6533b822fe1ef96bd127cd59
RESEARCH PRODUCT
Olfactory bulbectomy, but not odor conditioned aversion, induces the differentiation of immature neurons in the adult rat piriform cortex.
Maria BellesGregori Alonso-llosaFrédérique DaticheKiseko ShionoyaSamuel Hernández-gonzálezJuan NacherMaría ÁNgeles Gómez-climentsubject
MaleMESH: Cell DifferentiationMESH: Neural Stem CellsMESH: Olfactory BulbDoublecortin ProteinMESH: RatsNeurogenesisMESH : MaleMESH : Neurogenesis[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH : Rats WistarNeural Stem CellsPiriform cortexAnimalsMESH: AnimalsRats WistarOlfactory memoryMESH : Olfactory BulbbiologyMESH : Olfactory PathwaysMESH : RatsGeneral NeuroscienceNeurogenesisCell DifferentiationOlfactory PathwaysMESH: Rats WistarOlfactory BulbMESH: MaleRatsOlfactory bulbDoublecortinMESH: Neurogenesisnervous systemMESH : Neural Stem Cellsbiology.proteinNeural cell adhesion moleculeOlfactory ensheathing gliaMESH : AnimalsNeuNNeuroscienceMESH : Cell Differentiation[SDV.AEN]Life Sciences [q-bio]/Food and NutritionMESH: Olfactory Pathwaysdescription
International audience; The piriform cortex layer II of young-adult rats presents a population of prenatally generated cells, which express immature neuronal markers, such as the polysialylated form of the neural cell adhesion molecule (PSA-NCAM) or doublecortin (DCX), and display structural characteristics of immature neurons. The number of PSA-NCAM/DCX expressing cells in this region decreases markedly as age progresses, suggesting that these cells differentiate or die. Since the piriform cortex receives a major input from the olfactory bulb and participates in olfactory information processing, it is possible that the immature neurons in layer II are affected by manipulations of the olfactory bulb or olfactory learning. It is not known whether these cells can be induced to differentiate and, if so, what would be their fate. In order to address these questions, we have performed unilateral olfactory bulbectomy (OBX) and an olfactory learning paradigm (taste-potentiated odor aversion, TPOA), in young-adult rats and have studied the expression of different mature and immature neuronal markers, as well as the presence of cell death. We have found that 14 h after OBX there was a dramatic decrease in the number of both PSA-NCAM and DCX expressing cells in piriform cortex layer II, whereas that of cells expressing NeuN, a mature neuronal marker, increased. By contrast, the number of cells expressing glutamate decarboxylase, isoform 67 (GAD67), a marker for interneurons, decreased slightly. Additionally, we have not found evidence of numbers of dying cells high enough to justify the disappearance of immature neurons. Analysis of animals subjected to TPOA revealed that this paradigm does not affect PSA-NCAM expressing cells. Our results strongly suggest that OBX can induce the maturation of immature neurons in the piriform cortex layer II and that these cells do not become interneurons. By contrast, these cells do not seem to play a crucial role in olfactory memory.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-05-05 |