PMID: 15338269DOI: 10.1007/s00441-004-0918-2Sep 1, 2004Paper
Innervation of the substantia nigra
Cell and Tissue Research
U Misgeld
Abstract
This review describes inputs to neurons in the substantia nigra and contrasts them with the action of agonists for the putative receptors through which they act. Special emphasis is placed on gamma-aminobutyric acid (GABA) afferents. Dopamine released from the somato-dendritic compartment of dopamine neurons and endocannabinoids released from dopamine and GABA neurons serve as retrograde signals to modulate GABA release. The release may be fostered by Ca(2+) release from intracellular Ca(2+) stores, which in turn may be influenced by the inputs.
References
Aug 15, 1975·The Journal of Comparative Neurology·T HattoriP L McGeer
Dec 1, 1992·Synapse·I D Smith, A A Grace
Apr 1, 1992·Journal of Neurochemistry·L D ManleyP M Groves
Cholinergic input to dopaminergic neurons in the substantia nigra: a double immunocytochemical study
Jan 1, 1991·Neuroscience·J P BolamZ Henderson
Jul 15, 1990·The Journal of Comparative Neurology·L D Selemon, P S Goldman-Rakic
Jan 1, 1991·Neuroscience·Y Smith, J P Bolam
Jan 1, 1991·Experimental Brain Research·F Trent, J M Tepper
Feb 22, 1991·The Journal of Comparative Neurology·J C Hedreen, M R DeLong
Jul 8, 1990·The Journal of Comparative Neurology·C Gonzales, M F Chesselet
Jan 1, 1989·Experimental Brain Research·J Jimenez-Castellanos, A M Graybiel
Jul 24, 1989·Brain Research·Y Smith, J P Bolam
Jan 1, 1986·Experimental Brain Research·E ScarnatiC Pacitti
May 12, 1988·Nature·S NedergaardS A Greenfield
Mar 1, 1985·Neuroscience·F G Gonon, M J Buda
May 6, 1985·Brain Research·A A Grace, B S Bunney
Jan 1, 1986·Annual Review of Neuroscience·G E AlexanderP L Strick
Dec 1, 1987·Neuroscience·P B ClarkeL R Skirboll
May 23, 1986·Neuroscience Letters·G R HolsteinJ Hámori
Sep 10, 1971·Brain Research·M Yoshida, W Precht
Sep 10, 1971·Brain Research·W Precht, M Yoshida
Feb 1, 1981·The Journal of Comparative Neurology·P SomogyiA D Smith
Oct 4, 1984·Nature·C R Gerfen
Jul 1, 1993·Neuroscience·N CorvajaJ P Bolam
Dec 1, 1994·Neuroscience·N KayadjanianM J Besson
Feb 1, 1995·Neuroscience Research·T FutamiS T Kitai
Oct 1, 1994·Neuroscience·K CherguiF Gonon
Jul 22, 1994·The Journal of Comparative Neurology·E Lynd-Balta, S N Haber
Aug 1, 1994·Synapse·H NissbrandtG Engberg
Nov 25, 1993·Nature·D L Cameron, J T Williams
Jul 1, 1995·Progress in Neurobiology·U MisgeldW Jarolimek
May 1, 1997·The Journal of Physiology·J RohrbacherU Misgeld
Mar 12, 1998·Brain Research. Brain Research Reviews·P G Overton, D Clark
Jul 1, 1998·British Journal of Pharmacology·B Gronier, K Rasmussen
Jul 17, 1998·Nature·C D Fiorillo, J T Williams
Oct 3, 1998·Neuroscience·E M SorensonS T Kitai
Apr 13, 1999·Neuroscience·C A PaladiniJ M Tepper
Apr 13, 1999·Neuroscience·P CeladaJ M Tepper
Jun 12, 1999·Neuroscience·P GrillnerN B Mercuri
Aug 13, 1999·Journal of Neurophysiology·Y IribeJ M Tepper
Dec 23, 1999·Current Opinion in Neurobiology·S T KitaiR Scroggs
Mar 22, 2001·Nature Reviews. Neuroscience·W Schultz
Sep 29, 2001·Science·B H FalkenburgerI M Mintz
Feb 28, 2002·Behavioural Brain Research·Pernilla Grillner, Nicola B Mercuri
Aug 2, 2002·Neuroscience·I Wallmichrath, B Szabo
Sep 3, 2002·Neuroscience·B I HylandR Miller
Nov 15, 2003·Neuroscience·Y YanovskyU Misgeld
Mar 8, 1990·The Journal of Comparative Neurology·S N HaberH J Groenewegen
❮ Previous
Next ❯
Citations
Jul 21, 2009·Journal of Neural Transmission·D ZádoriL Vécsei
Aug 23, 2011·Journal of Neural Transmission·Dénes ZádoriLászló Vécsei
Dec 1, 2012·Journal of Neural Transmission·Dénes ZádoriLászló Vécsei
Oct 5, 2011·Pharmacological Reviews·Maryka Quik, Susan Wonnacott
Oct 10, 2008·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Elena BrazhnikJames M Tepper
Aug 21, 2009·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Fu-Wen ZhouFu-Ming Zhou
Jun 24, 2014·Biochemical Pharmacology·Tristan D McClure-BegleyJerry A Stitzel
Jan 2, 2014·Journal of Neural Transmission·Giulia AmbrosiFabio Blandini
Aug 16, 2011·Neuroscience·F-M Zhou, C R Lee
Sep 25, 2010·European Journal of Pharmacology·Hernán CortésBenjamín Florán
Mar 9, 2010·Journal of Chemical Neuroanatomy·Silke MaierHeike Endepols
Jun 18, 2009·Neuroscience·O ChudomelA S Galanopoulou
Oct 24, 2006·Biochemical and Biophysical Research Communications·Xiuwu ZhangEverett H Ellinwood
Mar 11, 2009·Neuroscience·H Romo-ParraY Yanovsky
Sep 11, 2008·Movement Disorders : Official Journal of the Movement Disorder Society·Yoland Smith, Rosa Villalba
Sep 22, 2006·The European Journal of Neuroscience·François Windels, Eugene A Kiyatkin
Dec 16, 2010·Journal of Cellular and Molecular Medicine·Dénes ZádoriLászló Vécsei
Mar 4, 2011·Neuropathology and Applied Neurobiology·M ZuhayraU Lützen
Sep 17, 2005·Neuroscience·A Lessard, V M Pickel
May 15, 2007·Progress in Brain Research·Ulrich MisgeldYevgenij Yanovsky
Jul 20, 2007·Journal of Neurophysiology·Michele A KliemThomas Wichmann
Jul 10, 2010·Reviews in the Neurosciences·Fu-Ming Zhou
Sep 27, 2018·Journal of Neurophysiology·Verónica Alejandra Cáceres-ChávezJosé Bargas
Jun 28, 2021·Molecular Brain·Tertia D Purves-TysonCynthia Shannon Weickert
Nov 22, 2011·Learning & Memory·Jose J AcevesJose Bargas
❮ Previous
Next ❯
Related Concepts
Related Feeds
Basal Ganglia
Basal Ganglia are a group of subcortical nuclei in the brain associated with control of voluntary motor movements, procedural and habit learning, emotion, and cognition. Here is the latest research.
Related Papers
The European Journal of Neuroscience
Justin Boyes, J P Bolam
The Journal of Physiology
K Z Shen, S W Johnson
Progress in Neuro-psychopharmacology & Biological Psychiatry
J AcevesS Mariscal
Neuroscience
Y YanovskyU Misgeld