Abstract
Complex social behaviors are governed by a neural network theorized to be the social decision-making network (SDMN). However, this theoretical network is not tested on functional grounds. Here, we assess the organization of regions in the SDMN using c-Fos, to generate functional connectivity models during specific social interactions in a socially monogamous rodent, the prairie voles (Microtus ochrogaster). Male voles displayed robust selective affiliation toward a female partner, while exhibiting increased threatening, vigilant, and physically aggressive behaviors toward novel males and females. These social interactions increased c-Fos levels in eight of the thirteen brain regions of the SDMN. Each social encounter generated a distinct correlation pattern between individual brain regions. Thus, hierarchical clustering was used to characterize interrelated regions with similar c-Fos activity resulting in discrete network modules. Functional connectivity maps were constructed to emulate the network dynamics resulting from each social encounter. Our partner functional connectivity network presents similarities to the theoretical SDMN model, along with connections in the network that have been implicated in partner-directed affiliation. However, both stranger female and male networks exhibited distinct architecture from one another and the SDMN. Further, the stranger-evoked networks demonstrated connections associated with threat, physical aggression, and other aversive behaviors. Together, this indicates that distinct patterns of functional connectivity in the SDMN can be detected during select social encounters.
Highlights
Close relationships represent significant aspects of our social world
The social behavioral network was first described in 1999 in mammals, and this network is comprised of the anterior hypothalamus (AH), bed nucleus of the stria terminalis (BNST), lateral septum (LS), medial amygdala (MeA), medial preoptic area, periaqueductal gray (PAG), and ventromedial hypothalamus (VMH) (Newman, 1999)
Social encounters evoked increased activity in eight of the thirteen regions associated with the Social decision-making network (SDMN) in pair-bonded male voles when exposed to one of three social stimuli
Summary
Close relationships represent significant aspects of our social world. In particular, marriage and intimate relationships are associated with extended life expectancy and better emotional and physical health compared to an absence of such relationships (Lillard and Waite, 1995; Kiecolt-Glaser and Newton, 2001; Robles and Kiecolt-Glaser, 2003; Rendall et al, 2011; Functional Connectivity in Prairie VolesAbbreviation RegionAH BLA BNST HIP LS MeA mPOA NAcc PAG CP VMH VP VTA anterior hypothalamus basolateral amygdala bed nucleus of the stria terminalis hippocampus lateral septum medial amygdala medial preoptic area nucleus accumbens periaqueductal gray caudate putamen ventromedial hypothalamus ventral pallidum ventral tegmental areaSbarra and Coan, 2018). AH BLA BNST HIP LS MeA mPOA NAcc PAG CP VMH VP VTA anterior hypothalamus basolateral amygdala bed nucleus of the stria terminalis hippocampus lateral septum medial amygdala medial preoptic area nucleus accumbens periaqueductal gray caudate putamen ventromedial hypothalamus ventral pallidum ventral tegmental area. The SDMN is comprised of thirteen brain regions (Table 1) that form two interconnected circuits including the social behavioral network and the mesolimbic reward system (O’Connell and Hofmann, 2011). The second circuit in this network, the mesolimbic reward system, consists of the basolateral amygdala (BLA), BNST, caudate putamen (CP), hippocampus (HIP), LS, nucleus accumbens (NAcc), ventral pallidum (VP), and ventral tegmental area (VTA) (O’Connell and Hofmann, 2011). It is our intention to examine the regional activity, interregional coactivity, and network connectivity in distinct social encounters that give rise to specific social behaviors associated with relationship commitment
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
