Project description:We report the effects of vitamin E deficiency using the Ttpa-null mouse model on transcriptome profiles of dorsal root ganglia neurons
Project description:Here we studied the NOX2 dependent redox-proteome in dorsal root ganglia in mice. The overall goal was to assess the degree of NOX2-dependent changes in oxidised proteins following exposure to enriched enviroment and sciatic nerve axotomy in dorsal root ganglia.
Project description:A comparative RNA-SEQ analysis of control total RNA preparations from pooled E14.5 dorsal root ganglia was carried out to determine the performance of the RNAseq reactions at differing concentrations (3ng, 10ng & 30ng in high or low volumes) and concordance among different institutions using the same source of RNA. RNA was extracted from E14.5 dorsal root ganglia dissected from wild type C57BL/6J embryos and sequenced using Illumina Hiseq 2500 platform.
Project description:In this study, we performed a label-free relative quantitation to identify the peptide candidates correlated with itch sensation in murine models. We tested two different itch models-the AEW model (known commonly as the dry skin model) and the MC903 model. Performed peptide extraction from the dorsal horn (DH) and dorsal root ganglia regions of these two models and compared their levels with that of control mice.
Project description:Vagal afferent neurons are thought to convey primarily physiological information, whereas spinal afferents transmit noxious signals from the viscera to the central nervous system. In order to elucidate molecular identities for these different properties, we compared gene expression profiles of neurons located in nodose ganglia (NG) and dorsal root ganglia (DRG) in mice. Intraperitoneal administration of Alexa Fluor-488 conjugated Cholera toxin B allowed identification of neurons projecting to the viscera. Fluorescent neurons in DRG (from T10 to T13) and NG were isolated using laser capture microdissection. Gene expression profiles of visceral afferent neurons, obtained by microarray hybridization, were analysed using multivariate spectral map analysis, SAM algorithm (Significance Analysis of Microarray data) and fold-difference filtering. A total of 1996 genes were found to be differentially expressed in DRG versus NG, including 41 G-protein coupled receptors and 60 ion channels. Expression profiles obtained on laser-captured neurons were contrasted to those obtained on whole ganglia demonstrating striking differences and the need for microdissection when studying visceral sensory neurons because of dilution of the signal by somatic sensory neurons. Furthermore, a detailed catalogue of all adrenergic and cholinergic, GABA, glutamate, serotonin and dopamine receptors, voltage-gated potassium, sodium and calcium channels and transient receptor potential cation channels present in visceral afferents is provided. Our genome-wide expression profiling data provide novel insight into molecular signatures that underlie both functional differences and similarities between NG and DRG visceral sensory neurons. Moreover, these findings will offer novel insight into mode of action of pharmacologic agents modulating visceral sensation. Experiment Overall Design: Three separate experiments were performed. First, 5 whole dorsal root ganglia were compared to 7 whole nodose ganglia. Second, Laser captured visceral neurons derived from 5 dorsal root ganglia and 5 nodose ganglia were compared on MG-U74Av2. Third, Laser captured visceral neurons derived from 9 dorsal root ganglia and 11 nodose ganglia were compared on Mouse430_2.
Project description:Although satellite glial cells (SGCs) are among the most abundant non-neuronal cells in dorsal root ganglia (DRG), little is known about their heterogenity and functions. We used single cell RNA sequencing (scRNA-seq) to analyze the heterogenity and unique functions of SGCs.