Search results for "1-IP7"

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Sphingolipids and Inositol Phosphates Regulate the Tau Protein Phosphorylation Status in Humanized Yeast

2020

Hyperphosphorylation of protein tau is a hallmark of Alzheimer’s disease (AD). Changes in energy and lipid metabolism have been correlated with the late onset of this neurological disorder. However, it is uncertain if metabolic dysregulation is a consequence of AD or one of the initiating factors of AD pathophysiology. Also, it is unclear whether variations in lipid metabolism regulate the phosphorylation state of tau. Here, we show that in humanized yeast, tau hyperphosphorylation is stimulated by glucose starvation in coincidence with the downregulation of Pho85, the yeast ortholog of CDK5. Changes in inositol phosphate (IP) signaling, which has a central role in energy metabolism, altere…

0301 basic medicineCDK5Cèl·lulesTau proteinSit42HyperphosphorylationSaccharomyces cerevisiaeSACCHAROMYCES-CEREVISIAECeramide03 medical and health scienceschemistry.chemical_compoundCell and Developmental Biology0302 clinical medicineInositolceramideYpk1Inositol phosphatelcsh:QH301-705.51-IP7Original Researchchemistry.chemical_classificationScience & TechnologybiologyChemistryKinaseNEURODEGENERATIONLipid metabolismCell BiologyProtein phosphatase 2Fpk1MICROTUBULE-BINDINGPho85SERINE PALMITOYLTRANSFERASECell biologyALZHEIMERS-DISEASE030104 developmental biologylcsh:Biology (General)030220 oncology & carcinogenesisGLYCOGEN-SYNTHASE KINASE-3-BETAbiology.proteinKINASE-ACTIVITYPhosphorylationLife Sciences & BiomedicineBETA TOXICITYProteïnesDevelopmental BiologyFrontiers in Cell and Developmental Biology
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Pho85 and PI(4,5)P(2) regulate different lipid metabolic pathways in response to cold

2019

Lipid homeostasis allows cells to adjust membrane biophysical properties in response to changes in environmental conditions. In the yeast Saccharomyces cerevisiae, a downward shift in temperature from an optimal reduces membrane fluidity, which triggers a lipid remodeling of the plasma membrane. How changes in membrane fluidity are perceived, and how the abundance and composition of different lipid classes is properly balanced, remain largely unknown. Here, we show that the levels of phosphatidylinositol 4,5-bisphosphate [PI(4,5)P2], the most abundant plasma membrane phosphoinositide, drop rapidly in response to a downward shift in temperature. This change triggers a signaling cascade trans…

Phosphatidylinositol 45-DiphosphateSaccharomyces cerevisiae ProteinsMembrane FluiditySphingoid basesAcclimatizationOrm2PhospholipidSaccharomyces cerevisiaePhosphoinositideTriacylglycerideSphingolipidArticle03 medical and health scienceschemistry.chemical_compoundGlycogen Synthase Kinase 3Gene Expression Regulation FungalMembrane fluidityLow temperatureInositolPhosphatidylinositolProtein kinase AMolecular Biology1-IP7030304 developmental biology0303 health sciencesChemistry030302 biochemistry & molecular biologyCell MembraneCell BiologyLipid MetabolismSphingolipidCyclin-Dependent KinasesCell biologyTORC2-Pkh1-Ypk1 signaling moduleCold TemperatureCytosolMetabolic pathwayPhospholipidMetabolic Networks and PathwaysSignal Transduction
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