0000000000164261

AUTHOR

Marius W. Baeken

0000-0002-7223-8048

showing 4 related works from this author

Retrotransposon activation by distressed mitochondria in neurons

2020

Retrotransposon activation occurs in a variety of neurological disorders including multiple sclerosis and Alzheimer's Disease. While the origins of disease-related retrotransposon activation have remained mostly unidentified, this phenomenon may well contribute to disease progression by inducing inflammation, disrupting transcription and, potentially, genomic insertion. Here, we report that the inhibition of mitochondrial respiratory chain complex I by pharmacological agents widely used to model Parkinson's disease leads to a significant increase in expression of the ORF1 protein of the long interspersed nucleotide element 1 (LINE1) retrotransposon in human dopaminergic LUHMES cells. These …

Male0301 basic medicineParkinson's diseaseRetroelementsBiophysicsInflammationRetrotransposonMitochondrionBiologyBiochemistryCell Line03 medical and health sciences0302 clinical medicineMesencephalonTranscription (biology)medicineAnimalsHumansMitochondrial respiratory chain complex IMolecular BiologyNeuronsElectron Transport Complex INeurodegenerationfood and beveragesCell BiologyDNA Methylationmedicine.diseaseMitochondriaCell biologyMice Inbred C57BLLong Interspersed Nucleotide Elements030104 developmental biology030220 oncology & carcinogenesisDNA methylationmedicine.symptomBiochemical and Biophysical Research Communications
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Novel Insights into the Cellular Localization and Regulation of the Autophagosomal Proteins LC3A, LC3B and LC3C

2020

Macroautophagy is a conserved degradative process for maintaining cellular homeostasis and plays a key role in aging and various human disorders. The microtubule-associated protein 1A/1B light chain 3B (MAP1LC3B or LC3B) is commonly analyzed as a key marker for autophagosomes and as a proxy for autophagic flux. Three paralogues of the LC3 gene exist in humans: LC3A, LC3B and LC3C. The molecular function, regulation and cellular localization of LC3A and LC3C have not been investigated frequently, even if a similar function to that described for LC3B appears likely. Here, we have selectively decapacitated LC3B by three separate strategies in primary human fibroblasts and analyzed the evoked e…

autophagysequestosome 1 (p62)LC3CATG8GABARAPGABARAPCellular homeostasisProtein lipidationsirtuin 1ArticleCell LineAntibody SpecificityHumansSirtuinsAmino Acid SequenceLC3BRNA Small InterferingLC3Alcsh:QH301-705.5PhylogenyCellular localizationCell NucleusBinding SitesbiologyChemistrySirtuin 1AutophagosomesAutophagy-Related Protein 8 FamilyGeneral MedicineFibroblastsLipidsCell biologyProtein Transportlcsh:Biology (General)Gene Knockdown TechniquesSirtuinbiology.proteinApoptosis Regulatory ProteinsMicrotubule-Associated ProteinsATG8MAP1LC3BSubcellular FractionsCells
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On the origin of BAG(3) and its consequences for an expansion of BAG3's role in protein homeostasis

2021

The B-cell CLL 2-associated athanogene (BAG) protein family in general and BAG3, in particular, are pivotal elements of cellular protein homeostasis, with BAG3 playing a major role in macroautophagy. In particular, in the contexts of senescence and degeneration, BAG3 has exhibited an essential role often related to its capabilities to organize and remove aggregated proteins. Exciting studies in different species ranging from human, murine, zebrafish, and plant samples have delivered vital insights into BAG3s' (and other BAG proteins') functions and their regulations. However, so far no studies have addressed neither BAG3's evolution nor its phylogenetic position in the BAG family.

0301 basic medicineSenescenceProteasome Endopeptidase ComplexProtein family610 MedizinBiologyProtein HomeostasisBAG3BiochemistryEvolution MolecularWW domain03 medical and health sciences0302 clinical medicineProtein Domains610 Medical sciencesAutophagyAnimalsHumansMolecular BiologyZebrafishCellular SenescencePhylogenyAdaptor Proteins Signal TransducingAutophagyFungiCell BiologyPlantsbiology.organism_classificationCell biology030104 developmental biologyProteostasis030220 oncology & carcinogenesisProteolysisProteostasisbiology.proteinApoptosis Regulatory ProteinsSignal TransductionJournal of Cellular Biochemistry
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The role of Plasma Membrane Calcium ATPases (PMCAs) in neurodegenerative disorders

2017

Selective degeneration of differentiated neurons in the brain is the unifying feature of neurodegenerative disorders such as Parkinson's disease (PD) or Alzheimer's disease (AD). A broad spectrum of evidence indicates that initially subtle, but temporally early calcium dysregulation may be central to the selective neuronal vulnerability observed in these slowly progressing, chronic disorders. Moreover, it has long been evident that excitotoxicity and its major toxic effector mechanism, neuronal calcium overload, play a decisive role in the propagation of secondary neuronal death after acute brain injury from trauma or ischemia. Under physiological conditions, neuronal calcium homeostasis is…

0301 basic medicineCalcium pumpExcitotoxicitychemistry.chemical_elementCalciumProtein oxidationmedicine.disease_causeProtein Structure SecondaryPlasma Membrane Calcium-Transporting ATPases03 medical and health sciences0302 clinical medicinemedicineAnimalsHumansPhylogenyCalcium metabolismMembrane potentialChemistryGeneral NeuroscienceNeurodegenerationNeurodegenerative Diseasesmedicine.diseaseCytosol030104 developmental biologyNeuroscience030217 neurology & neurosurgeryNeuroscience Letters
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