Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease

Lindsey Van Haute; Petra Páleníková; Jia Xin Tang; Pavel A. Nash; Mariella T. Simon; Angela Pyle; Monika Oláhová; Christopher A. Powell; Pedro Rebelo-Guiomar; Alexander Stover; Michael Champion; Charulata Deshpande; Emma L. Baple; Karen L. Stals; Sian Ellard; Olivia Anselem; Clémence Molac; Giulia Petrilli; Laurence Loeuillet; Sarah Grotto; Tania Attie-Bitach; Jose E. Abdenur; Robert W. Taylor; Michal Minczuk

doi:10.1038/s44321-024-00172-5

Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease

Lindsey Van Haute, Petra Páleníková, Jia Xin Tang, Pavel A. Nash, Mariella T. Simon, Angela Pyle, Monika Oláhová, Christopher A. Powell, Pedro Rebelo-Guiomar, Alexander Stover, Michael Champion, Charulata Deshpande, Emma L. Baple, Karen L. Stals, Sian Ellard, Olivia Anselem, Clémence Molac, Giulia Petrilli, Laurence Loeuillet, Sarah GrottoTania Attie-Bitach, Jose E. Abdenur, Robert W. Taylor^*, Michal Minczuk^*

^*Corresponding author for this work

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

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Abstract

Pathogenic variants in either the mitochondrial or nuclear genomes are associated with a diverse group of human disorders characterized by impaired mitochondrial function. Within this group, an increasing number of families have been identified, where Mendelian genetic disorders implicate defective mitochondrial RNA biology. The PDE12 gene encodes the poly(A)-specific exoribonuclease, involved in the quality control of mitochondrial non-coding RNAs. Here, we report that disease-causing PDE12 variants in three unrelated families are associated with mitochondrial respiratory chain deficiencies and wide-ranging clinical presentations in utero and within the neonatal period, with muscle and brain involvement leading to marked cytochrome c oxidase (COX) deficiency in muscle and severe lactic acidosis. Whole exome sequencing of affected probands revealed novel, segregating bi-allelic missense PDE12 variants affecting conserved residues. Patient-derived primary fibroblasts demonstrate diminished steady-state levels of PDE12 protein, whilst mitochondrial poly(A)-tail RNA sequencing (MPAT-Seq) revealed an accumulation of spuriously polyadenylated mitochondrial RNA, consistent with perturbed function of PDE12 protein. Our data suggest that PDE12 regulates mitochondrial RNA processing and its loss results in neurological and muscular phenotypes.

Original language	English
Pages (from-to)	193-210
Number of pages	18
Journal	EMBO Molecular Medicine
Volume	17
Issue number	1
Early online date	20 Nov 2024
DOIs	https://doi.org/10.1038/s44321-024-00172-5
Publication status	Published - 13 Jan 2025

Keywords

Exome Sequencing
Lactic Acidosis
Mitochondrial Disease
RNA Processing
tRNA

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Van Haute, L., Páleníková, P., Tang, J. X., Nash, P. A., Simon, M. T., Pyle, A., Oláhová, M., Powell, C. A., Rebelo-Guiomar, P., Stover, A., Champion, M., Deshpande, C., Baple, E. L., Stals, K. L., Ellard, S., Anselem, O., Molac, C., Petrilli, G., Loeuillet, L., ... Minczuk, M. (2025). Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease. EMBO Molecular Medicine, 17(1), 193-210. https://doi.org/10.1038/s44321-024-00172-5

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title = "Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease",

abstract = "Pathogenic variants in either the mitochondrial or nuclear genomes are associated with a diverse group of human disorders characterized by impaired mitochondrial function. Within this group, an increasing number of families have been identified, where Mendelian genetic disorders implicate defective mitochondrial RNA biology. The PDE12 gene encodes the poly(A)-specific exoribonuclease, involved in the quality control of mitochondrial non-coding RNAs. Here, we report that disease-causing PDE12 variants in three unrelated families are associated with mitochondrial respiratory chain deficiencies and wide-ranging clinical presentations in utero and within the neonatal period, with muscle and brain involvement leading to marked cytochrome c oxidase (COX) deficiency in muscle and severe lactic acidosis. Whole exome sequencing of affected probands revealed novel, segregating bi-allelic missense PDE12 variants affecting conserved residues. Patient-derived primary fibroblasts demonstrate diminished steady-state levels of PDE12 protein, whilst mitochondrial poly(A)-tail RNA sequencing (MPAT-Seq) revealed an accumulation of spuriously polyadenylated mitochondrial RNA, consistent with perturbed function of PDE12 protein. Our data suggest that PDE12 regulates mitochondrial RNA processing and its loss results in neurological and muscular phenotypes.",

keywords = "Exome Sequencing, Lactic Acidosis, Mitochondrial Disease, RNA Processing, tRNA",

author = "\{Van Haute\}, Lindsey and Petra P{\'a}len{\'i}kov{\'a} and Tang, \{Jia Xin\} and Nash, \{Pavel A.\} and Simon, \{Mariella T.\} and Angela Pyle and Monika Ol{\'a}hov{\'a} and Powell, \{Christopher A.\} and Pedro Rebelo-Guiomar and Alexander Stover and Michael Champion and Charulata Deshpande and Baple, \{Emma L.\} and Stals, \{Karen L.\} and Sian Ellard and Olivia Anselem and Cl{\'e}mence Molac and Giulia Petrilli and Laurence Loeuillet and Sarah Grotto and Tania Attie-Bitach and Abdenur, \{Jose E.\} and Taylor, \{Robert W.\} and Michal Minczuk",

