Literature DB >> 16944318

Temporal and spatial disparity in cFOS expression and dopamine phenotypic differentiation in the neonatal mouse olfactory bulb.

Yosuke Akiba1, Hayato Sasaki, Sachiko Saino-Saito, Harriet Baker.   

Abstract

The mammalian olfactory bulb (OB) is among the few regions in adult brain which generates interneurons. A subpopulation of these phenotypically diverse interneurons is dopaminergic (DA) periglomerular cells. Full phenotypic development as indicated by expression of tyrosine hydroxylase (TH), the first enzyme in DA biosynthesis, requires afferent activity or equivalent depolarizing conditions. To investigate the hypothesis that cFOS regulates TH expression, this study analyzed OB slice cultures obtained from neonatal transgenic mice expressing 9 kb of TH promoter directing expression of green fluorescent protein (TH/GFP). Cultures were depolarized with 50 mM potassium chloride (KCl), the calcium channel blocker, nifedipine (10 microM) with KCl, or an equimolar concentration of sodium chloride (NaCl). Depolarization increased cFOS expression 6-fold peaking at about 3 h. Staining decreased rapidly returning to control, NaCl, levels by 48 h post-stimulation when TH/GFP expression was highest. Nifedipine blocked the increase in TH and cFOS suggesting that similar signal transduction pathways mediate both responses.

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Year:  2006        PMID: 16944318     DOI: 10.1007/s11064-006-9134-7

Source DB:  PubMed          Journal:  Neurochem Res        ISSN: 0364-3190            Impact factor:   3.996


  37 in total

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Authors:  J Y Cho; N Min; L Franzen; H Baker
Journal:  J Comp Neurol       Date:  1996-05-27       Impact factor: 3.215

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Authors:  M B Luskin
Journal:  Neuron       Date:  1993-07       Impact factor: 17.173

3.  Requirement for cAMP/calcium response element but not AP-1 site in fibroblast growth factor-2-elicited activation of tyrosine hydroxylase gene expression in PC12 cells.

Authors:  H Osaka; E L Sabban
Journal:  Brain Res Mol Brain Res       Date:  1997-10-03

4.  Differentiation of the dopaminergic phenotype in the olfactory system of neonatal and adult mice.

Authors:  Sachiko Saino-Saito; Hayato Sasaki; Bruce T Volpe; Kazuto Kobayashi; Roseann Berlin; Harriet Baker
Journal:  J Comp Neurol       Date:  2004-11-22       Impact factor: 3.215

5.  Phenotypic differentiation during migration of dopaminergic progenitor cells to the olfactory bulb.

Authors:  H Baker; N Liu; H S Chun; S Saino; R Berlin; B Volpe; J H Son
Journal:  J Neurosci       Date:  2001-11-01       Impact factor: 6.167

6.  Unilateral odor deprivation: effects on the development of olfactory bulb catecholamines and behavior.

Authors:  P C Brunjes; L K Smith-Crafts; R McCarty
Journal:  Brain Res       Date:  1985-09       Impact factor: 3.252

7.  Adult naris closure profoundly reduces tyrosine hydroxylase expression in mouse olfactory bulb.

Authors:  H Baker; K Morel; D M Stone; J A Maruniak
Journal:  Brain Res       Date:  1993-06-18       Impact factor: 3.252

8.  Chemically defined neuron groups and their subpopulations in the glomerular layer of the rat main olfactory bulb.

Authors:  K Kosaka; Y Aika; K Toida; C W Heizmann; W Hunziker; D M Jacobowitz; I Nagatsu; P Streit; T J Visser; T Kosaka
Journal:  Neurosci Res       Date:  1995-08       Impact factor: 3.304

9.  Control of tyrosine hydroxylase gene expression in chromaffin and PC12 cells.

Authors:  E L Sabban
Journal:  Semin Cell Dev Biol       Date:  1997-04       Impact factor: 7.727

10.  Tyrosine hydroxylase expression in primary cultures of olfactory bulb: role of L-type calcium channels.

Authors:  E Cigola; B T Volpe; J W Lee; L Franzen; H Baker
Journal:  J Neurosci       Date:  1998-10-01       Impact factor: 6.167
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  7 in total

1.  Histone deacetylase inhibitors de-repress tyrosine hydroxylase expression in the olfactory bulb and rostral migratory stream.

Authors:  Yosuke Akiba; John W Cave; Nami Akiba; Brett Langley; Rajiv R Ratan; Harriet Baker
Journal:  Biochem Biophys Res Commun       Date:  2010-02-17       Impact factor: 3.575

2.  Sall3 is required for the terminal maturation of olfactory glomerular interneurons.

Authors:  Susan J Harrison; Mark Parrish; A Paula Monaghan
Journal:  J Comp Neurol       Date:  2008-04-10       Impact factor: 3.215

Review 3.  Dopamine systems in the forebrain.

Authors:  John W Cave; Harriet Baker
Journal:  Adv Exp Med Biol       Date:  2009       Impact factor: 2.622

4.  Comparison of changes in GAD65 and GAD67 immunoreactivity and levels in the gerbil main olfactory bulb induced by transient ischemia.

Authors:  Ki-Yeon Yoo; In Koo Hwang; Jung Hoon Choi; Je Kyung Seong; Yeo Sung Yoon; In Se Lee; Moo-Ho Won
Journal:  Neurochem Res       Date:  2007-10-17       Impact factor: 3.996

5.  gamma-Aminobutyric acid-mediated regulation of the activity-dependent olfactory bulb dopaminergic phenotype.

Authors:  Yosuke Akiba; Hayato Sasaki; Patricio T Huerta; Alvaro G Estevez; Harriet Baker; John W Cave
Journal:  J Neurosci Res       Date:  2009-08-01       Impact factor: 4.164

6.  Brief Sensory Deprivation Triggers Cell Type-Specific Structural and Functional Plasticity in Olfactory Bulb Neurons.

Authors:  Elisa Galliano; Christiane Hahn; Lorcan P Browne; Paula R Villamayor; Candida Tufo; Andres Crespo; Matthew S Grubb
Journal:  J Neurosci       Date:  2021-01-22       Impact factor: 6.167

7.  Brief sensory deprivation triggers plasticity of dopamine-synthesising enzyme expression in genetically labelled olfactory bulb dopaminergic neurons.

Authors:  Darren J Byrne; Marcela Lipovsek; Andres Crespo; Matthew S Grubb
Journal:  Eur J Neurosci       Date:  2022-05-19       Impact factor: 3.698
  7 in total

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