PPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy

Natalie M. Niemi; Lia R. Serrano; Laura K. Muehlbauer; Catherine E. Balnis; Lianjie Wei; Andrew J. Smith; Keri Lyn Kozul; Merima Forny; Olivia M. Connor; Edrees H. Rashan; Evgenia Shishkova; Kathryn L. Schueler; Mark P. Keller; Alan D. Attie; Jonathan R. Friedman; Julia K. Pagan; Joshua J. Coon; David J. Pagliarini

doi:10.1038/s41467-023-42069-w

PPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy

Natalie M. Niemi, Lia R. Serrano, Laura K. Muehlbauer, Catherine E. Balnis, Lianjie Wei, Andrew J. Smith, Keri Lyn Kozul, Merima Forny, Olivia M. Connor, Edrees H. Rashan, Evgenia Shishkova, Kathryn L. Schueler, Mark P. Keller, Alan D. Attie, Jonathan R. Friedman, Julia K. Pagan, Joshua J. Coon, David J. Pagliarini

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2 Scopus citations

Abstract

PPTC7 is a resident mitochondrial phosphatase essential for maintaining proper mitochondrial content and function. Newborn mice lacking Pptc7 exhibit aberrant mitochondrial protein phosphorylation, suffer from a range of metabolic defects, and fail to survive beyond one day after birth. Using an inducible knockout model, we reveal that loss of Pptc7 in adult mice causes marked reduction in mitochondrial mass and metabolic capacity with elevated hepatic triglyceride accumulation. Pptc7 knockout animals exhibit increased expression of the mitophagy receptors BNIP3 and NIX, and Pptc7 ^-/- mouse embryonic fibroblasts (MEFs) display a major increase in mitophagy that is reversed upon deletion of these receptors. Our phosphoproteomics analyses reveal a common set of elevated phosphosites between perinatal tissues, adult liver, and MEFs, including multiple sites on BNIP3 and NIX, and our molecular studies demonstrate that PPTC7 can directly interact with and dephosphorylate these proteins. These data suggest that Pptc7 deletion causes mitochondrial dysfunction via dysregulation of several metabolic pathways and that PPTC7 may directly regulate mitophagy receptor function or stability. Overall, our work reveals a significant role for PPTC7 in the mitophagic response and furthers the growing notion that management of mitochondrial protein phosphorylation is essential for ensuring proper organelle content and function.

Original language	English (US)
Article number	6431
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-42069-w
State	Published - Dec 2023

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Niemi, N. M., Serrano, L. R., Muehlbauer, L. K., Balnis, C. E., Wei, L., Smith, A. J., Kozul, K. L., Forny, M., Connor, O. M., Rashan, E. H., Shishkova, E., Schueler, K. L., Keller, M. P., Attie, A. D., Friedman, J. R., Pagan, J. K., Coon, J. J., & Pagliarini, D. J. (2023). PPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy. Nature communications, 14(1), Article 6431. https://doi.org/10.1038/s41467-023-42069-w

Niemi, NM, Serrano, LR, Muehlbauer, LK, Balnis, CE, Wei, L, Smith, AJ, Kozul, KL, Forny, M, Connor, OM, Rashan, EH, Shishkova, E, Schueler, KL, Keller, MP, Attie, AD, Friedman, JR, Pagan, JK, Coon, JJ & Pagliarini, DJ 2023, 'PPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy', Nature communications, vol. 14, no. 1, 6431. https://doi.org/10.1038/s41467-023-42069-w

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title = "PPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy",

abstract = "PPTC7 is a resident mitochondrial phosphatase essential for maintaining proper mitochondrial content and function. Newborn mice lacking Pptc7 exhibit aberrant mitochondrial protein phosphorylation, suffer from a range of metabolic defects, and fail to survive beyond one day after birth. Using an inducible knockout model, we reveal that loss of Pptc7 in adult mice causes marked reduction in mitochondrial mass and metabolic capacity with elevated hepatic triglyceride accumulation. Pptc7 knockout animals exhibit increased expression of the mitophagy receptors BNIP3 and NIX, and Pptc7 -/- mouse embryonic fibroblasts (MEFs) display a major increase in mitophagy that is reversed upon deletion of these receptors. Our phosphoproteomics analyses reveal a common set of elevated phosphosites between perinatal tissues, adult liver, and MEFs, including multiple sites on BNIP3 and NIX, and our molecular studies demonstrate that PPTC7 can directly interact with and dephosphorylate these proteins. These data suggest that Pptc7 deletion causes mitochondrial dysfunction via dysregulation of several metabolic pathways and that PPTC7 may directly regulate mitophagy receptor function or stability. Overall, our work reveals a significant role for PPTC7 in the mitophagic response and furthers the growing notion that management of mitochondrial protein phosphorylation is essential for ensuring proper organelle content and function.",

