2022
Mechanistic stoichiometric relationship between the rates of neurotransmission and neuronal glucose oxidation: Reevaluation of and alternatives to the pseudo‐malate‐aspartate shuttle model
Rothman D, Behar K, Dienel G. Mechanistic stoichiometric relationship between the rates of neurotransmission and neuronal glucose oxidation: Reevaluation of and alternatives to the pseudo‐malate‐aspartate shuttle model. Journal Of Neurochemistry 2022, 168: 555-591. PMID: 36089566, DOI: 10.1111/jnc.15619.Peer-Reviewed Original ResearchMitochondrial carriersSubcellular compartmentationCultured glutamatergic neuronsMechanistic basisMajor knowledge gapsMechanistic stoichiometryExtracellular GlnGlycolytic metabolismNeuronal compartmentsPre-synaptic structuresGlucose oxidationShuttle modelAlternative mechanismStoichiometric relationshipGlnDiseased brainNeuronal glucose metabolismMetabolismGluAminobutyric acidGlutamatergic neuronsKnowledge gapsCyclingMitochondriaCompartmentation
2021
The multiple sclerosis prodrome
Makhani N, Tremlett H. The multiple sclerosis prodrome. Nature Reviews Neurology 2021, 17: 515-521. PMID: 34155379, PMCID: PMC8324569, DOI: 10.1038/s41582-021-00519-3.Peer-Reviewed Original ResearchConceptsMultiple sclerosisMS prodromeProdromal phaseCause of MSLong-term disabilityMultiple sclerosis prodromePutative risk factorsProfound clinical implicationsRelapse rateClinical featuresEarly recognitionInflammatory diseasesRisk factorsEarly initiationProdromePotential biomarkersClinical implicationsTypical symptomsDiseaseSymptomsFuture initiativesSclerosisMajor knowledge gapsBiomarkersPossible duration
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