0000000000726134

AUTHOR

Angela Sommer

showing 2 related works from this author

Altered synaptic phospholipid signaling in PRG-1 deficient mice induces exploratory behavior and motor hyperactivity resembling psychiatric disorders.

2017

Abstract Plasticity related gene 1 (PRG-1) is a neuron specific membrane protein located at the postsynaptic density of glutamatergic synapses. PRG-1 modulates signaling pathways of phosphorylated lipid substrates such as lysophosphatidic acid (LPA). Deletion of PRG-1 increases presynaptic glutamate release probability leading to neuronal over-excitation. However, due to its cortical expression, PRG-1 deficiency leading to increased glutamatergic transmission is supposed to also affect motor pathways. We therefore analyzed the effects of PRG-1 function on exploratory and motor behavior using homozygous PRG-1 knockout (PRG-1−/−) mice and PRG-1/LPA2–receptor double knockout (PRG-1−/−/LPA2−/−)…

0301 basic medicinemedicine.medical_specialtyGlutamic AcidNerve Tissue ProteinsBiologyHyperkinesisHippocampusOpen field03 medical and health sciencesBehavioral NeuroscienceGlutamatergicchemistry.chemical_compoundMice0302 clinical medicineLysophosphatidic acidmedicineAnimalsReceptors Lysophosphatidic AcidPsychiatryMice KnockoutNeuronsMental DisordersGlutamate receptorSomatosensory CortexMice Inbred C57BL030104 developmental biologymedicine.anatomical_structurechemistrySynapsesExploratory BehaviorGABAergicCalmodulin-Binding ProteinsFemaleNeuronSignal transductionLysophospholipidsPostsynaptic density030217 neurology & neurosurgerySignal TransductionBehavioural brain research
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Plasticity-Related Gene 1 Affects Mouse Barrel Cortex Function via Strengthening of Glutamatergic Thalamocortical Transmission

2016

Plasticity-related gene-1 (PRG-1) is a brain-specific protein that modulates glutamatergic synaptic transmission. Here we investigated the functional role of PRG-1 in adolescent and adult mouse barrel cortex both in vitro and in vivo. Compared with wild-type (WT) animals, PRG-1-deficient (KO) mice showed specific behavioral deficits in tests assessing sensorimotor integration and whisker-based sensory discrimination as shown in the beam balance/walking test and sandpaper tactile discrimination test, respectively. At P25-31, spontaneous network activity in the barrel cortex in vivo was higher in KO mice compared with WT littermates, but not at P16-19. At P16-19, sensory evoked cortical respo…

Male0301 basic medicinePatch-Clamp TechniquesCognitive NeuroscienceThalamusGlutamic AcidNerve Tissue ProteinsStimulationSensory systemWalkingNeurotransmissionBiologySomatosensory systempatch-clamp recordingsSynaptic TransmissionTissue Culture Techniques03 medical and health sciencesCellular and Molecular NeuroscienceGlutamatergic0302 clinical medicineThalamusNeural PathwaysNeuroplasticityAnimalsPostural BalanceMice KnockoutNeuronsNeuronal Plasticitybehaviorin vitroArticlesSomatosensory CortexBarrel cortexnetwork activityin vivo030104 developmental biologyTouch PerceptionVibrissaeCalmodulin-Binding ProteinsFemaleNeuroscience030217 neurology & neurosurgeryCerebral Cortex
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