author = "Niemi, {Natalie M.} and Serrano, {Lia R.} and Muehlbauer, {Laura K.} and Balnis, {Catherine E.} and Lianjie Wei and Smith, {Andrew J.} and Kozul, {Keri Lyn} and Merima Forny and Connor, {Olivia M.} and Rashan, {Edrees H.} and Evgenia Shishkova and Schueler, {Kathryn L.} and Keller, {Mark P.} and Attie, {Alan D.} and Friedman, {Jonathan R.} and Pagan, {Julia K.} and Coon, {Joshua J.} and Pagliarini, {David J.}",

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doi = "10.1038/s41467-023-42069-w",

language = "English (US)",

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AU - Niemi, Natalie M.

AU - Serrano, Lia R.

AU - Muehlbauer, Laura K.

AU - Balnis, Catherine E.

AU - Wei, Lianjie

AU - Smith, Andrew J.

AU - Kozul, Keri Lyn

AU - Forny, Merima

AU - Connor, Olivia M.

AU - Rashan, Edrees H.

AU - Shishkova, Evgenia

AU - Schueler, Kathryn L.

AU - Keller, Mark P.

AU - Attie, Alan D.

AU - Friedman, Jonathan R.

AU - Pagan, Julia K.

AU - Coon, Joshua J.

AU - Pagliarini, David J.

PY - 2023/12

Y1 - 2023/12

N2 - PPTC7 is a resident mitochondrial phosphatase essential for maintaining proper mitochondrial content and function. Newborn mice lacking Pptc7 exhibit aberrant mitochondrial protein phosphorylation, suffer from a range of metabolic defects, and fail to survive beyond one day after birth. Using an inducible knockout model, we reveal that loss of Pptc7 in adult mice causes marked reduction in mitochondrial mass and metabolic capacity with elevated hepatic triglyceride accumulation. Pptc7 knockout animals exhibit increased expression of the mitophagy receptors BNIP3 and NIX, and Pptc7 -/- mouse embryonic fibroblasts (MEFs) display a major increase in mitophagy that is reversed upon deletion of these receptors. Our phosphoproteomics analyses reveal a common set of elevated phosphosites between perinatal tissues, adult liver, and MEFs, including multiple sites on BNIP3 and NIX, and our molecular studies demonstrate that PPTC7 can directly interact with and dephosphorylate these proteins. These data suggest that Pptc7 deletion causes mitochondrial dysfunction via dysregulation of several metabolic pathways and that PPTC7 may directly regulate mitophagy receptor function or stability. Overall, our work reveals a significant role for PPTC7 in the mitophagic response and furthers the growing notion that management of mitochondrial protein phosphorylation is essential for ensuring proper organelle content and function.

AB - PPTC7 is a resident mitochondrial phosphatase essential for maintaining proper mitochondrial content and function. Newborn mice lacking Pptc7 exhibit aberrant mitochondrial protein phosphorylation, suffer from a range of metabolic defects, and fail to survive beyond one day after birth. Using an inducible knockout model, we reveal that loss of Pptc7 in adult mice causes marked reduction in mitochondrial mass and metabolic capacity with elevated hepatic triglyceride accumulation. Pptc7 knockout animals exhibit increased expression of the mitophagy receptors BNIP3 and NIX, and Pptc7 -/- mouse embryonic fibroblasts (MEFs) display a major increase in mitophagy that is reversed upon deletion of these receptors. Our phosphoproteomics analyses reveal a common set of elevated phosphosites between perinatal tissues, adult liver, and MEFs, including multiple sites on BNIP3 and NIX, and our molecular studies demonstrate that PPTC7 can directly interact with and dephosphorylate these proteins. These data suggest that Pptc7 deletion causes mitochondrial dysfunction via dysregulation of several metabolic pathways and that PPTC7 may directly regulate mitophagy receptor function or stability. Overall, our work reveals a significant role for PPTC7 in the mitophagic response and furthers the growing notion that management of mitochondrial protein phosphorylation is essential for ensuring proper organelle content and function.

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PPTC7 maintains mitochondrial protein content by suppressing receptor-mediated mitophagy

Abstract

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