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Mouse Olfactory System (mouse + olfactory_system)
Selected AbstractsSpatially and temporally regulated expression of specific heparan sulfate epitopes in the developing mouse olfactory systemDEVELOPMENT GROWTH & DIFFERENTIATION, Issue 2 2010Jun Takatoh Heparan sulfate (HS) comprises a structurally diverse group of glycosaminoglycans present ubiquitously on cell surfaces and in the extracellular matrix. The spatially and temporally regulated expression of specific HS structures is essential for various developmental processes in the nervous system but their distributions in the mouse olfactory system have not been explored. Here, we examined the spatiotemporal distribution of particular HS species in the developing mouse olfactory system using three structure-specific monoclonal antibodies (HepSS-1, JM403 and NAH46). The major findings were as follows. (i) During olfactory bulb morphogenesis, the HepSS-1 epitope was strongly expressed in anterior telencephalic cells and coexpressed with fibroblast growth factor receptor 1. (ii) In early postnatal glomeruli, the JM403 epitope was expressed at different levels among individual glomeruli. The expression pattern and levels of the JM403 epitope were both associated with those of ephrin-A3. (iii) In the vomeronasal system, the JM403 epitope was expressed in all vomeronasal axons but became increasingly restricted to vomeronasal axons terminating in the anterior region of the accessory olfactory bulb by 3 weeks of age. Our results demonstrate that each HS epitope exhibits a unique expression pattern during the development of the mouse olfactory system. Thus, each HS epitope is closely associated with particular developmental processes of the olfactory system and might have a particular role in developmental events. [source] Wnt/frizzled family members mediate olfactory sensory neuron axon extensionTHE JOURNAL OF COMPARATIVE NEUROLOGY, Issue 3 2008Diego J. Rodriguez-Gil Abstract A comprehensive model has yet to emerge, but it seems likely that numerous mechanisms contribute to the specificity of olfactory sensory neuron (OSN) axon innervation of the olfactory bulb. Elsewhere in the nervous system the Wnt/Fz family has been implicated in patterning of anterior-posterior axes, cell type specification, cell proliferation, and axon guidance. Because of our work describing cadherin-catenin family member expression in the primary olfactory pathway, and because mechanisms of Wnt-Fz interactions can depend in part on catenins, we were encouraged to explore Wnt-Fz expression and function in OSN axon extension. Here, we show that OSNs express Fz-1, Fz-3, and Wnt-5a, whereas olfactory ensheathing cells (OECs) express Wnt-4. Fz-7 is also expressed in the olfactory nerve by cells that delineate large axon fascicles, but are negative for OEC markers. Fz-1 showed a developmental downregulation. However, in adults it is expressed at different levels across the olfactory epithelium and in restricted glomeruli across the olfactory bulb, suggesting an important role in the formation and maintenance of OSN connections to the olfactory bulb. Reporter TOPGAL mice demonstrated that some OECs located in the inner olfactory nerve layer can respond to Wnt ligands. Of further interest, we show here with in vitro assays that Wnt-5a increases OSN axon outgrowth and alters growth cone morphology. Our data point to a key role for Wnt/Fz molecules in the development of the mouse olfactory system, providing complementary mechanisms required for OSN axon extension and coalescence. J. Comp. Neurol. 511:301,317, 2008. © 2008 Wiley-Liss, Inc. [source] | ||||||||||