Search results for "MFN2"

showing 8 items of 8 documents

The Effect of a Novel c.820C>T (Arg274Trp) Mutation in the Mitofusin 2 Gene on Fibroblast Metabolism and Clinical Manifestation in a Patient

2017

Charcot-Marie-Tooth disease type 2A (CMT2A) is an autosomal dominant axonal peripheral neuropathy caused by mutations in the mitofusin 2 gene (MFN2). Mitofusin 2 is a GTPase protein present in the outer mitochondrial membrane and responsible for regulation of mitochondrial network architecture via the fusion of mitochondria. As that fusion process is known to be strongly dependent on the GTPase activity of mitofusin 2, it is postulated that the MFN2 mutation within the GTPase domain may lead to impaired GTPase activity, and in turn to mitochondrial dysfunction. The work described here has therefore sought to verify the effects of MFN2 mutation within its GTPase domain on mitochondrial and e…

0301 basic medicineMaleHydrolasesMutantMFN2lcsh:MedicineGTPaseMitochondrionmedicine.disease_causeEndoplasmic ReticulumBiochemistryGTP Phosphohydrolases0302 clinical medicineMental RetardationAnimal CellsCharcot-Marie-Tooth DiseaseMedicine and Health SciencesMissense mutationlcsh:ScienceEnergy-Producing OrganellesCells CulturedConnective Tissue CellsGeneticsMutationMultidisciplinarySecretory PathwayOrganic CompoundsMonosaccharidesTryptophanMitochondrial DNACell biologyMitochondriaEnzymesNucleic acidsChemistryNeurologyConnective TissueCell ProcessesPhysical SciencesCellular Structures and OrganellesCellular TypesAnatomyResearch ArticleForms of DNACarbohydratesMutation MissenseBiologyBioenergeticsArgininePolymorphism Single NucleotideMitochondrial Proteins03 medical and health sciencesMitofusin-2Young AdultmedicineGeneticsHumansEndoplasmic reticulumlcsh:ROrganic ChemistryChemical CompoundsBiology and Life SciencesProteinsCell BiologyDNAFibroblastsGuanosine Triphosphatase030104 developmental biologyBiological TissueGlucoseAmino Acid SubstitutionCase-Control StudiesMutationEnzymologylcsh:Q030217 neurology & neurosurgeryPLoS ONE
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Phosphoproteomics of the developing heart identifies PERM1 - An outer mitochondrial membrane protein.

2021

Heart development relies on PTMs that control cardiomyocyte proliferation, differentiation and cardiac morphogenesis. We generated a map of phosphorylation sites during the early stages of cardiac postnatal development in mice; we quantified over 10,000 phosphorylation sites and 5000 proteins that were assigned to different pathways. Analysis of mitochondrial proteins led to the identification of PGC-1- and ERR-induced regulator in muscle 1 (PERM1), which is specifically expressed in skeletal muscle and heart tissue and associates with the outer mitochondrial membrane. We demonstrate PERM1 is subject to rapid changes mediated by the UPS through phosphorylation of its PEST motif by casein ki…

0301 basic medicineProteomicsOrganogenesisMFN2Muscle ProteinsP70-S6 Kinase 1030204 cardiovascular system & hematologyMitochondrionMitochondria Heart03 medical and health sciencesMice0302 clinical medicineCa2+/calmodulin-dependent protein kinaseAnimalsMolecular BiologyMitochondrial transportMice KnockoutChemistryMyocardiumPhosphoproteomicsMembrane ProteinsHeartLipid MetabolismPhosphoproteinsSolute carrier familyCell biology030104 developmental biologyMitochondrial MembranesPhosphorylationCardiology and Cardiovascular MedicineJournal of molecular and cellular cardiology
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2020

