The Vertebrate mesolimbic reward system and social behavior network: A comparative synthesis

O’Connell, Lauren A.; Hofmann, Hans A.

doi:10.1002/cne.22735

Cited by 870 publications

(939 citation statements)

References 529 publications

(616 reference statements)

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“…11); this is a measure of the degree to which nodes correlate with multiple modules and has been argued to be an appropriate measure of "hubness" for correlation-based networks 73 . Agranular insular (AI) cortex was among the nodes with the highest participation coefficients along with prelimbic prefrontal cortex (PL), piriform cortex (Pir) and dorsal bed nucleus (BSTd), regions that are associated with emotion contagion 52 , social learning 74 and social decision-making 6 , respectively. Thus, datadriven network analyses revealed functional integration among regions in the social brain, and that the insula is positioned to interact with previously identified nodes important for social and affective behaviors.…”

Section: Insular Cortex and The Social Decision-making Networkmentioning

confidence: 99%

“…Sensory and perceptive systems in the "social decision-making network" (SDMN) which consists of the social brain network 4 and the mesolimbic reward system 5 allow one to appraise these social stimuli and integrate them with past experiences, situational, and somatic factors to shape specific behavioral responses 6 . In addition to the SDMN, growing evidence implicates insular cortex in responding to socioemotional stimuli in humans.…”

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confidence: 99%

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Insular Cortex Mediates Approach and Avoidance Responses to Social Affective Stimuli

Rogers

Varela

Gribbons

et al. 2017

Preprint

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Social animals detect the affective states of others and utilize this information to orchestrate appropriate social interactions. Social affective behaviors include cooperation, reproductive acts and avoiding sick individuals. In a social affective behavioral test in which experimental adult male rats were given the choice to interact with either naive or stressed conspecifics, the experimental rats demonstrated both approach and avoidant behaviors towards the conspecific, depending upon the age of the conspecific; experimental adult rats approached the stressed juvenile but avoided the stressed adult. Optogenetic inhibition of the insular cortex, a region anatomically positioned to contribute to social cognition, disrupted these behaviors. Receptors for the social nonapeptide oxytocin (OT) are found in high density within the insular cortex and here oxytocin increased intrinsic excitability and synaptic efficacy in acute insular cortex slices. Blockade of oxytocin receptors (OTRs) in the insula eliminated the effect of conspecific stress on approach behavior, while insular administration of OT recapitulated the behaviors typically observed in response to stressed conspecifics. Network analysis using Fos immunoreactivity identified functional connectivity between the insular cortex and the network of regions involved in social decision making. These results implicate insular cortex as a novel target of OT and suggest that insula is a key component in the circuit underlying age-dependent social responses to stressed conspecifics.Social animals, including humans, have an enormous repertoire of behavioral expressions that provide for the transmission of one's affective state to other members of the group 1-3 . Sensory and perceptive systems in the "social decision-making network" (SDMN) which consists of the social brain network 4 and the mesolimbic reward system 5 allow one to appraise these social stimuli and integrate them with past experiences, situational, and somatic factors to shape specific behavioral responses 6 . In addition to the SDMN, growing evidence implicates insular cortex in responding to socioemotional stimuli in humans. When tasked to identify the emotion of another from a facial expression, or to observe another suffer a painful stimulation, a reliable neural correlate is relative increase in the blood oxygen level dependent (BOLD) signal in the insular cortex 7,8 . Accordingly, emotion recognition and empathic deficits have been reported among individuals with insular cortex lesions [9][10][11][12] . Empathic processes are also disrupted in autism spectrum 1 Department of Psychology, Boston College, Chestnut Hill, MA 02467, USA 2 These authors made equal contributions to this work. *Corresponding Author: John P. Christianson, Department of Psychology, Boston College, 140 Commonwealth Avenue, Chestnut Hill, MA 02467 USA, Email: j.christianson@bc.edu, Phone: +1-617-552-3970.A note about the preprint. This manuscript was submitted to bioRxiv.org after multiple rounds of peer review. The manuscrip...

