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  • 1. Apostolova, Galina
    et al.
    Dorn, Roland
    Ka, Sojeong
    Hallbook, Finn
    Lundeberg, Joakim
    KTH, School of Biotechnology (BIO), Gene Technology.
    Liser, Keren
    Hakim, Vicky
    Brodski, Claude
    Michaelidis, Theologos M.
    Dechant, Georg
    Neurotransmitter phenotype-specific expression changes in developing sympathetic neurons2007In: Molecular and Cellular Neuroscience, ISSN 1044-7431, E-ISSN 1095-9327, Vol. 35, no 3, p. 397-408Article in journal (Refereed)
    Abstract [en]

    During late developmental phases individual sympathetic neurons undergo a switch from noradrenergic to cholinergic neurotransmission. This phenomenon of plasticity depends on target-derived signals in vivo and is triggered by neurotrophic factors in neuronal cultures. To analyze genome-wide expression differences between the two transmitter phenotypes we employed DNA microarrays. RNA expression profiles were obtained from chick paravertebral sympathetic ganglia, treated with neurotrophin 3, glial cell line-derived neurotrophic factor or ciliary neurotrophic factor, all of which stimulate cholinergic differentiation. Results were compared with the effect of nerve growth factor, which functions as a pro-noradrenergic stimulus. The gene set common to all three comparisons defined the noradrenergic and cholinergic synexpression groups. Several functional categories, such as signal transduction, G-protein-coupled signaling, cation transport, neurogenesis and synaptic transmission, were enriched in these groups. Experiments based on the prediction that some of the identified genes play a role in the neurotransmitter switch identified bone morphogenetic protein signaling as an inhibitor of cholinergic differentiation.

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