2023
Short-term flaxseed oil, rich in omega 3, protects mice against metabolic damage caused by high-fat diet, but not inflammation
Nakandakari S, Gaspar R, Kuga G, Ramos C, Vieira R, Rios T, Muñoz V, Sant'ana M, Simabuco F, da Silva A, Moura L, Ropelle E, Pauli J, Cintra D. Short-term flaxseed oil, rich in omega 3, protects mice against metabolic damage caused by high-fat diet, but not inflammation. The Journal Of Nutritional Biochemistry 2023, 114: 109270. PMID: 36706930, DOI: 10.1016/j.jnutbio.2023.109270.Peer-Reviewed Original ResearchConceptsControl groupFood intakeAdipose tissueLong-term high-fat diet feedingHigh-fat diet feedingFlaxseed oilHigh-fat dietMesenteric adipose tissueFatty acid incorporationNeuronal signaling pathwaysInflammatory markersHF dietInflammatory effectsDiet feedingEarly inflammationHF groupLipid profileTNFα proteinProtective effectTriggers inflammationMetabolic disordersGlucose homeostasisBody weightInflammationHF consumption
2018
Physical training reverses changes in hepatic mitochondrial diameter of Alloxan-induced diabetic rats
Kuga G, Gaspar R, Muñoz V, Nakandakari S, Breda L, Sandoval B, Caetano F, de Almeida Leme J, Pauli J, Gomes R. Physical training reverses changes in hepatic mitochondrial diameter of Alloxan-induced diabetic rats. Einstein (São Paulo) 2018, 16: eao4353. PMID: 30088548, PMCID: PMC6110382, DOI: 10.1590/s1679-45082018ao4353.Peer-Reviewed Original ResearchConceptsDiabetic ratsBody weightDiabetic groupSedentary diabeticDiabetic animalsPhysical trainingSedentary diabetic animalsPhysical training protocolMitochondrial diameterDiabetes mellitusAlloxan administrationBlood insulinExercise protocolSerum glucoseSedentary controlsWistar ratsHepatic metabolismReverses changesLiver glycogenHepatic glycogenDiabeticsRatsMeasurements of glycogenLiver samplesTraining protocolImpaired insulin signaling and spatial learning in middle-aged rats: The role of PTP1B
Kuga G, Muñoz V, Gaspar R, Nakandakari S, da Silva A, Botezelli J, Leme J, Gomes R, de Moura L, Cintra D, Ropelle E, Pauli J. Impaired insulin signaling and spatial learning in middle-aged rats: The role of PTP1B. Experimental Gerontology 2018, 104: 66-71. PMID: 29421605, DOI: 10.1016/j.exger.2018.02.005.Peer-Reviewed Original ResearchConceptsMiddle-aged ratsBrain-derived neurotrophic factorΒ-amyloid contentAlzheimer's diseaseInsulin resistanceTau phosphorylationMorris water maze testMiddle-aged Wistar ratsInsulin tolerance testMain risk factorsAge-related changesNeurotrophic factorTolerance testRisk factorsMaze testImpaired insulinWistar ratsNew therapiesHippocampus regionBody weightCognitive declineRole of PTP1BSynaptic plasticityRatsSpatial learning