Bisphenol A Prevents the Synaptogenic Response to Testosterone in the Brain of Adult Male Rats
Leranth C, Szigeti-Buck K, MacLusky NJ, Hajszan T. Bisphenol A Prevents the Synaptogenic Response to Testosterone in the Brain of Adult Male Rats. Endocrinology 2007, 149: 988-994. PMID: 18048497, PMCID: PMC2275360, DOI: 10.1210/en.2007-1053.Peer-Reviewed Original ResearchConceptsAdult male ratsMedial prefrontal cortexMale ratsSpine synapsesCA1 hippocampal areaAsymmetric spine synapsesSham-operated animalsElectron microscopic stereologyImpairs synaptogenesisSynaptogenic actionsOvariectomized ratsHippocampal areaTestosterone supplementationTestosterone propionateEstrogen receptorExposure measurement dataOil vehicleCompensatory increaseIntact animalsSynthetic xenoestrogenPrefrontal cortexRatsHippocampusCastrated malesPotential mechanismsPrenatal exposure to cocaine is associated with increased number of spine synapses in rat prelimbic cortex
Morrow BA, Hajszan T, Leranth C, Elsworth JD, Roth RH. Prenatal exposure to cocaine is associated with increased number of spine synapses in rat prelimbic cortex. Synapse 2007, 61: 862-865. PMID: 17630673, DOI: 10.1002/syn.20430.Peer-Reviewed Original ResearchConceptsPrenatal exposureFemale ratsSpine synapsesPrelimbic cortexDendritic spinesCognitive deficitsLayers II/IIIPrenatal saline controlsExcitatory synaptic inputsAsymmetric spine synapsesPrenatal cocaine exposureRat prelimbic cortexYoung adult malesPhysical disector methodPyramidal neuronsSaline controlsNeuronal activationCocaine exposureExcitatory synapsesFrontal cortexSynaptic inputsAnimal modelsExcess activationPrefrontal cortexCortex