Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB

Donato D’Angelo; Víctor H. Sánchez-Vázquez; Benjamín Cartes-Saavedra; Denis Vecellio Reane; Ryan R. Cupo; Hilda Delgado de la Herran; Giorgia Ghirardo; James Shorter; Ron A. Wevers; Saskia B. Wortmann; Fabiana Perocchi; Rosario Rizzuto; Anna Raffaello; György Hajnóczky

doi:10.1038/s41467-025-57641-9

Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB

Donato D’Angelo, Víctor H. Sánchez-Vázquez, Benjamín Cartes-Saavedra, Denis Vecellio Reane, Ryan R. Cupo, Hilda Delgado de la Herran, Giorgia Ghirardo, James Shorter, Ron A. Wevers, Saskia B. Wortmann, Fabiana Perocchi, Rosario Rizzuto, Anna Raffaello, György Hajnóczky

Associate Professorship of Systems Biology of Metabolism

Research output: Contribution to journal › Article › peer-review

Abstract

Cells utilize protein disaggregases to avoid abnormal protein aggregation that causes many diseases. Among these, caseinolytic peptidase B protein homolog (CLPB) is localized in the mitochondrial intermembrane space and linked to human disease. Upon CLPB loss, MICU1 and MICU2, regulators of the mitochondrial calcium uniporter complex (mtCU), and OPA1, a main mediator of mitochondrial fusion, become insoluble but the functional outcome remains unclear. In this work we demonstrate that CLPB is required to maintain mitochondrial calcium signalling and fusion dynamics. CLPB loss results in altered mtCU composition, interfering with mitochondrial calcium uptake independently of cytosolic calcium and mitochondrial membrane potential. Additionally, OPA1 decreases, and aggregation occurs, accompanied by mitochondrial fragmentation. Disease-associated mutations in the CLPB gene present in skin fibroblasts from patients also display mitochondrial calcium and structural changes. Thus, mtCU and fusion activity are dependent on CLPB, and their impairments might contribute to the disease caused by CLPB variants.

Original language	English
Article number	2810
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-57641-9
State	Published - Dec 2025

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D’Angelo, D., Sánchez-Vázquez, V. H., Cartes-Saavedra, B., Vecellio Reane, D., Cupo, R. R., Delgado de la Herran, H., Ghirardo, G., Shorter, J., Wevers, R. A., Wortmann, S. B., Perocchi, F., Rizzuto, R., Raffaello, A., & Hajnóczky, G. (2025). Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB. Nature Communications, 16(1), Article 2810. https://doi.org/10.1038/s41467-025-57641-9

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title = "Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB",

abstract = "Cells utilize protein disaggregases to avoid abnormal protein aggregation that causes many diseases. Among these, caseinolytic peptidase B protein homolog (CLPB) is localized in the mitochondrial intermembrane space and linked to human disease. Upon CLPB loss, MICU1 and MICU2, regulators of the mitochondrial calcium uniporter complex (mtCU), and OPA1, a main mediator of mitochondrial fusion, become insoluble but the functional outcome remains unclear. In this work we demonstrate that CLPB is required to maintain mitochondrial calcium signalling and fusion dynamics. CLPB loss results in altered mtCU composition, interfering with mitochondrial calcium uptake independently of cytosolic calcium and mitochondrial membrane potential. Additionally, OPA1 decreases, and aggregation occurs, accompanied by mitochondrial fragmentation. Disease-associated mutations in the CLPB gene present in skin fibroblasts from patients also display mitochondrial calcium and structural changes. Thus, mtCU and fusion activity are dependent on CLPB, and their impairments might contribute to the disease caused by CLPB variants.",

author = "Donato D{\textquoteright}Angelo and S{\'a}nchez-V{\'a}zquez, {V{\'i}ctor H.} and Benjam{\'i}n Cartes-Saavedra and {Vecellio Reane}, Denis and Cupo, {Ryan R.} and {Delgado de la Herran}, Hilda and Giorgia Ghirardo and James Shorter and Wevers, {Ron A.} and Wortmann, {Saskia B.} and Fabiana Perocchi and Rosario Rizzuto and Anna Raffaello and Gy{\"o}rgy Hajn{\'o}czky",

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D’Angelo, D, Sánchez-Vázquez, VH, Cartes-Saavedra, B, Vecellio Reane, D, Cupo, RR, Delgado de la Herran, H, Ghirardo, G, Shorter, J, Wevers, RA, Wortmann, SB, Perocchi, F, Rizzuto, R, Raffaello, A & Hajnóczky, G 2025, 'Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB', Nature Communications, vol. 16, no. 1, 2810. https://doi.org/10.1038/s41467-025-57641-9

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T1 - Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB

AU - D’Angelo, Donato

AU - Sánchez-Vázquez, Víctor H.

AU - Cartes-Saavedra, Benjamín

AU - Vecellio Reane, Denis

AU - Cupo, Ryan R.

AU - Delgado de la Herran, Hilda

AU - Ghirardo, Giorgia

AU - Shorter, James

AU - Wevers, Ron A.

AU - Wortmann, Saskia B.

AU - Perocchi, Fabiana

AU - Rizzuto, Rosario

AU - Raffaello, Anna

AU - Hajnóczky, György

PY - 2025/12

Y1 - 2025/12

N2 - Cells utilize protein disaggregases to avoid abnormal protein aggregation that causes many diseases. Among these, caseinolytic peptidase B protein homolog (CLPB) is localized in the mitochondrial intermembrane space and linked to human disease. Upon CLPB loss, MICU1 and MICU2, regulators of the mitochondrial calcium uniporter complex (mtCU), and OPA1, a main mediator of mitochondrial fusion, become insoluble but the functional outcome remains unclear. In this work we demonstrate that CLPB is required to maintain mitochondrial calcium signalling and fusion dynamics. CLPB loss results in altered mtCU composition, interfering with mitochondrial calcium uptake independently of cytosolic calcium and mitochondrial membrane potential. Additionally, OPA1 decreases, and aggregation occurs, accompanied by mitochondrial fragmentation. Disease-associated mutations in the CLPB gene present in skin fibroblasts from patients also display mitochondrial calcium and structural changes. Thus, mtCU and fusion activity are dependent on CLPB, and their impairments might contribute to the disease caused by CLPB variants.

AB - Cells utilize protein disaggregases to avoid abnormal protein aggregation that causes many diseases. Among these, caseinolytic peptidase B protein homolog (CLPB) is localized in the mitochondrial intermembrane space and linked to human disease. Upon CLPB loss, MICU1 and MICU2, regulators of the mitochondrial calcium uniporter complex (mtCU), and OPA1, a main mediator of mitochondrial fusion, become insoluble but the functional outcome remains unclear. In this work we demonstrate that CLPB is required to maintain mitochondrial calcium signalling and fusion dynamics. CLPB loss results in altered mtCU composition, interfering with mitochondrial calcium uptake independently of cytosolic calcium and mitochondrial membrane potential. Additionally, OPA1 decreases, and aggregation occurs, accompanied by mitochondrial fragmentation. Disease-associated mutations in the CLPB gene present in skin fibroblasts from patients also display mitochondrial calcium and structural changes. Thus, mtCU and fusion activity are dependent on CLPB, and their impairments might contribute to the disease caused by CLPB variants.

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Dependence of mitochondrial calcium signalling and dynamics on the disaggregase, CLPB

Abstract

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