Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks

Hilda Delgado de la Herran; Denis Vecellio Reane; Yiming Cheng; Máté Katona; Fabian Hosp; Elisa Greotti; Jennifer Wettmarshausen; Maria Patron; Hermine Mohr; Natalia Prudente de Mello; Margarita Chudenkova; Matteo Gorza; Safal Walia; Michael Sheng Fu Feng; Anja Leimpek; Dirk Mielenz; Natalia S. Pellegata; Thomas Langer; György Hajnóczky; Matthias Mann; Marta Murgia; Fabiana Perocchi

doi:10.1038/s44318-024-00219-w

Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks

Hilda Delgado de la Herran, Denis Vecellio Reane, Yiming Cheng, Máté Katona, Fabian Hosp, Elisa Greotti, Jennifer Wettmarshausen, Maria Patron, Hermine Mohr, Natalia Prudente de Mello, Margarita Chudenkova, Matteo Gorza, Safal Walia, Michael Sheng Fu Feng, Anja Leimpek, Dirk Mielenz, Natalia S. Pellegata, Thomas Langer, György Hajnóczky, Matthias MannMarta Murgia^*, Fabiana Perocchi^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

The mitochondrial calcium uniporter channel (MCUC) mediates mitochondrial calcium entry, regulating energy metabolism and cell death. Although several MCUC components have been identified, the molecular basis of mitochondrial calcium signaling networks and their remodeling upon changes in uniporter activity have not been assessed. Here, we map the MCUC interactome under resting conditions and upon chronic loss or gain of mitochondrial calcium uptake. We identify 89 high-confidence interactors that link MCUC to several mitochondrial complexes and pathways, half of which are associated with human disease. As a proof-of-concept, we validate the mitochondrial intermembrane space protein EFHD1 as a binding partner of the MCUC subunits MCU, EMRE, and MCUB. We further show a MICU1-dependent inhibitory effect of EFHD1 on calcium uptake. Next, we systematically survey compensatory mechanisms and functional consequences of mitochondrial calcium dyshomeostasis by analyzing the MCU interactome upon EMRE, MCUB, MICU1, or MICU2 knockdown. While silencing EMRE reduces MCU interconnectivity, MCUB loss-of-function leads to a wider interaction network. Our study provides a comprehensive and high-confidence resource to gain insights into players and mechanisms regulating mitochondrial calcium signaling and their relevance in human diseases.

Original language	English
Journal	EMBO Journal
Volume	43
Issue number	21
Pages (from-to)	5288–5326
Number of pages	39
ISSN	0261-4189
DOIs	https://doi.org/10.1038/s44318-024-00219-w
Publication status	Published - 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

Keywords

Calcium Signaling
Mitochondria
Mitochondrial Calcium Uniporter
Organelle
Proteomics

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Cite this

Delgado de la Herran, H., Vecellio Reane, D., Cheng, Y., Katona, M., Hosp, F., Greotti, E., Wettmarshausen, J., Patron, M., Mohr, H., Prudente de Mello, N., Chudenkova, M., Gorza, M., Walia, S., Feng, M. S. F., Leimpek, A., Mielenz, D., Pellegata, N. S., Langer, T., Hajnóczky, G., ... Perocchi, F. (2024). Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks. EMBO Journal, 43(21), 5288–5326. https://doi.org/10.1038/s44318-024-00219-w

Delgado de la Herran, H, Vecellio Reane, D, Cheng, Y, Katona, M, Hosp, F, Greotti, E, Wettmarshausen, J, Patron, M, Mohr, H, Prudente de Mello, N, Chudenkova, M, Gorza, M, Walia, S, Feng, MSF, Leimpek, A, Mielenz, D, Pellegata, NS, Langer, T, Hajnóczky, G, Mann, M, Murgia, M & Perocchi, F 2024, 'Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks', EMBO Journal, vol. 43, no. 21, pp. 5288–5326. https://doi.org/10.1038/s44318-024-00219-w

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title = "Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks",

abstract = "The mitochondrial calcium uniporter channel (MCUC) mediates mitochondrial calcium entry, regulating energy metabolism and cell death. Although several MCUC components have been identified, the molecular basis of mitochondrial calcium signaling networks and their remodeling upon changes in uniporter activity have not been assessed. Here, we map the MCUC interactome under resting conditions and upon chronic loss or gain of mitochondrial calcium uptake. We identify 89 high-confidence interactors that link MCUC to several mitochondrial complexes and pathways, half of which are associated with human disease. As a proof-of-concept, we validate the mitochondrial intermembrane space protein EFHD1 as a binding partner of the MCUC subunits MCU, EMRE, and MCUB. We further show a MICU1-dependent inhibitory effect of EFHD1 on calcium uptake. Next, we systematically survey compensatory mechanisms and functional consequences of mitochondrial calcium dyshomeostasis by analyzing the MCU interactome upon EMRE, MCUB, MICU1, or MICU2 knockdown. While silencing EMRE reduces MCU interconnectivity, MCUB loss-of-function leads to a wider interaction network. Our study provides a comprehensive and high-confidence resource to gain insights into players and mechanisms regulating mitochondrial calcium signaling and their relevance in human diseases.",