year = "2025",

month = jan,

day = "13",

doi = "10.1038/s44321-024-00172-5",

language = "English",

volume = "17",

pages = "193--210",

journal = "EMBO Molecular Medicine",

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Van Haute, L, Páleníková, P, Tang, JX, Nash, PA, Simon, MT, Pyle, A, Oláhová, M, Powell, CA, Rebelo-Guiomar, P, Stover, A, Champion, M, Deshpande, C, Baple, EL, Stals, KL, Ellard, S, Anselem, O, Molac, C, Petrilli, G, Loeuillet, L, Grotto, S, Attie-Bitach, T, Abdenur, JE, Taylor, RW & Minczuk, M 2025, 'Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease', EMBO Molecular Medicine, vol. 17, no. 1, pp. 193-210. https://doi.org/10.1038/s44321-024-00172-5

TY - JOUR

T1 - Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease

AU - Van Haute, Lindsey

AU - Páleníková, Petra

AU - Tang, Jia Xin

AU - Nash, Pavel A.

AU - Simon, Mariella T.

AU - Pyle, Angela

AU - Oláhová, Monika

AU - Powell, Christopher A.

AU - Rebelo-Guiomar, Pedro

AU - Stover, Alexander

AU - Champion, Michael

AU - Deshpande, Charulata

AU - Baple, Emma L.

AU - Stals, Karen L.

AU - Ellard, Sian

AU - Anselem, Olivia

AU - Molac, Clémence

AU - Petrilli, Giulia

AU - Loeuillet, Laurence

AU - Grotto, Sarah

AU - Attie-Bitach, Tania

AU - Abdenur, Jose E.

AU - Taylor, Robert W.

AU - Minczuk, Michal

PY - 2025/1/13

Y1 - 2025/1/13

N2 - Pathogenic variants in either the mitochondrial or nuclear genomes are associated with a diverse group of human disorders characterized by impaired mitochondrial function. Within this group, an increasing number of families have been identified, where Mendelian genetic disorders implicate defective mitochondrial RNA biology. The PDE12 gene encodes the poly(A)-specific exoribonuclease, involved in the quality control of mitochondrial non-coding RNAs. Here, we report that disease-causing PDE12 variants in three unrelated families are associated with mitochondrial respiratory chain deficiencies and wide-ranging clinical presentations in utero and within the neonatal period, with muscle and brain involvement leading to marked cytochrome c oxidase (COX) deficiency in muscle and severe lactic acidosis. Whole exome sequencing of affected probands revealed novel, segregating bi-allelic missense PDE12 variants affecting conserved residues. Patient-derived primary fibroblasts demonstrate diminished steady-state levels of PDE12 protein, whilst mitochondrial poly(A)-tail RNA sequencing (MPAT-Seq) revealed an accumulation of spuriously polyadenylated mitochondrial RNA, consistent with perturbed function of PDE12 protein. Our data suggest that PDE12 regulates mitochondrial RNA processing and its loss results in neurological and muscular phenotypes.

AB - Pathogenic variants in either the mitochondrial or nuclear genomes are associated with a diverse group of human disorders characterized by impaired mitochondrial function. Within this group, an increasing number of families have been identified, where Mendelian genetic disorders implicate defective mitochondrial RNA biology. The PDE12 gene encodes the poly(A)-specific exoribonuclease, involved in the quality control of mitochondrial non-coding RNAs. Here, we report that disease-causing PDE12 variants in three unrelated families are associated with mitochondrial respiratory chain deficiencies and wide-ranging clinical presentations in utero and within the neonatal period, with muscle and brain involvement leading to marked cytochrome c oxidase (COX) deficiency in muscle and severe lactic acidosis. Whole exome sequencing of affected probands revealed novel, segregating bi-allelic missense PDE12 variants affecting conserved residues. Patient-derived primary fibroblasts demonstrate diminished steady-state levels of PDE12 protein, whilst mitochondrial poly(A)-tail RNA sequencing (MPAT-Seq) revealed an accumulation of spuriously polyadenylated mitochondrial RNA, consistent with perturbed function of PDE12 protein. Our data suggest that PDE12 regulates mitochondrial RNA processing and its loss results in neurological and muscular phenotypes.

KW - Exome Sequencing

KW - Lactic Acidosis

KW - Mitochondrial Disease

KW - RNA Processing

KW - tRNA

UR - https://www.scopus.com/pages/publications/85209672774

U2 - 10.1038/s44321-024-00172-5

DO - 10.1038/s44321-024-00172-5

M3 - Article

C2 - 39567835

AN - SCOPUS:85209672774

SN - 1757-4676

VL - 17

SP - 193

EP - 210

JO - EMBO Molecular Medicine

JF - EMBO Molecular Medicine

IS - 1

ER -

Pathogenic PDE12 variants impair mitochondrial RNA processing causing neonatal mitochondrial disease

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