MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.

MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.

Mutations in mitochondrial replicative polymerase PolγA lead to progressive external ophthalmoplegia (PEO). While PolγA is the known central player in mitochondrial DNA (mtDNA) replication, it is unknown whether a regulatory process exists on the mitochondrial outer membrane which controlled its ent...

Full description

Bibliographic Details
Main Authors: Mansoor Hussain, Aftab Mohammed, Shabnam Saifi, Aamir Khan, Ekjot Kaur, Swati Priya, Himanshi Agarwal, Sagar Sengupta
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2021-03-01
Series:PLoS Biology
Online Access:https://doi.org/10.1371/journal.pbio.3001139
id doaj-32c52093e433441ca8c4210df0a77d29
record_format Article
spelling doaj-32c52093e433441ca8c4210df0a77d292021-07-29T04:34:21ZengPublic Library of Science (PLoS)PLoS Biology1544-91731545-78852021-03-01193e300113910.1371/journal.pbio.3001139MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.Mansoor HussainAftab MohammedShabnam SaifiAamir KhanEkjot KaurSwati PriyaHimanshi AgarwalSagar SenguptaMutations in mitochondrial replicative polymerase PolγA lead to progressive external ophthalmoplegia (PEO). While PolγA is the known central player in mitochondrial DNA (mtDNA) replication, it is unknown whether a regulatory process exists on the mitochondrial outer membrane which controlled its entry into the mitochondria. We now demonstrate that PolγA is ubiquitylated by mitochondrial E3 ligase, MITOL (or MARCH5, RNF153). Ubiquitylation in wild-type (WT) PolγA occurs at Lysine 1060 residue via K6 linkage. Ubiquitylation of PolγA negatively regulates its binding to Tom20 and thereby its mitochondrial entry. While screening different PEO patients for mitochondrial entry, we found that a subset of the PolγA mutants is hyperubiquitylated by MITOL and interact less with Tom20. These PolγA variants cannot enter into mitochondria, instead becomes enriched in the insoluble fraction and undergo enhanced degradation. Hence, mtDNA replication, as observed via BrdU incorporation into the mtDNA, was compromised in these PEO mutants. However, by manipulating their ubiquitylation status by 2 independent techniques, these PEO mutants were reactivated, which allowed the incorporation of BrdU into mtDNA. Thus, regulated entry of non-ubiquitylated PolγA may have beneficial consequences for certain PEO patients.https://doi.org/10.1371/journal.pbio.3001139
collection DOAJ
language English
format Article
sources DOAJ
author Mansoor Hussain
Aftab Mohammed
Shabnam Saifi
Aamir Khan
Ekjot Kaur
Swati Priya
Himanshi Agarwal
Sagar Sengupta
spellingShingle Mansoor Hussain
Aftab Mohammed
Shabnam Saifi
Aamir Khan
Ekjot Kaur
Swati Priya
Himanshi Agarwal
Sagar Sengupta
MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.
PLoS Biology
author_facet Mansoor Hussain
Aftab Mohammed
Shabnam Saifi
Aamir Khan
Ekjot Kaur
Swati Priya
Himanshi Agarwal
Sagar Sengupta
author_sort Mansoor Hussain
title MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.
title_short MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.
title_full MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.
title_fullStr MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.
title_full_unstemmed MITOL-dependent ubiquitylation negatively regulates the entry of PolγA into mitochondria.
title_sort mitol-dependent ubiquitylation negatively regulates the entry of polγa into mitochondria.
publisher Public Library of Science (PLoS)
series PLoS Biology
issn 1544-9173
1545-7885
publishDate 2021-03-01
description Mutations in mitochondrial replicative polymerase PolγA lead to progressive external ophthalmoplegia (PEO). While PolγA is the known central player in mitochondrial DNA (mtDNA) replication, it is unknown whether a regulatory process exists on the mitochondrial outer membrane which controlled its entry into the mitochondria. We now demonstrate that PolγA is ubiquitylated by mitochondrial E3 ligase, MITOL (or MARCH5, RNF153). Ubiquitylation in wild-type (WT) PolγA occurs at Lysine 1060 residue via K6 linkage. Ubiquitylation of PolγA negatively regulates its binding to Tom20 and thereby its mitochondrial entry. While screening different PEO patients for mitochondrial entry, we found that a subset of the PolγA mutants is hyperubiquitylated by MITOL and interact less with Tom20. These PolγA variants cannot enter into mitochondria, instead becomes enriched in the insoluble fraction and undergo enhanced degradation. Hence, mtDNA replication, as observed via BrdU incorporation into the mtDNA, was compromised in these PEO mutants. However, by manipulating their ubiquitylation status by 2 independent techniques, these PEO mutants were reactivated, which allowed the incorporation of BrdU into mtDNA. Thus, regulated entry of non-ubiquitylated PolγA may have beneficial consequences for certain PEO patients.
url https://doi.org/10.1371/journal.pbio.3001139
work_keys_str_mv AT mansoorhussain mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT aftabmohammed mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT shabnamsaifi mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT aamirkhan mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT ekjotkaur mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT swatipriya mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT himanshiagarwal mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
AT sagarsengupta mitoldependentubiquitylationnegativelyregulatestheentryofpolgaintomitochondria
_version_ 1721259405098352640

Similar Items