Project description:To investigate the transcriptomic changes in the meninges located between olfactory bulb of adult and aged mice. Whole meningeal cells in adult and aged mice were FACS sorted and single-cell RNA seq was performed.

Project description:Proteome analysis of mouse brain tissue samples from olfactory bulb of middle-aged (8-13 months) female mice.

Project description:Olfactory sensory neurons distinguish a large variety of odor molecules and direct the information through their axons to the olfactory bulb, the first site for the processing of olfactory information in the brain. Olfaction is very important for most mammals for the maintenance of a good quality of life. Accumulating evidences endorse that olfactory sensory decline is connected with neurodegenerative disorders including schizophrenia, depression, multiple sclerosis, Huntington's, Alzheimer's and Parkinson's diseases. For several decades, neuroanatomical, volumetric, and histological approaches have been the gold standard techniques employed to characterize the olfactory bulb functionality. Diagnosis and treatment of olfactory dysfunction remain significant health care challenges to society. Novel strategies and clues that assist in the identification of biomarker and drug development for aid in the prevention and cure of neurological diseases are necessary. However, little attention has been focused specifically on the molecular composition of the olfactory bulb from the perspective of proteomics. To this end, an in-depth mapping of the olfactory bulb proteome was carried out using high resolution tandem mass spectrometry, revealing a repertoire of 7,754 proteins. A large proportion of the identified proteins were predicted to be involved in diverse biological processes including signal transduction, metabolism, transport, olfaction and protein synthesis. Pathway analysis of the identified proteins shows that, these proteins are predominantly involved in metabolic and neural processes, chromatin modeling, and synaptic vesicle transport associated with neuronal transmission. In total, our study offers valuable understandings into the molecular composition of the human olfactory bulb proteome that could possibly help neuroscience community to understand the olfactory bulb better and open avenues for intervention strategies for olfactory dysfunction in the future.

Project description:The aim of this study was to use global gene expression profiling to define intrinsic molecular differences that distinguish olfactory ensheathing cells from mucosa (OM-OECs) from olfactory ensheathing cells from olfactory bulb (OB-OECs). 10,000 OECs from olfactory mucosa (OM) or olfactory bulb (OB) were isolated from 4 rats.

Project description:Using the highly sensitive miRNA array, we screened 40 microRNAs abundant in the olfactory bulb and we explored the functions of these miRNAs in the olfactory bulb by Gene Ontology and Kyoto Encyclopedia of Genes annotation. The enrichment results indicated that these miRNAs mainly participated in the axon guidance process. Furthermore, the quantitative real-time polymerase chain reaction, immunohistochemistry, and dual luciferase reporter assay results showed that miR-30c is a specific regulator of semaphorin-3A, which will give new insights in disclosing the mechanism of functional maintenance and sexual-specific differentiation of the olfactory bulb. In this study, three samples from steady-state mice were used to acquire the miRNA expression profiling and the function of the abudant miRNAs in the olfactory bulb were analyzed by bioinformatic methods.Finally, miR-30c was experimentally validated to be a regulator of semaphorin-3A, an important axon guidance cue in the nervous system.

Project description:Olfaction is often deregulated in Alzheimer´s disease (AD) patients, being also impaired in transgenic Tg2576 AD mouse model, which overexpress the Swedish mutated form of human amyloid precursor protein (APP). However, little is known about the molecular mechanisms that accompany the neurodegeneration of olfactory structures in Tg2576 mice. For that, we have applied proteome- and transcriptome-wide approaches to probe molecular disturbances in the olfactory bulb (OB) dissected from aged Tg2576 mice (18 months of age) respect to age matched wild-type (WT) littermates

Project description:Global gene expression profiling was performed using RNA from human embryonic neural stem cells (hENSCs) and adult human olfactory bulb-derived neural stem cells (OBNSCs) to define a gene expression pattern and signaling pathways that are specific for each cell lineage. Subtractive gene expression profiling between both cell lineages provides a list of potential genes that are related to their multipotentiality, proliferation, migration, and alternative signaling pathways. To confirm the validity of our DNA microarray data, our results were compared with data from various databases. The gene expression profile of adult olfactory bulb neural stem cells (n=6) was compared with that of human embryonic neural stem cells (n=3).

Project description:Olfactory dysfunction is among the earliest features of Alzheimer´s disease (AD). Although neuropathological abnormalities have been detected in the olfactory bulb (OB), little is known about its dynamic biology. Here, OB- proteome analysis was performed across different AD stages using a label-free approach.

Project description:In this study, we demonstrate that insulin is produced not only in the mammalian pancreas but also in adult neuronal cells derived from hippocampus and olfactory bulb. Paracrine Wnt3 plays an essential role in promoting the active expression of insulin in both hippocampus and olfactory bulb-derived neural stem cells. Our analysis indicates that the balance between Wnt3, which triggers the expression of insulin via NeuroD1 transcription factor, and IGFBP-4, which inhibits the original Wnt3 action, is regulated depending on the diabetic status. We also show that adult neural progenitors derived from diabetic animals retain the ability to give rise to insulin-producing cells and that grafting neuronal progenitors into the pancreas of diabetic animals reduces glucose levels. This study provides an example of a simple and direct use of adult stem cells from one organ to another, without introducing additional inductive genes. In this study, we demonstrate that insulin is produced not only in the mammalian pancreas but also in adult neuronal cells derived from hippocampus and olfactory bulb. Paracrine Wnt3 plays an essential role in promoting the active expression of insulin in both hippocampus and olfactory bulb-derived neural stem cells. Our analysis indicates that the balance between Wnt3, which triggers the expression of insulin via NeuroD1 transcription factor, and IGFBP-4, which inhibits the original Wnt3 action, is regulated depending on the diabetic status. We also show that adult neural progenitors derived from diabetic animals retain the ability to give rise to insulin-producing cells and that grafting neuronal progenitors into the pancreas of diabetic animals reduces glucose levels. This study provides an example of a simple and direct use of adult stem cells from one organ to another, without introducing additional inductive genes. Total four different samples, gene expressions in hippocampal derived neural stem cells (HPC NSC), that in Olfactory bulb-derived neural stem cells (OB NSC), that in neurons derived from the HPC NSCs (HPC Neu) and that in neurons derived from the OB NSCs (OB Neu) were independently analyzed. Three independent experiments were performed to prepare each cell sample, and the extracted total RNAs from each cell source were mixed to apply following microarray analysis (Four independent RNA sample; HPC NSC, OB NSC, HPC Neu and OB Neu).

Project description:Using the highly sensitive miRNA array, we screened 40 microRNAs abundant in the olfactory bulb and we explored the functions of these miRNAs in the olfactory bulb by Gene Ontology and Kyoto Encyclopedia of Genes annotation. The enrichment results indicated that these miRNAs mainly participated in the axon guidance process. Furthermore, the quantitative real-time polymerase chain reaction, immunohistochemistry, and dual luciferase reporter assay results showed that miR-30c is a specific regulator of semaphorin-3A, which will give new insights in disclosing the mechanism of functional maintenance and sexual-specific differentiation of the olfactory bulb.