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  • 1
    Keywords: brain ; RECEPTOR ; CELLS ; Germany ; NETWORKS ; SYSTEM ; TOOL ; DISTINCT ; PROTEIN ; PROTEINS ; TRANSDUCTION ; COMPLEX ; MESSENGER-RNA ; RAT ; signal transduction ; MEMBRANE ; SIGNAL-TRANSDUCTION ; mass spectrometry ; MASS-SPECTROMETRY ; CHROMATOGRAPHY ; PROTEOMIC ANALYSIS ; glutathione-S-transferase ; BINDING PROTEIN ; signaling ; molecular ; NEURONS ; analysis ; cilia ; ENGLAND ; XENOBIOTIC-METABOLIZING ENZYMES ; affinity chromatography ; calcium-calmodulin ; CHEMOSENSORY CILIA ; NUCLEOTIDE-GATED CHANNEL ; olfaction ; olfactory receptor neurons ; PHOSPHOLIPID-BINDING ; SENSORY NEURONS
    Abstract: The olfactory neuroepithelium represents a unique interface between the brain and the external environment. Olfactory function comprises a distinct set of molecular tasks: sensory signal transduction, cytoprotection and adult neurogenesis. A multitude of biochemical studies has revealed the central role of Ca2+ signaling in the function of olfactory receptor neurons (ORNs). We set out to establish Ca2+-dependent signaling networks in ORN cilia by proteomic analysis. We subjected a ciliary membrane preparation to Ca2+/calmodulin-affinity chromatography using mild detergent conditions in order to maintain functional protein complexes involved in olfactory Ca2+ signaling. Thus, calmodulin serves as a valuable tool to gain access to novel Ca2+-regulated protein complexes. Tandem mass spectrometry (nanoscale liquid-chromatography-electrospray injection) identified 123 distinct proteins. Ninety-seven proteins (79%) could be assigned to specific olfactory functions, including 32 to sensory signal transduction and 40 to cytoprotection. We point out novel perspectives for research on the Ca2+-signaling networks in the olfactory system of the rat. (C) 2007 IBRO. Published by Elsevier Ltd. All rights reserved
    Type of Publication: Journal article published
    PubMed ID: 18155848
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  • 2
    Keywords: RECEPTOR ; Germany ; PATHWAY ; PROTEIN ; PROTEINS ; COMPLEX ; RAT ; signal transduction ; SIGNAL ; MOUSE ; MEMBRANE ; SIGNAL-TRANSDUCTION ; mass spectrometry ; PROTEOMIC ANALYSIS ; signaling ; NEURONS ; EPITHELIUM ; NUCLEOTIDE-GATED CHANNEL ; olfactory receptor neurons ; sensory cilia ; ADENYLYL-CYCLASE ; CHLORIDE ACCUMULATION ; MAMMALIAN ODORANT RECEPTORS ; ORGANELLAR PROTEOMICS
    Abstract: Olfactory sensory neurons expose to the inhaled air chemosensory cilia which bind odorants and operate as transduction organelles. Odorant receptors in the ciliary membrane activate a transduction cascade which uses cAMP and Ca2+ for sensory signaling in the ciliary lumen. Although the canonical transduction pathway is well established, molecular components for more complex aspects of sensory transduction, like adaptation, regulation, and termination of the receptor response have not been systematically identified. Moreover, open questions in olfactory physiology include how the cilia exchange solutes with the surrounding mucus, assemble their highly polarized set of proteins, and cope with noxious substances in the ambient air. A specific ciliary proteome would promote research efforts in all of these fields. We have improved a method to detach cilia from rat olfactory sensory neurons and have isolated a preparation specifically enriched in ciliary membrane proteins. Using LC-ESI-MS/MS analysis, we identified 377 proteins which constitute the olfactory cilia proteome. These proteins represent a comprehensive data set for olfactory research since more than 80% can be attributed to the characteristic functions of olfactory sensory neurons and their cilia: signal processing, protein targeting, neurogenesis, solute transport, and cytoprotection. Organellar proteomics thus yielded decisive information about the diverse physiological functions of a sensory organelle
    Type of Publication: Journal article published
    PubMed ID: 19086097
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