RGS2 drives male aggression in mice via the serotonergic system

RGS2 drives male aggression in mice via the serotonergic system

Aggressive behavior in our modern, civilized society is often counterproductive and destructive. Identifying specific proteins involved in the disease can serve as therapeutic targets for treating aggression. Here, we found that overexpression of RGS2 in explicitly serotonergic neurons augments male...

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Veröffentlicht in:Communications biology 2019-10, Vol.2 (1), p.373
Hauptverfasser: Mark, Melanie D, Wollenweber, Patric, Gesk, Annika, Kösters, Katja, Batzke, Katharina, Janoschka, Claudia, Maejima, Takashi, Han, Jing, Deneris, Evan S, Herlitze, Stefan
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container_start_page 373
container_title Communications biology
container_volume 2
creator Mark, Melanie D
Wollenweber, Patric
Gesk, Annika
Kösters, Katja
Batzke, Katharina
Janoschka, Claudia
Maejima, Takashi
Han, Jing
Deneris, Evan S
Herlitze, Stefan
description Aggressive behavior in our modern, civilized society is often counterproductive and destructive. Identifying specific proteins involved in the disease can serve as therapeutic targets for treating aggression. Here, we found that overexpression of RGS2 in explicitly serotonergic neurons augments male aggression in control mice and rescues male aggression in Rgs2 mice, while anxiety is not affected. The aggressive behavior is directly correlated to the immediate early gene c-fos induction in the dorsal raphe nuclei and ventrolateral part of the ventromedial nucleus hypothalamus, to an increase in spontaneous firing in serotonergic neurons and to a reduction in the modulatory action of G and G coupled 5HT and adrenergic receptors in serotonergic neurons of Rgs2-expressing mice. Collectively, these findings specifically identify that RGS2 expression in serotonergic neurons is sufficient to drive male aggression in mice and as a potential therapeutic target for treating aggression.
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title RGS2 drives male aggression in mice via the serotonergic system
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