2022
Metabolic cycles and signals for insulin secretion
Merrins MJ, Corkey BE, Kibbey RG, Prentki M. Metabolic cycles and signals for insulin secretion. Cell Metabolism 2022, 34: 947-968. PMID: 35728586, PMCID: PMC9262871, DOI: 10.1016/j.cmet.2022.06.003.Peer-Reviewed Original Researchβ Cell–specific deletion of Zfp148 improves nutrient-stimulated β cell Ca2+ responses
Emfinger CH, de Klerk E, Schueler KL, Rabaglia ME, Stapleton DS, Simonett SP, Mitok KA, Wang Z, Liu X, Paulo JA, Yu Q, Cardone RL, Foster HR, Lewandowski SL, Perales JC, Kendziorski CM, Gygi SP, Kibbey RG, Keller MP, Hebrok M, Merrins MJ, Attie AD. β Cell–specific deletion of Zfp148 improves nutrient-stimulated β cell Ca2+ responses. JCI Insight 2022, 7: e154198. PMID: 35603790, PMCID: PMC9220824, DOI: 10.1172/jci.insight.154198.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCalciumDNA-Binding ProteinsGlucoseGlutamineInsulin-Secreting CellsIslets of LangerhansMiceNutrientsTranscription FactorsConceptsCell-specific deletionΒ-cell Ca2Insulin secretionAmino acid metabolismLow glucose conditionsRNA-seqPancreatic β-cellsLevels of enzymesZfp148Glutamate dehydrogenaseIntermediary metabolismChannel closureEnhanced insulin secretionWestern-style dietControl mice fedElevated glucose levelsAcid metabolismΒ-cellsCell functionGlucose toleranceCell Ca2Elevated sensitivityGlucose conditionsMetabolic challengesMice fed
2019
Mitochondrial Proton Leak Regulated by Cyclophilin D Elevates Insulin Secretion in Islets at Nonstimulatory Glucose Levels
Taddeo EP, Alsabeeh N, Baghdasarian S, Wikstrom JD, Ritou E, Sereda S, Erion K, Li J, Stiles L, Abdulla M, Swanson Z, Wilhelm J, Bellin MD, Kibbey RG, Liesa M, Shirihai O. Mitochondrial Proton Leak Regulated by Cyclophilin D Elevates Insulin Secretion in Islets at Nonstimulatory Glucose Levels. Diabetes 2019, 69: 131-145. PMID: 31740442, PMCID: PMC6971491, DOI: 10.2337/db19-0379.Peer-Reviewed Original ResearchConceptsType 2 diabetesInsulin secretionInsulin resistanceFree fatty acidsNonesterified free fatty acidsGlucose-stimulated insulin secretionPrediabetic stateInsulin hypersecretionObese subjectsFatty acidsObese miceLean miceGlucose levelsHuman isletsPancreatic isletsΒ-cellsIsletsProton leakSecretionHyperinsulinemiaProgressive increaseDiabetesMiceMitochondrial proton leakLeakN-acyl taurines are endogenous lipid messengers that improve glucose homeostasis
Grevengoed TJ, Trammell SAJ, McKinney MK, Petersen N, Cardone RL, Svenningsen JS, Ogasawara D, Nexøe-Larsen CC, Knop FK, Schwartz TW, Kibbey RG, Cravatt BF, Gillum MP. N-acyl taurines are endogenous lipid messengers that improve glucose homeostasis. Proceedings Of The National Academy Of Sciences Of The United States Of America 2019, 116: 24770-24778. PMID: 31740614, PMCID: PMC6900532, DOI: 10.1073/pnas.1916288116.Peer-Reviewed Original ResearchMeSH KeywordsAmidohydrolasesAmino Acid SubstitutionAnimalsBlood GlucoseDisease Models, AnimalEatingEthanolaminesFemaleGlucagonGlucagon-Like Peptide 1Glucose Tolerance TestHumansInjections, IntravenousInsulinIslets of LangerhansMaleMetabolic SyndromeMiceMice, TransgenicMiddle AgedOleic AcidsPostprandial PeriodReceptors, G-Protein-CoupledTaurineConceptsFatty acid amide hydrolaseGLP-1 secretionPostprandial glucose regulationN-acyl taurinesBioactive fatty acid amidesEndogenous lipid messengersGlucagon secretionGlucose toleranceInsulin sensitivityUnique metabolic profileFood intakeGLP-1Peripheral tissuesMouse modelGlucose homeostasisLipid messengersGlucose regulationMetabolic diseasesAmide hydrolaseFunctional polymorphismsConcurrent elevationSubstantial elevationMetabolic profileFatty acid amidesMice