2016
Embryonic ablation of neuronal VGF increases energy expenditure and reduces body weight
Jiang C, Lin WJ, Sadahiro M, Shin AC, Buettner C, Salton SR. Embryonic ablation of neuronal VGF increases energy expenditure and reduces body weight. Neuropeptides 2016, 64: 75-83. PMID: 28024880, PMCID: PMC5478485, DOI: 10.1016/j.npep.2016.12.005.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBody WeightDietEnergy MetabolismHypothalamusMiceNerve Growth FactorsNeuronsNeuropeptidesObesityConceptsVGF knockout miceKnockout miceBody weightPeripheral endocrineEnergy expenditureAdult miceVGF-derived peptide TLQP-21Peptide TLQP-21Diet-induced obesityEmbryonic CNS neuronsICV deliverySynapsin-CreAAV-CreTLQP-21Arcuate nucleusCNS neuronsVentromedial hypothalamusReduced adiposityFemale miceMale miceEmbryonic ablationAdult neuronsExcitatory neuronsHypermetabolic phenotypeEmbryonic neurons
2015
Role of VGF-Derived Carboxy-Terminal Peptides in Energy Balance and Reproduction: Analysis of “Humanized” Knockin Mice Expressing Full-Length or Truncated VGF
Sadahiro M, Erickson C, Lin WJ, Shin AC, Razzoli M, Jiang C, Fargali S, Gurney A, Kelley KA, Buettner C, Bartolomucci A, Salton SR. Role of VGF-Derived Carboxy-Terminal Peptides in Energy Balance and Reproduction: Analysis of “Humanized” Knockin Mice Expressing Full-Length or Truncated VGF. Endocrinology 2015, 156: 1724-1738. PMID: 25675362, PMCID: PMC4398760, DOI: 10.1210/en.2014-1826.Peer-Reviewed Original ResearchConceptsEnergy expenditureRole of VGFWild-type miceKnockin mouse modelGlucose toleranceFemale miceGlucose homeostasisMouse modelBody weightReproductive functionKnockin miceVGF peptidesMiceVGF proteinMetabolic phenotypeInfertile miceSingle nucleotide polymorphismsFat storageTerminal peptidesTargeted deletionCarboxy-terminal peptideVGFObesityCritical regulatorC-terminal region