Mitochondrial fusion and fission tailors the mitochondrial shape to changes in cellular homeostasis. Players of this process are the mitofusins, which regulate fusion of the outer mitochondrial membrane, and the fission protein DRP1. Upon specific stimuli, DRP1 translocates to the mitochondria, where it interacts with its receptors FIS1, MFF, and MID49/51. Another fission factor of clinical relevance is GDAP1. Here, we identify and discuss cysteine residues of these proteins that are conserved in phylogenetically distant organisms and which represent potential sites of posttranslational redox modifications. We reveal that worms and flies possess only a single mitofusin, which in vertebrates…

FIS1endocrine systemmitochondrial fusionChemistryMFN2MFN1Cellular homeostasisGeneral MedicineMitochondrionGenomeCysteineCell biologyCells
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Mitochondrial dynamics in type 2 diabetes: Pathophysiological implications

2017

Mitochondria play a key role in maintaining cellular metabolic homeostasis. These organelles have a high plasticity and are involved in dynamic processes such as mitochondrial fusion and fission, mitophagy and mitochondrial biogenesis. Type 2 diabetes is characterised by mitochondrial dysfunction, high production of reactive oxygen species (ROS) and low levels of ATP. Mitochondrial fusion is modulated by different proteins, including mitofusin-1 (MFN1), mitofusin-2 (MFN2) and optic atrophy (OPA-1), while fission is controlled by mitochondrial fission 1 (FIS1), dynamin-related protein 1 (DRP1) and mitochondrial fission factor (MFF). PARKIN and (PTEN)-induced putative kinase 1 (PINK1) partici…

MiD51 mitochondrial dynamics proteins of 51 kDaΔΨm mitochondrial membrane potential0301 basic medicineMitochondrial fission factorClinical BiochemistryMitochondrial DegradationMFN2Review ArticleTXNIP thioredoxin interacting proteinMitochondrial DynamicsBiochemistryAdenosine TriphosphateGRP78 78 kDa glucose-regulated proteinMFF mitochondrial fission factorMFN2 mitofusin 2TRX2 thioredoxin 2Redox biologylcsh:QH301-705.5NF-κB nuclear factor kappa Blcsh:R5-920MitophagyType 2 diabetesDRP1 dynamin-related protein 1FIS1 fission protein 1BNIP3 BCL2/adenovirus E1B 19 kDa interacting protein 3MitochondriaOPA1 optic atrophy 1SIRT1/3 sirtuin 1/3Biochemistrymitochondrial fusionTGF-β1 transforming growth factor-β1Mitochondrial fissionOMM outer mitochondrial membranelcsh:Medicine (General)MiD49 mitochondrial dynamics proteins of 49Nox 4 NADPH oxidase-4IMM inner mitochondrial membraneFIS1ATF6 activating transcription factor 6PINK1mTOR mammalian target of rapamycinCHOP C/EBP homologous proteinBiologymdivi-1 mitochondrial division inhibitor-1Mitochondrial Proteins03 medical and health sciencesROS reactive oxygen speciessXBP1 spliced X-box binding protein 1UCP-1 uncoupling protein-1MFN1 mitofusin 1SOD superoxide dismutaseLC3 1 A/1B-light chain 3HumansPINK1 (PTEN)-induced putative kinase 1S3 15-OxospiramilactoneOrganic ChemistrymtDNA mitochondrial DNAAMPK AMP-activated protein kinase030104 developmental biologyDiabetes Mellitus Type 2Mitochondrial biogenesislcsh:Biology (General)Oxidative stressp38 MAPK p38 mitogen-activated protein kinasep62/SQSTM1 ubiquitin and sequestosome-1Reactive Oxygen SpeciesRedox Biology
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The thiol switch C684 in Mitofusin-2 mediates redox-induced alterations of mitochondrial shape and respiration

2017

Mitofusin-2 (MFN2) is a GTPase in the outer mitochondrial membrane involved in the regulation of mitochondrial fusion and bioenergetics. MFN2 also plays a role in mitochondrial fusion induced by changes in the intracellular redox state. Adding oxidized glutathione (GSSG), the core cellular stress indicator, to mitochondrial preparations stimulates mitochondrial fusion by inducing disulphide bond-mediated oligomer formation of MFN2 and its homolog MFN1 which involve cysteine 684 (C684) of MFN2. Mitochondrial hyperfusion represents an adaptive stress response that confers transient protection by increasing mitochondrial ATP production but how this depends on the thiol switch C684 in MFN2 has …

