Control of Intermale Aggression by Medial Prefrontal Cortex Activation in the Mouse

Takahashi, Akiyoshi; Nagayasu, Kazuki; Nishitani, Naoya; Kaneko, Shuji; Koide, Tsuyoshi

doi:10.1371/journal.pone.0094657

Cited by 106 publications

(82 citation statements)

References 47 publications

(53 reference statements)

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“…Aggressive behavior has been linked to PFC hypo-activation, especially in the dorsal anterior cingulate in humans (Sterzer et al 2005; Meyer-Lindenberg and Weinberger 2006), and alcohol further impairs inhibitory control through diminished PFC activity (Anderson et al 2011). Recent studies using optogenetics confirm that the silencing of excitatory neurons in the mPFC causes increased aggressive behavior and its activation suppresses aggression (Takahashi et al 2014). The current experiments showing changes in mPFC glutamate and social behavior are consistent with this body of literature.…”

Section: Discussionmentioning

confidence: 99%

Aggression and increased glutamate in the mPFC during withdrawal from intermittent alcohol in outbred mice

et al. 2015

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Rationale Disrupted social behavior, including occasional aggressive outbursts, is characteristic of withdrawal from long-term alcohol (EtOH) use. Heavy EtOH use and exaggerated responses during withdrawal may be treated using glutamatergic N-methyl-D-aspartate receptor (NMDAR) antagonists. Objectives The current experiments explore aggression and medial prefrontal cortex (mPFC) glutamate as consequences of withdrawal from intermittent access to EtOH, and changes in aggression and mPFC glutamate caused by NMDAR antagonists memantine and ketamine. Methods Swiss male mice underwent withdrawal following 1-8 weeks of intermittent access to 20% EtOH. Aggressive and non-aggressive behaviors with a conspecific were measured 6-8 h into EtOH withdrawal after memantine or ketamine (0-30 mg/kg, i.p.) administration. In separate mice, extracellular mPFC glutamate after memantine was measured during withdrawal using in vivo microdialysis. Results At 6-8 h withdrawal from EtOH, mice exhibited more convulsions and aggression, and decreased social contact compared to age-matched water controls. Memantine, but not ketamine, increased withdrawal aggression at the 5 mg/kg dose in mice with a history of 8 weeks EtOH but not 1 or 4 weeks of EtOH or in water drinkers. Tonic mPFC glutamate was higher during withdrawal after 8 weeks EtOH compared to 1 week EtOH or 8 weeks water. Five mg/kg memantine increased glutamate in 8 week EtOH mice, but also in 1 week EtOH and water drinkers. Conclusions These studies reveal aggressive behavior as a novel symptom of EtOH withdrawal in outbred mice and confirm a role of NMDARs during withdrawal aggression and for disrupted social behavior.

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Section: Discussionmentioning

confidence: 99%

Aggression and increased glutamate in the mPFC during withdrawal from intermittent alcohol in outbred mice

et al. 2015

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“…Another inhibitory mechanism seems to be provided by the intermediate and ventral regions of the lateral septum (LSi, LSv). The descending fibers from the lateral septal areas precisely traverse the IHA/HAA in a caudal direction [82] and functionally the inhibitory effects on aggression of these brain areas have been observed in many studies, starting with the seminal limbic lesion experiments of the Blanchard's in the late sixties [32,56,[83][84][85]. In addition, the LS is characterized by a sexually dimorphic density of vasopressinergic fibers that originate from the medial amygdala (see also next section below).…”

Section: Afferent Connectionsmentioning

confidence: 97%

The neurobiology of offensive aggression: Revealing a modular view

Boer

Olivier

Veening

et al. 2015

Physiology & Behavior

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“…the amygdala, ventral tegmental area, NAc) (Okuyama et al 2016; Wong et al 2016; Lin et al 2011; Hitti & Siegelbaum 2014; Yizhar et al 2011; E. Lee et al 2016; van Kerkhof et al 2013; Takahashi et al 2014; Wang et al 2011; Bicks et al 2015; Gunaydin et al 2014; Felix-Ortiz et al 2016; Amadei et al 2017). …”

Section: Introductionmentioning

confidence: 99%

Combined Social and Spatial Coding in a Descending Projection from the Prefrontal Cortex

Murugan

Jang

Park

et al. 2017

Cell

242

189

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Social behaviors are crucial to all mammals. Although the prelimbic cortex (PL, part of medial prefrontal cortex) has been implicated in social behavior, it is not clear which neurons are relevant, nor how they contribute. We found that PL contains anatomically and molecularly distinct subpopulations that target 3 downstream regions that have been implicated in social behavior: the nucleus accumbens (NAc), amygdala, and ventral tegmental area. Activation of NAc-projecting PL neurons (PL-NAc), but not the other subpopulations, decreased preference for a social target. To determine what information PL-NAc neurons convey, we recorded selectively from them, and found that individual neurons were active during social investigation, but only in specific spatial locations. Spatially-specific manipulation of these neurons bidirectionally regulated the formation of a social-spatial association. Thus, the unexpected combination of social and spatial information within the PL-NAc may contribute to social behavior by supporting social-spatial learning.

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Control of Intermale Aggression by Medial Prefrontal Cortex Activation in the Mouse

Cited by 106 publications

References 47 publications

Aggression and increased glutamate in the mPFC during withdrawal from intermittent alcohol in outbred mice

Aggression and increased glutamate in the mPFC during withdrawal from intermittent alcohol in outbred mice

The neurobiology of offensive aggression: Revealing a modular view

Combined Social and Spatial Coding in a Descending Projection from the Prefrontal Cortex

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