Project description:Here we performed single cell RNA sequencing of manually sorted olfactory bulb dopaminergic neurons with the goal of studying the transcriptomic basis of neuronal plasticity. Acute olfactory bulb 300 µm slices were obtained from Dat-Cre/Flox-tdTomato (B6.SJL-Slc6a3tm1.1(cre) Bkmn/J, Jax stock 006660 / B6.Cg– Gt(ROSA)26Sortm9(CAG-tdTomato)Hze, Jax stock 007909) juvenile mice. Single cell suspensions were generated using the Neural Tissue Dissociation Kit – Postnatal Neurons (Miltenyi Biotec. Cat no. 130-094-802). Dopaminergic neurons were identified by red fluorescence and manually sorted into individual wells. Analysis of the effects of the transcriptomic changes relating to neuronal plasticity triggered by sensory deprivation is ongoing.

Project description:To characterize the molecular diversity of olfactory bulb projection neurons we used viral targeting and Fluorescence Activated Nuclei Sorting (FANS) to enrich for olfactory bulb projection neurons, and single-nuclei RNA sequencing (sn-RNA seq) to comprehensively characterize their transcriptomes. To isolate GFP-labelled nuclei, 3 individual replicates of AON and PCx-injected mice were used. Ipsilateral and controlateral sides were minced separately and placed into two different tubes. The minced tissue was gently homogenized in Nuclei PURE Lysis Buffer and 10% Triton X-100 using an ice-cold dounce and pestle, and filtered two times through a 40 μm cell strainer on ice. After centrifuging at 500 rpm for 5 min at 4 °C, the supernatant was aspirated and gently resuspended in 500 μl of cold buffer (1x of cold Hanks' Balanced Salt Solution HBSS, 1% nuclease-free BSA, RNasin Plus and 1/2000 DRAQ5). Our study identifies molecularly distinct subtypes of mitral and tufted cells.

Project description:Mouse olfactory sensory neurons, main olfactory epithelium and main olfactory bulb

Project description:Molecular diversity of olfactory bulb projection neurons

Project description:Molecular diversity of olfactory bulb projection neurons [single-cell RNA-seq]

Project description:To investigate the effects of rabies infection on neuronal gene expression, we compared gene profiles of rabies infected and non-infected GABAergic neurons in the Zebrafish olfactory bulb.

Project description:single olfactory sensory neurons

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:Characterize the spatiotemporal dynamics of gene expression in neurons in developing olfactory bulb

Project description:To validate different projection targets of already molecularly-defined olfactory bulb projection neurons we used viral targeting specifically into anterior or posterior cortical areas, Fluorescence Activated Nuclei Sorting (FANS) to enrich for olfactory bulb projection neurons, and single-nuclei RNA sequencing (sn-RNA seq) To isolate GFP-labelled nuclei, 1 individual replicate of AON or PCx-injected mice was used. Ipsilateral and controlateral sides were minced separately and placed into two different tubes. The minced tissue was gently homogenized in Nuclei PURE Lysis Buffer and 10% Triton X-100 using an ice-cold dounce and pestle, and filtered two times through a 40 μm cell strainer on ice. After centrifuging at 500 rpm for 5 min at 4 °C, the supernatant was aspirated and gently resuspended in 500 μl of cold buffer (1x of cold Hanks' Balanced Salt Solution HBSS, 1% nuclease-free BSA, RNasin Plus and 1/2000 DRAQ5). Our study identifies molecularly distinct subtypes of mitral cells projecting to anterior or posterior olfactory cortices.