional Mcu deletion in ECs blocked mesenchymal activation in a hind limb ischemia model. Tissues from patients with critical limb ischemia with EndMT features exhibited significantly elevated endothelial MCU. These findings highlight MCU as a regulator of EndMT and a potential therapeutic target.

AB - Endothelial cells (ECs) are highly plastic, capable of differentiating into various cell types. Endothelial-to- mesenchymal transition (EndMT) is crucial during embryonic development and contributes substantially to vascular dysfunction in many cardiovascular diseases (CVDs). While targeting EndMT holds therapeutic promise, understanding its mechanisms and modulating its pathways remain challenging. Using single-cell RNA sequencing on three in vitro EndMT models, we identified conserved gene signatures. We validated original regulators in vitro and in vivo during embryonic heart development and peripheral artery disease. EndMT induction led to global expression changes in all EC subtypes rather than in mesenchymal clusters. We identified mitochondrial calcium uptake as a key driver of EndMT; inhibiting mitochondrial calcium uniporter (MCU) prevented EndMT in vitro, and conditional Mcu deletion in ECs blocked mesenchymal activation in a hind limb ischemia model. Tissues from patients with critical limb ischemia with EndMT features exhibited significantly elevated endothelial MCU. These findings highlight MCU as a regulator of EndMT and a potential therapeutic target.

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Integrated single-cell RNA-seq analysis reveals mitochondrial calcium signaling as a modulator of endothelial-to- mesenchymal transition

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