Aberrant cyclin C nuclear release induces mitochondrial fragmentation and dysfunction in MED13L syndrome fibroblasts

Kai Ti Chang; Jan Jezek; Alicia N. Campbell; David C. Stieg; Zachary A. Kiss; Kevin Kemper; Ping Jiang; Hyung Ok Lee; Warren D. Kruger; Peter M. van Hasselt; Randy Strich

doi:10.1016/j.isci.2022.103823

Aberrant cyclin C nuclear release induces mitochondrial fragmentation and dysfunction in MED13L syndrome fibroblasts

Kai Ti Chang, Jan Jezek, Alicia N. Campbell, David C. Stieg, Zachary A. Kiss, Kevin Kemper, Ping Jiang, Hyung Ok Lee, Warren D. Kruger, Peter M. van Hasselt, Randy Strich^*

^*Corresponding author for this work

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

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Abstract

MED13L syndrome is a haploinsufficiency developmental disorder characterized by intellectual disability, heart malformation, and hypotonia. MED13L controls transcription by tethering the cyclin C-Cdk8 kinase module (CKM) to the Mediator complex. In addition, cyclin C has CKM-independent roles in the cytoplasm directing stress-induced mitochondrial fragmentation and regulated cell death. Unstressed MED13L^S1497^F/fs patient fibroblasts exhibited aberrant cytoplasmic cyclin C localization, mitochondrial fragmentation, and a 6-fold reduction in respiration. In addition, the fibroblasts exhibited reduced mtDNA copy number, reduction in mitochondrial membrane integrity, and hypersensitivity to oxidative stress. Finally, transcriptional analysis of MED13L mutant fibroblasts revealed reduced mRNA levels for several genes necessary for normal mitochondrial function. Pharmacological or genetic approaches preventing cyclin C-mitochondrial localization corrected the fragmented mitochondrial phenotype and partially restored organelle function. In conclusion, this study found that mitochondrial dysfunction is an underlying defect in cells harboring the MED13L^S1497^F/fs allele and identified cyclin C mis-localization as the likely cause. These results provide a new avenue for understanding this disorder.

Original language	English
Article number	103823
Journal	iScience
Volume	25
Issue number	2
DOIs	https://doi.org/10.1016/j.isci.2022.103823
Publication status	Published - 18 Feb 2022

Keywords

Biochemistry
Biological sciences
Cell biology

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10.1016/j.isci.2022.103823Licence: CC BY-NC-ND

1-s2.0-S2589004222000931-mainFinal published version, 2.66 MBLicence: CC BY-NC-ND

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title = "Aberrant cyclin C nuclear release induces mitochondrial fragmentation and dysfunction in MED13L syndrome fibroblasts",

abstract = "MED13L syndrome is a haploinsufficiency developmental disorder characterized by intellectual disability, heart malformation, and hypotonia. MED13L controls transcription by tethering the cyclin C-Cdk8 kinase module (CKM) to the Mediator complex. In addition, cyclin C has CKM-independent roles in the cytoplasm directing stress-induced mitochondrial fragmentation and regulated cell death. Unstressed MED13LS1497F/fs patient fibroblasts exhibited aberrant cytoplasmic cyclin C localization, mitochondrial fragmentation, and a 6-fold reduction in respiration. In addition, the fibroblasts exhibited reduced mtDNA copy number, reduction in mitochondrial membrane integrity, and hypersensitivity to oxidative stress. Finally, transcriptional analysis of MED13L mutant fibroblasts revealed reduced mRNA levels for several genes necessary for normal mitochondrial function. Pharmacological or genetic approaches preventing cyclin C-mitochondrial localization corrected the fragmented mitochondrial phenotype and partially restored organelle function. In conclusion, this study found that mitochondrial dysfunction is an underlying defect in cells harboring the MED13LS1497F/fs allele and identified cyclin C mis-localization as the likely cause. These results provide a new avenue for understanding this disorder.",