keywords = "Calcium Signaling, Mitochondria, Mitochondrial Calcium Uniporter, Organelle, Proteomics",

author = "{Delgado de la Herran}, Hilda and {Vecellio Reane}, Denis and Yiming Cheng and M{\'a}t{\'e} Katona and Fabian Hosp and Elisa Greotti and Jennifer Wettmarshausen and Maria Patron and Hermine Mohr and {Prudente de Mello}, Natalia and Margarita Chudenkova and Matteo Gorza and Safal Walia and Feng, {Michael Sheng Fu} and Anja Leimpek and Dirk Mielenz and Pellegata, {Natalia S.} and Thomas Langer and Gy{\"o}rgy Hajn{\'o}czky and Matthias Mann and Marta Murgia and Fabiana Perocchi",

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year = "2024",

doi = "10.1038/s44318-024-00219-w",

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T1 - Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks

AU - Delgado de la Herran, Hilda

AU - Vecellio Reane, Denis

AU - Cheng, Yiming

AU - Katona, Máté

AU - Hosp, Fabian

AU - Greotti, Elisa

AU - Wettmarshausen, Jennifer

AU - Patron, Maria

AU - Mohr, Hermine

AU - Prudente de Mello, Natalia

AU - Chudenkova, Margarita

AU - Gorza, Matteo

AU - Walia, Safal

AU - Feng, Michael Sheng Fu

AU - Leimpek, Anja

AU - Mielenz, Dirk

AU - Pellegata, Natalia S.

AU - Langer, Thomas

AU - Hajnóczky, György

AU - Mann, Matthias

AU - Murgia, Marta

AU - Perocchi, Fabiana

PY - 2024

Y1 - 2024

N2 - The mitochondrial calcium uniporter channel (MCUC) mediates mitochondrial calcium entry, regulating energy metabolism and cell death. Although several MCUC components have been identified, the molecular basis of mitochondrial calcium signaling networks and their remodeling upon changes in uniporter activity have not been assessed. Here, we map the MCUC interactome under resting conditions and upon chronic loss or gain of mitochondrial calcium uptake. We identify 89 high-confidence interactors that link MCUC to several mitochondrial complexes and pathways, half of which are associated with human disease. As a proof-of-concept, we validate the mitochondrial intermembrane space protein EFHD1 as a binding partner of the MCUC subunits MCU, EMRE, and MCUB. We further show a MICU1-dependent inhibitory effect of EFHD1 on calcium uptake. Next, we systematically survey compensatory mechanisms and functional consequences of mitochondrial calcium dyshomeostasis by analyzing the MCU interactome upon EMRE, MCUB, MICU1, or MICU2 knockdown. While silencing EMRE reduces MCU interconnectivity, MCUB loss-of-function leads to a wider interaction network. Our study provides a comprehensive and high-confidence resource to gain insights into players and mechanisms regulating mitochondrial calcium signaling and their relevance in human diseases.

AB - The mitochondrial calcium uniporter channel (MCUC) mediates mitochondrial calcium entry, regulating energy metabolism and cell death. Although several MCUC components have been identified, the molecular basis of mitochondrial calcium signaling networks and their remodeling upon changes in uniporter activity have not been assessed. Here, we map the MCUC interactome under resting conditions and upon chronic loss or gain of mitochondrial calcium uptake. We identify 89 high-confidence interactors that link MCUC to several mitochondrial complexes and pathways, half of which are associated with human disease. As a proof-of-concept, we validate the mitochondrial intermembrane space protein EFHD1 as a binding partner of the MCUC subunits MCU, EMRE, and MCUB. We further show a MICU1-dependent inhibitory effect of EFHD1 on calcium uptake. Next, we systematically survey compensatory mechanisms and functional consequences of mitochondrial calcium dyshomeostasis by analyzing the MCU interactome upon EMRE, MCUB, MICU1, or MICU2 knockdown. While silencing EMRE reduces MCU interconnectivity, MCUB loss-of-function leads to a wider interaction network. Our study provides a comprehensive and high-confidence resource to gain insights into players and mechanisms regulating mitochondrial calcium signaling and their relevance in human diseases.

KW - Calcium Signaling

KW - Mitochondria

KW - Mitochondrial Calcium Uniporter

KW - Organelle

KW - Proteomics

U2 - 10.1038/s44318-024-00219-w

DO - 10.1038/s44318-024-00219-w

M3 - Journal article

C2 - 39261663

AN - SCOPUS:85203599731

SN - 0261-4189

VL - 43

SP - 5288

EP - 5326

JO - EMBO Journal

JF - EMBO Journal

IS - 21

ER -