Search results for "Oxidative phosphorylation"

showing 4 items of 284 documents

Cardiolipin content controls mitochondrial coupling and energetic efficiency in muscle

2020

Decreasing mitochondrial energy-production efficiency in skeletal muscle can confer protection against diet-induced obesity.

muscle[SDV]Life Sciences [q-bio]Respiratory chainDiseases and DisordersOxidative phosphorylation[SDV.BC]Life Sciences [q-bio]/Cellular Biology030204 cardiovascular system & hematology03 medical and health scienceschemistry.chemical_compound0302 clinical medicinemedicineCardiolipin[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular Biology[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyInner mitochondrial membrane[SDV.BC] Life Sciences [q-bio]/Cellular BiologyResearch ArticlesFatty acid synthesisComputingMilieux_MISCELLANEOUS030304 developmental biology2. Zero hungerchemistry.chemical_classification0303 health sciencesMultidisciplinary[SDV.MHEP] Life Sciences [q-bio]/Human health and pathologyATP synthasebiologyfungifood and beveragesSciAdv r-articlesSkeletal muscleFatty acidCell BiologymitochondrialCell biologymedicine.anatomical_structurechemistryCardiolipinbiology.protein[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologyResearch Article
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Metabolic Reprogramming of Innate Immune Cells as a Possible Source of New Therapeutic Approaches in Autoimmunity.

2022

Immune cells undergo different metabolic pathways or immunometabolisms to interact with various antigens. Immunometabolism links immunological and metabolic processes and is critical for innate and adaptive immunity. Although metabolic reprogramming is necessary for cell differentiation and proliferation, it may mediate the imbalance of immune homeostasis, leading to the pathogenesis and development of some diseases, such as autoimmune diseases. Here, we discuss the effects of metabolic changes in autoimmune diseases, exerted by the leading actors of innate immunity, and their role in autoimmunity pathogenesis, suggesting many immunotherapeutic approaches.

therapyoxidative phosphorylationchronic inflammatory diseaseAutoimmunityGeneral MedicineglycolysisAdaptive Immunityimmune responseImmunity InnateAutoimmune Diseasesmetabolic pathwaysHumansinnate immunityMetabolic Networks and PathwaysCells
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Protein tyrosine nitration and thiol oxidation by peroxynitrite-strategies to prevent these oxidative modifications.

2013

The reaction product of nitric oxide and superoxide, peroxynitrite, is a potent biological oxidant. The most important oxidative protein modifications described for peroxynitrite are cysteine-thiol oxidation and tyrosine nitration. We have previously demonstrated that intrinsic heme-thiolate (P450)-dependent enzymatic catalysis increases the nitration of tyrosine 430 in prostacyclin synthase and results in loss of activity which contributes to endothelial dysfunction. We here report the sensitive peroxynitrite-dependent nitration of an over-expressed and partially purified human prostacyclin synthase (3.3 μM) with an EC50 value of 5 μM. Microsomal thiols in these preparations effectively co…

thiol oxidationprotein tyrosine nitrationlcsh:Chemistrychemistry.chemical_compoundCytochrome P-450 Enzyme SystemSf9 CellsTyrosinelcsh:QH301-705.5Spectroscopychemistry.chemical_classification0303 health sciencesbiologySuperoxide030302 biochemistry & molecular biologyGeneral MedicineComputer Science ApplicationsIntramolecular OxidoreductasesBiochemistryThiolprostacyclin synthasesuperoxideOxidation-ReductionPeroxynitriteOxidative phosphorylationSpodopteraCatalysisArticleperoxynitriteNitric oxideProstacyclin synthaseInorganic Chemistry03 medical and health sciencesnitric oxideddc:570NitrationPeroxynitrous AcidAnimalsHumansSulfhydryl CompoundsPhysical and Theoretical ChemistryMolecular Biology030304 developmental biologyOrganic Chemistrynitric oxide; superoxide; peroxynitrite; protein tyrosine nitration; thiol oxidation; peroxynitrite scavengers; prostacyclin synthasechemistrylcsh:Biology (General)lcsh:QD1-999biology.proteinTyrosineCattleperoxynitrite scavengersProtein Processing Post-TranslationalInternational journal of molecular sciences
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Properties of transmembrane helix TM1 of the DcuS sensor kinase of Escherichia coli, the stator for TM2 piston signaling

2021

Abstract The sensor kinase DcuS of Escherichia coli perceives extracellular fumarate by a periplasmic PASP sensor domain. Transmembrane (TM) helix TM2, present as TM2-TM2′ homo-dimer, transmits fumarate activation in a piston-slide across the membrane. The second TM helix of DcuS, TM1, is known to lack piston movement. Structural and functional properties of TM1 were analyzed. Oxidative Cys-crosslinking (CL) revealed homo-dimerization of TM1 over the complete membrane, but only the central part showed α-helical +3/+4 spacing of the CL maxima. The GALLEX bacterial two-hybrid system indicates TM1/TM1′ interaction, and the presence of a TM1-TM1′ homo-dimer is suggested. The peripheral TM1 regi…

urogenital systemChemistryClinical BiochemistryPeriplasmic spaceOxidative phosphorylationmedicine.disease_causeBiochemistryTransmembrane proteinTransmembrane domainMembraneMembrane regionHelixmedicineBiophysicsMolecular BiologyEscherichia coliBiological Chemistry
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