Mice Knockout0301 basic medicineCell RespirationMFN2Cell BiologyOxidative phosphorylationMitochondrionBiologyMitochondrial apoptosis-induced channelGTP PhosphohydrolasesMitochondriaCell biologyMice03 medical and health sciencesCellular and Molecular NeuroscienceMitofusin-2030104 developmental biologymitochondrial fusionAnimalsMFN1Sulfhydryl CompoundsATP–ADP translocaseCell ShapeOxidation-ReductionCells CulturedNeurochemistry International
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Empagliflozin Induces White Adipocyte Browning and Modulates Mitochondrial Dynamics in KK Cg-Ay/J Mice and Mouse Adipocytes

2021

Background: White adipose tissue (WAT) browning is a promising target for obesity prevention and treatment. Empagliflozin has emerged as an agent with weight-loss potential in clinical and in vivo studies, but the mechanisms underlying its effect are not fully understood. Here, we investigated whether empagliflozin could induce WAT browning and mitochondrial alterations in KK Cg-Ay/J (KKAy) mice, and explored the mechanisms of its effects.Methods: Eight-week-old male KKAy mice were administered empagliflozin or saline for 8 weeks and compared with control C57BL/6J mice. Mature 3T3-L1 adipocytes were treated in the presence or absence of empagliflozin. Mitochondrial biosynthesis, dynamics, a…

browningmedicine.medical_specialtyfusionChemistrytype 2 diabetes mellitusPhysiologyMFN2AMPKsodium-glucose co-transporter-2 inhibitorWhite adipose tissueMitochondrionThermogeninmitochondrial dynamicsmitochondriamedicine.anatomical_structureEndocrinologyMitochondrial biogenesisPhysiology (medical)Internal medicineBrown adipose tissueEmpagliflozinmedicineQP1-981Original ResearchFrontiers in Physiology
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The Charcot Marie Tooth Disease Mutation R94Q in MFN2 Decreases ATP Production but Increases Mitochondrial Respiration under Conditions of Mild Oxida…

2019

Charcot-Marie tooth disease is a hereditary polyneuropathy caused by mutations in Mitofusin-2 (MFN2), a GTPase in the outer mitochondrial membrane involved in the regulation of mitochondrial fusion and bioenergetics. Autosomal-dominant inheritance of a R94Q mutation in MFN2 causes the axonal subtype 2A2A which is characterized by early onset and progressive atrophy of distal muscles caused by motoneuronal degeneration. Here, we studied mitochondrial shape, respiration, cytosolic, and mitochondrial ATP content as well as mitochondrial quality control in MFN2-deficient fibroblasts stably expressing wildtype or R94Q MFN2. Under normal culture conditions, R94Q cells had slightly more fragmented…

cell_developmental_biologyBioenergeticsmitochondrial fusionChemistryMitophagymedicineMFN2PINK1Mitochondrionmedicine.disease_causePyruvate kinaseOxidative stressCell biology
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2019

Charcot–Marie tooth disease is a hereditary polyneuropathy caused by mutations in Mitofusin-2 (MFN2), a GTPase in the outer mitochondrial membrane involved in the regulation of mitochondrial fusion and bioenergetics. Autosomal-dominant inheritance of a R94Q mutation in MFN2 causes the axonal subtype 2A2A which is characterized by early onset and progressive atrophy of distal muscles caused by motoneuronal degeneration. Here, we studied mitochondrial shape, respiration, cytosolic, and mitochondrial ATP content as well as mitochondrial quality control in MFN2-deficient fibroblasts stably expressing wildtype or R94Q MFN2. Under normal culture conditions, R94Q cells had slightly more fragmented…

mitochondrial fusionBioenergeticsChemistryMitophagyMFN2medicinePINK1General MedicineMitochondrionmedicine.disease_causeOxidative stressPyruvate kinaseCell biologyCells
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