Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety

Electrical stimulation of midbrain tectum structures, particularly the dorsal periaqueductal gray (dPAG) and inferior colliculus (IC), produces defensive responses, such as freezing and escape behavior. Freezing also ensues after termination of dPAG stimulation (post-stimulation freezing). These def...

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Main Authors: J.C. Brenes, A.C. Broiz, G.S. Bassi, R.K.W. Schwarting, M.L. Brandão
Format: Article
Language:English
Published: Associação Brasileira de Divulgação Científica 2012-04-01
Series:Brazilian Journal of Medical and Biological Research
Subjects:
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2012000400009&lng=en&tlng=en
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spelling doaj-a2fc345927fa41689543c14942962abb2020-11-25T00:42:26ZengAssociação Brasileira de Divulgação CientíficaBrazilian Journal of Medical and Biological Research1414-431X2012-04-01454349356S0100-879X2012000400009Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxietyJ.C. Brenes0A.C. Broiz1G.S. Bassi2R.K.W. Schwarting3M.L. Brandão4Philipps-Universität MarburgCampus USPCampus USPPhilipps-Universität MarburgCampus USPElectrical stimulation of midbrain tectum structures, particularly the dorsal periaqueductal gray (dPAG) and inferior colliculus (IC), produces defensive responses, such as freezing and escape behavior. Freezing also ensues after termination of dPAG stimulation (post-stimulation freezing). These defensive reaction responses are critically mediated by γ-aminobutyric acid and 5-hydroxytryptamine mechanisms in the midbrain tectum. Neurokinins (NKs) also play a role in the mediation of dPAG stimulation-evoked fear, but how NK receptors are involved in the global processing and expression of fear at the level of the midbrain tectum is yet unclear. The present study investigated the role of NK-1 receptors in unconditioned defensive behavior induced by electrical stimulation of the dPAG and IC of male Wistar rats. Spantide (100 pmol/0.2 μL), a selective NK-1 antagonist, injected into these midbrain structures had anti-aversive effects on defensive responses and distress ultrasonic vocalizations induced by stimulation of the dPAG but not of the IC. Moreover, intra-dPAG injections of spantide did not influence post-stimulation freezing or alter exploratory behavior in rats subjected to the elevated plus maze. These results suggest that NK-1 receptors are mainly involved in the mediation of defensive behavior organized in the dPAG. Dorsal periaqueductal gray-evoked post-stimulation freezing was not affected by intra-dPAG injections of spantide, suggesting that NK-1-mediated mechanisms are only involved in the output mechanisms of defensive behavior and not involved in the processing of ascending aversive information from the dPAG.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2012000400009&lng=en&tlng=enNeurokinin-1 receptorsDorsal periaqueductal graySpantideUnconditioned fearElevated plus mazeUltrasonic vocalizations
collection DOAJ
language English
format Article
sources DOAJ
author J.C. Brenes
A.C. Broiz
G.S. Bassi
R.K.W. Schwarting
M.L. Brandão
spellingShingle J.C. Brenes
A.C. Broiz
G.S. Bassi
R.K.W. Schwarting
M.L. Brandão
Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
Brazilian Journal of Medical and Biological Research
Neurokinin-1 receptors
Dorsal periaqueductal gray
Spantide
Unconditioned fear
Elevated plus maze
Ultrasonic vocalizations
author_facet J.C. Brenes
A.C. Broiz
G.S. Bassi
R.K.W. Schwarting
M.L. Brandão
author_sort J.C. Brenes
title Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
title_short Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
title_full Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
title_fullStr Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
title_full_unstemmed Involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
title_sort involvement of midbrain tectum neurokinin-mediated mechanisms in fear and anxiety
publisher Associação Brasileira de Divulgação Científica
series Brazilian Journal of Medical and Biological Research
issn 1414-431X
publishDate 2012-04-01
description Electrical stimulation of midbrain tectum structures, particularly the dorsal periaqueductal gray (dPAG) and inferior colliculus (IC), produces defensive responses, such as freezing and escape behavior. Freezing also ensues after termination of dPAG stimulation (post-stimulation freezing). These defensive reaction responses are critically mediated by γ-aminobutyric acid and 5-hydroxytryptamine mechanisms in the midbrain tectum. Neurokinins (NKs) also play a role in the mediation of dPAG stimulation-evoked fear, but how NK receptors are involved in the global processing and expression of fear at the level of the midbrain tectum is yet unclear. The present study investigated the role of NK-1 receptors in unconditioned defensive behavior induced by electrical stimulation of the dPAG and IC of male Wistar rats. Spantide (100 pmol/0.2 μL), a selective NK-1 antagonist, injected into these midbrain structures had anti-aversive effects on defensive responses and distress ultrasonic vocalizations induced by stimulation of the dPAG but not of the IC. Moreover, intra-dPAG injections of spantide did not influence post-stimulation freezing or alter exploratory behavior in rats subjected to the elevated plus maze. These results suggest that NK-1 receptors are mainly involved in the mediation of defensive behavior organized in the dPAG. Dorsal periaqueductal gray-evoked post-stimulation freezing was not affected by intra-dPAG injections of spantide, suggesting that NK-1-mediated mechanisms are only involved in the output mechanisms of defensive behavior and not involved in the processing of ascending aversive information from the dPAG.
topic Neurokinin-1 receptors
Dorsal periaqueductal gray
Spantide
Unconditioned fear
Elevated plus maze
Ultrasonic vocalizations
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2012000400009&lng=en&tlng=en
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