keywords = "Biochemistry, Biological sciences, Cell biology",

author = "Chang, {Kai Ti} and Jan Jezek and Campbell, {Alicia N.} and Stieg, {David C.} and Kiss, {Zachary A.} and Kevin Kemper and Ping Jiang and Lee, {Hyung Ok} and Kruger, {Warren D.} and {van Hasselt}, {Peter M.} and Randy Strich",

note = "{\textcopyright} 2022 The Author(s).",

year = "2022",

month = feb,

day = "18",

doi = "10.1016/j.isci.2022.103823",

language = "English",

volume = "25",

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T1 - Aberrant cyclin C nuclear release induces mitochondrial fragmentation and dysfunction in MED13L syndrome fibroblasts

AU - Chang, Kai Ti

AU - Jezek, Jan

AU - Campbell, Alicia N.

AU - Stieg, David C.

AU - Kiss, Zachary A.

AU - Kemper, Kevin

AU - Jiang, Ping

AU - Lee, Hyung Ok

AU - Kruger, Warren D.

AU - van Hasselt, Peter M.

AU - Strich, Randy

PY - 2022/2/18

Y1 - 2022/2/18

N2 - MED13L syndrome is a haploinsufficiency developmental disorder characterized by intellectual disability, heart malformation, and hypotonia. MED13L controls transcription by tethering the cyclin C-Cdk8 kinase module (CKM) to the Mediator complex. In addition, cyclin C has CKM-independent roles in the cytoplasm directing stress-induced mitochondrial fragmentation and regulated cell death. Unstressed MED13LS1497F/fs patient fibroblasts exhibited aberrant cytoplasmic cyclin C localization, mitochondrial fragmentation, and a 6-fold reduction in respiration. In addition, the fibroblasts exhibited reduced mtDNA copy number, reduction in mitochondrial membrane integrity, and hypersensitivity to oxidative stress. Finally, transcriptional analysis of MED13L mutant fibroblasts revealed reduced mRNA levels for several genes necessary for normal mitochondrial function. Pharmacological or genetic approaches preventing cyclin C-mitochondrial localization corrected the fragmented mitochondrial phenotype and partially restored organelle function. In conclusion, this study found that mitochondrial dysfunction is an underlying defect in cells harboring the MED13LS1497F/fs allele and identified cyclin C mis-localization as the likely cause. These results provide a new avenue for understanding this disorder.

AB - MED13L syndrome is a haploinsufficiency developmental disorder characterized by intellectual disability, heart malformation, and hypotonia. MED13L controls transcription by tethering the cyclin C-Cdk8 kinase module (CKM) to the Mediator complex. In addition, cyclin C has CKM-independent roles in the cytoplasm directing stress-induced mitochondrial fragmentation and regulated cell death. Unstressed MED13LS1497F/fs patient fibroblasts exhibited aberrant cytoplasmic cyclin C localization, mitochondrial fragmentation, and a 6-fold reduction in respiration. In addition, the fibroblasts exhibited reduced mtDNA copy number, reduction in mitochondrial membrane integrity, and hypersensitivity to oxidative stress. Finally, transcriptional analysis of MED13L mutant fibroblasts revealed reduced mRNA levels for several genes necessary for normal mitochondrial function. Pharmacological or genetic approaches preventing cyclin C-mitochondrial localization corrected the fragmented mitochondrial phenotype and partially restored organelle function. In conclusion, this study found that mitochondrial dysfunction is an underlying defect in cells harboring the MED13LS1497F/fs allele and identified cyclin C mis-localization as the likely cause. These results provide a new avenue for understanding this disorder.

KW - Biochemistry

KW - Biological sciences

KW - Cell biology

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U2 - 10.1016/j.isci.2022.103823

DO - 10.1016/j.isci.2022.103823

M3 - Article

C2 - 35198885

AN - SCOPUS:85124292513

VL - 25

JO - iScience

JF - iScience

IS - 2

M1 - 103823

ER -

Aberrant cyclin C nuclear release induces mitochondrial fragmentation and dysfunction in MED13L syndrome fibroblasts

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