Abstract
Social cognition relies on two main subsystems to construct the understanding of others, which are sustained by different social brain networks. One of these social networks is the default mode network (DMN) associated with the socio-cognitive subsystem (i.e., mentalizing), and the other is the salience network (SN) associated with the socio-affective route (i.e., empathy). The DMN and the SN are well-known resting state networks that seem to constitute a baseline for the performance of social tasks. We aimed to investigate both networks' functional connectivity (FC) pattern in the transition from resting state to social task performance. A sample of 38 participants involved in a monogamous romantic relationship completed a questionnaire of dyadic empathy and underwent an fMRI protocol that included a resting state acquisition followed by a task in which subjects watched emotional videos of their romantic partner and elaborated on their partner's (Other condition) or on their own experience (Self condition). Independent component and ROI-to-ROI correlation analysis were used to assess alterations in task-independent (Rest condition) and task-dependent (Self and Other conditions) FC. We found that the spatial FC maps of the DMN and SN evidenced the traditional regions associated with these networks in the three conditions. Anterior and posterior DMN regions exhibited increased FC during the social task performance compared to resting state. The Other condition revealed a more limited SN's connectivity in comparison to the Self and Rest conditions. The results revealed an interplay between the main nodes of the DMN and the core regions of the SN, particularly evident in the Self and Other conditions.
Highlights
Humans are highly social beings whose general welfare depends on the quality of the relationships established with others
An anterior and posterior default mode network (DMN) increased functional connectivity (FC) on the Other condition compared to the Rest was observed on the frontal medial orbital cortex (FMO), posterior cingulate cortex (PCC)/precuneus, and left lingual/parahippocampal gyrus
Regarding the correlations between the DMN’s connectivity and the participant’s social cognitive scores, we found that the total Interpersonal Reactivity Index for Couples (IRIC) scores, as well as the cognitive subscale of IRIC, were positively correlated with the FC in the superior medial frontal gyrus (SMFG)
Summary
Humans are highly social beings whose general welfare depends on the quality of the relationships established with others. Social cognition (SC) is a fundamental ability underlying the most significant human interactions, allowing us to understand our own and others’ mental states, anticipate their actions, and act [1,2,3]. This ability is essential for adaptive interpersonal relationships, including those that we establish with significant close others. SC involves both low-level embodied processes and high-level inference-based processes
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