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Literature DB >> 29524848

Neurocircuitry of aggression and aggression seeking behavior: nose poking into brain circuitry controlling aggression.

Hossein Aleyasin¹, Meghan E Flanigan¹, Scott J Russo².

Abstract

Aggression is an innate behavior that helps individuals succeed in environments with limited resources. Over the past few decades, neurobiologists have identified neural circuits that promote and modulate aggression; however, far less is known regarding the motivational processes that drive aggression. Recent research suggests that aggression can activate reward centers in the brain to promote positive valence. Here, we review major recent findings regarding neural circuits that regulate aggression, with an emphasis on those regions involved in the rewarding or reinforcing properties of aggressive behavior.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2018 PMID： 29524848 PMCID： PMC5935264 DOI： 10.1016/j.conb.2018.02.013

Source DB: PubMed Journal: Curr Opin Neurobiol ISSN： 0959-4388 Impact factor: 6.627

54 in total

Review 1. An emerging role for the lateral habenula in aggressive behavior.

Authors: Meghan Flanigan; Hossein Aleyasin; Aki Takahashi; Sam A Golden; Scott J Russo
Journal: Pharmacol Biochem Behav Date: 2017-05-10 Impact factor: 3.533

2. Neural and Behavioral Correlates of Alcohol-Induced Aggression Under Provocation.

Authors: Gabriela Gan; Philipp Sterzer; Michael Marxen; Ulrich S Zimmermann; Michael N Smolka
Journal: Neuropsychopharmacology Date: 2015-05-14 Impact factor: 7.853

3. Medial amygdalar aromatase neurons regulate aggression in both sexes.

Authors: Elizabeth K Unger; Kenneth J Burke; Cindy F Yang; Kevin J Bender; Patrick M Fuller; Nirao M Shah
Journal: Cell Rep Date: 2015-01-22 Impact factor: 9.423

4. A sexually dimorphic hypothalamic circuit controls maternal care and oxytocin secretion.

Authors: Niv Scott; Matthias Prigge; Ofer Yizhar; Tali Kimchi
Journal: Nature Date: 2015-09-16 Impact factor: 49.962

5. The objects attacked by cats during stimulation of the hypothalamus.

Authors: P K Levison; J P Flynn
Journal: Anim Behav Date: 1965 Apr-Jul Impact factor: 2.844

Review 6. Corticolimbic function in impulsive aggressive behavior.

Authors: Emil F Coccaro; Chandra Sekhar Sripada; Rachel N Yanowitch; K Luan Phan
Journal: Biol Psychiatry Date: 2011-05-04 Impact factor: 13.382

7. Functional identification of an aggression locus in the mouse hypothalamus.

Authors: Dayu Lin; Maureen P Boyle; Piotr Dollar; Hyosang Lee; E S Lein; Pietro Perona; David J Anderson
Journal: Nature Date: 2011-02-10 Impact factor: 49.962

8. Dopamine and serotonin signaling during two sensitive developmental periods differentially impact adult aggressive and affective behaviors in mice.

Authors: Q Yu; C M Teixeira; D Mahadevia; Y Huang; D Balsam; J J Mann; J A Gingrich; M S Ansorge
Journal: Mol Psychiatry Date: 2014-03-04 Impact factor: 15.992

9. The rewarding effect of aggression is reduced by nucleus accumbens dopamine receptor antagonism in mice.

Authors: Maria H Couppis; Craig H Kennedy
Journal: Psychopharmacology (Berl) Date: 2008-01-08 Impact factor: 4.530

10. Perpetuating the cycle of violence in South African low-income communities: attraction to violence in young men exposed to continuous threat.

Authors: Martina Hinsberger; Jessica Sommer; Debra Kaminer; Leon Holtzhausen; Roland Weierstall; Soraya Seedat; Solomon Madikane; Thomas Elbert
Journal: Eur J Psychotraumatol Date: 2016-01-07

19 in total

1. Nucleus Accumbens Dopamine Receptor 1 Expressing Neurons Are Instrumental in Appetitive Aggression.

Authors: Martyna Panasiuk; Alexandra Hertz; Oliver Gale-Grant
Journal: J Neurosci Date: 2019-08-21 Impact factor: 6.167

2. Nucleus Accumbens Drd1-Expressing Neurons Control Aggression Self-Administration and Aggression Seeking in Mice.

Authors: Sam A Golden; Michelle Jin; Conor Heins; Marco Venniro; Michael Michaelides; Yavin Shaham
Journal: J Neurosci Date: 2019-01-17 Impact factor: 6.167

Review 3. Regulation of aggressive behaviors by nicotinic acetylcholine receptors: Animal models, human genetics, and clinical studies.

Authors: Alan S Lewis; Marina R Picciotto
Journal: Neuropharmacology Date: 2019-12-26 Impact factor: 5.250

Review 10. Drosophila Corazonin Neurons as a Hub for Regulating Growth, Stress Responses, Ethanol-Related Behaviors, Copulation Persistence and Sexually Dimorphic Reward Pathways.

Authors: Ziam Khan; Maya Tondravi; Ryan Oliver; Fernando J Vonhoff
Journal: J Dev Biol Date: 2021-07-05