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Section: Insular Cortex and The Social Decision-making Networkmentioning

confidence: 99%

mentioning

confidence: 99%

Insular Cortex Mediates Approach and Avoidance Responses to Social Affective Stimuli

Rogers

Varela

Gribbons

et al. 2017

Preprint

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“…The SBN comprises six brain nuclei, or nodes (lateral septum, medial extended amygdala/bed nucleus of the stria terminalis, preoptic area, anterior hypothalamus, ventromedial hypothalamus, and midbrain periaqueductal gray/tegmentum) that are reciprocally connected and express high levels of steroid receptors. Originally identified in mammals (32), homologous regions have been found in reptiles (33), fish (34,35), and birds (33), providing a useful framework for analyzing the neural bases of social behaviors (36,37). The expression of steroid receptors in the SBN nuclei suggests that these nodes are also important neural substrates for integration of social behavior with an animal's hormonal state.…”

Section: Brain Responses To Social Information and Behaviormentioning

confidence: 99%

Social information changes the brain

Fernald

Maruska

2012

Proc. Natl. Acad. Sci. U.S.A.

125

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Social animals live in complex physical and social environments requiring them to attend and rapidly respond to social and environmental information by changing their behavior. A key social influence is rank or status, a ubiquitous element in animal societies. Rank typically regulates access to reproduction and other resources, among other consequences for individuals. Because reproduction is arguably the most important event in any animals' life, understanding how reproduction is regulated by social status and related physiological factors can instruct our understanding of evolutionary change. This article reviews evidence from a model social system in which reproduction is tightly controlled by social status. Surprisingly, changes in social status have rapid and profound effects over very short time scales and radically alter overt behavior, as well as physiological, cellular, and molecular factors that regulate reproductive capacity.brain plasticity | cichlid fish | immediate early gene | social rank

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“…The main buain stuuctuues of the mesolimbic uewaud system aue the stuiatum (STR: compulsive behaviou), ventual tegmental auea (VTA: motivation, uepuoduction, pauental caue), medial amygdala (meAMY: agguession uepuoduction, pauental caue, social uecognition), ventual pallidum (VP: emotional leauning, pauental behaviou), nucleus accumbens (NAcc: emotional leauning, impulsivity, motivation, pauental caue), and the hippocampus (HIP: spatial leauning) (behavious fuom O'Connell & Hofmann, 2011;Beuuidge & Kuingelbach, 2008). In humans the subcoutical cognition and coutical consciousness of pleasuue is uelated to activity uates in the medial oubitofuontal, mid insulau, and the anteuiou cingulate aueas (de Auaujo et al, 2003).…”

Section: Neuuophysiology Of Sexual Behavioumentioning

confidence: 99%

“…Inteuestingly, both buain aueas, the social behaviou netwouk and the uewaud system, consists of highly inteuactive nodes and oveulapping stuuctuues, which uepuesent an integuated evolutionauy ancient social decision-making netwouk (O'Connell and Hofmann, 2011).…”

Section: Neuuophysiology Of Sexual Behavioumentioning

confidence: 99%

Sexual attractiveness: a comparative approach of morphological, behavioral neurophysiological signaling in women and nonhuman primate females

Wallner

Windhager

Schaschl

et al. 2017

Preprint

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This comprehensive review focuses on comparative data in nonhuman primates and humans in relation to signaling secondary sex characteristics (SSC), sexual behavior, and neurophysiology of sexuality during the female cycle. Obviously, sexual activities of primates are not limited to specific cycle phases. In higher evolved primate species no distinction can be drawn between sexual interactions as a prerequisite for reproduction or as a pleasurable tool. However, cyclic depended changes of body morphology and behavior, such as feeding, risk taking, mood changes, are documented for both groups.Neurophysiologically, homologous brain areas, sex steroids and receptor compartments are involved in mediating sexual and pleasure during all cycle stages. The interaction between the subcortical reward system and the social brain network and its projection to the prefrontal cortex are of importance. The advertising of SSC indicate analogous strategies between human one male social units and multifemale-multimale groups in nonhuman primates. Women do advertise SSC permanently after the onset of puberty. In contrast, some nonhuman primate species express attractive signals during specific cycle stages and prolong them beyond fertile periods. The physiological and morphological nature of primate SSC and their flexibility of expression in relation to their information content for males will be discussed during different cycle periods for both groups. Because

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The Vertebrate mesolimbic reward system and social behavior network: A comparative synthesis

Cited by 870 publications

References 529 publications

Insular Cortex Mediates Approach and Avoidance Responses to Social Affective Stimuli

Insular Cortex Mediates Approach and Avoidance Responses to Social Affective Stimuli

Social information changes the brain

Sexual attractiveness: a comparative approach of morphological, behavioral neurophysiological signaling in women and nonhuman primate females

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