PMID: 6168982Aug 7, 1981Paper
Activation by stress of the habenulo-interpeduncular substance P neurons in the rat
Neuroscience Letters
A LisoprawskiJ Glowinski
Abstract
Substance P levels were significantly decreased in the ventro-tegmental area and the interpeduncular nucleus of rats submitted for 20 min to electric foot-shocks. Substance P levels in the substantia nigra and in the prefrontal cortex were not affected. These results are discussed in light of the selective activation of the mesocortico-prefrontal dopaminergic neurons induced by this stress situation.
References
Jan 1, 1978·Neuropharmacology·J S HongE Costa
Feb 19, 1979·Life Sciences·R MichelotJ Glowinski
Dec 7, 1978·Nature·L StinusS D Iversen
Mar 1, 1978·The Journal of Comparative Neurology·A C Cuello, I Kanazawa
Jun 30, 1978·Brain Research·A C CuelloT Jessell
Jan 1, 1978·Neuroscience·A LjungdahlG Nilsson
Jun 8, 1979·Brain Research·S LavielleJ Glowinski
Dec 1, 1979·Neuroscience Letters·D HervéJ P Tassin
Nov 27, 1978·Life Sciences·F FaddaG L Gessa
Sep 3, 1976·Brain Research·E D MrozS E Leeman
Sep 16, 1976·Nature·A M ThierryJ Glowinski
Nov 5, 1976·Brain Research·M J BrownsteinS E Leeman
Nov 26, 1976·Brain Research·I Kanazawa, T Jessell
Jul 31, 1980·Biochemical and Biophysical Research Communications·R MichelotJ Glowinski
Apr 1, 1980·Neuroscience Letters·J P TassinJ Glowinski
Feb 3, 1980·Brain Research·A LisoprawskiJ P Tassin
Feb 1, 1978·Neuroscience Letters·G PaxinosA Claudio Cuello
❮ Previous
Next ❯
Citations
Nov 1, 1983·Naunyn-Schmiedeberg's Archives of Pharmacology·K Koshiya, T Kato
Feb 18, 1999·Canadian Journal of Anaesthesia = Journal Canadien D'anesthésie·N FukuharaO Nakanishi
Jul 6, 2006·Amino Acids·K Ebner, N Singewald
May 21, 1984·Brain Research·J K McQueenA J Harmar
Apr 29, 1985·Brain Research·A Y DeutchR H Roth
Sep 3, 1986·Brain Research·M J BannonR H Roth
Jan 15, 1986·Brain Research·P J ElliottS D Iversen
Jun 30, 1987·Brain Research·P W Kalivas, R Abhold
Sep 22, 1994·European Journal of Pharmacology·K BrodinE Brodin
Jan 1, 1985·Neuroscience and Biobehavioral Reviews·P W Kalivas
Jan 1, 1984·Pharmacology & Therapeutics·C B NemeroffA J Prange
Oct 1, 1986·Regulatory Peptides·H TakayamaN Ogawa
Jan 1, 1985·Peptides·A Y DeutchR H Roth
Jan 1, 1985·Peptides·L H LazarusA Guglietta
Oct 1, 1988·Brain Research Bulletin·G Halliday, I Törk
Jan 1, 1994·Brain Research Bulletin·S TucciL Hernandez
Jan 20, 2004·European Journal of Pharmacology·Peter H HutsonCheryl L Barton
Dec 22, 1999·Life Sciences·N Altier, J Stewart
Jul 1, 1999·Physiology & Behavior·N Altier, J Stewart
Nov 1, 1996·Behavioural Brain Research·C A MurphyM Murray
Nov 1, 1992·Acta Physiologica Scandinavica·A RosénE Brodin
Jan 1, 1992·Annals of the New York Academy of Sciences·C D KiltsC B Nemeroff
Mar 27, 2001·Annual Review of Pharmacology and Toxicology·S C StoutC B Nemeroff
May 15, 2004·Arthritis Research & Therapy·Anindya Gupta, Alan J Silman
Jan 1, 1984·Psychopharmacology·J P HermanM Le Moal
Mar 1, 1987·Pharmacology, Biochemistry, and Behavior·E W ThorntonA Wickens
Jan 2, 2007·Neuroscience·A LessardV M Pickel
Mar 17, 2010·The Journal of Physiology·Yan-Fang XiaGregory O Hjelmstad
Jun 4, 1984·Brain Research·S E Kapadia, N C de Lanerolle
Jan 29, 2008·Journal of Neurochemistry·Naoki ShigematsuKenji Yamamoto
Aug 1, 1990·Environmental Research·H NakamuraA Okada
Jan 1, 1988·Annals of the New York Academy of Sciences·R H RothA Y Deutch
Dec 22, 1983·Nature·M J BannonL L Iversen
Jul 1, 1996·Dermatologic Clinics·E Panconesi, G Hautmann
Jan 1, 1992·Annals of Biomedical Engineering·D G Buerk, T K Goldstick
Oct 27, 2012·Journal of Neurophysiology·Dinant A KistemakerPaul L Gribble
Jan 1, 1991·International Journal of Dermatology·E M FarberS W Lanigan
Jan 1, 1996·Synapse·Y MinabeC R Ashby
Apr 9, 2005·CNS Drugs·Inga Herpfer, Klaus Lieb
Aug 11, 1987·Brain Research·A Y DeutchR H Roth
Apr 1, 1994·Neuropeptides·E BrodinK Brodin
Jun 1, 1983·The Journal of Comparative Neurology·C H Taban, M Cathieni
Jan 20, 1984·The Journal of Comparative Neurology·G S Hamill, N J Lenn
Sep 11, 1998·Science·M S KramerN M Rupniak
❮ 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 Australasian Journal of Dermatology
W Ironside
Annals of the New York Academy of Sciences
S A LorensE Brodin