Abstract

Both aggressive and aggression-deprived (AD) species represent pathologic cases intensely addressed in psychiatry and substance abuse disciplines. Previously, we reported that AD mice displayed a higher aggressive behavior score than the aggressive group, implying the manifestation of a withdrawal effect. We employed an animal model of chronic social conflicts, curated in our lab for more than 30 years. In the study, we pursued the task of evaluating key events in the dorsal striatum transcriptome of aggression experienced mice and AD species compared to controls using RNA-Seq profiling. Aggressive species were subjected to repeated social conflict encounters (fights) with regular positive (winners) experience in the course of 20 consecutive days (A20 group). This led to a profoundly shifted transcriptome expression profile relative to the control group, outlined by more than 1000 differentially expressed genes (DEGs). RNA-Seq cluster analysis revealed that elevated cyclic AMP (cAMP) signaling cascade and associated genes comprising 170 differentially expressed genes (DEGs) in aggressive (A20) species were accompanied by a downturn in the majority of other metabolic/signaling gene networks (839 DEGs) via the activation of transcriptional repressor DEGs. Fourteen days of a consecutive fighting deprivation period (AD group) featured the basic restoration of the normal (control) transcriptome expression profile yielding only 62 DEGs against the control. Notably, we observed a network of 12 coordinated DEG Transcription Factor (TF) activators from 62 DEGs in total that were distinctly altered in AD compared to control group, underlining the distinct transcription programs featuring AD group, partly retained from the aggressive encounters and not restored to normal in 14 days. We found circadian clock TFs among them, reported previously as a withdrawal effect factor. We conclude that the aggressive phenotype selection with positive reward effect (winning) manifests an addiction model featuring a distinct opioid-related withdrawal effect in AD group. Along with reporting profound transcriptome alteration in A20 group and gaining some insight on its specifics, we outline specific TF activator gene networks associated with transcriptional repression in affected species compared to controls, outlining Nr1d1 as a primary candidate, thus offering putative therapeutic targets in opioid-induced withdrawal treatment.

Highlights

  • An aggression-tackling program manifests one of the key issues in health services due to the prevalence of aggression in societies across the world [1]

  • This implies that the dorsal striatum state of AD species is quite close to the control, while, in aggressive aggressive for 20 days (A20) species, there are a great deal of alterations

  • We report high overall attenuation of the dorsal striatum (DS) transcriptome expression rate (170 out of 1009 differentially expressed genes (DEGs) are upregulated in A20) upon aggression-related stress, featuring high dopamine uptake and endogenous opioid synthesis

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Summary

Introduction

An aggression-tackling program manifests one of the key issues in health services due to the prevalence of aggression in societies across the world [1]. It is established that the dorsal striatum (DS) and nucleus accumbens (NAcc) in the ventral part of the striatum manifest the coordinated regulation of motor activity and stereotypical behaviors [5] They are reported to be involved in a variety of cognitive, reward and social hierarchy maintenance and learning processes [6]. The dorsal striatum has been proven to supervise the consolidation of the new response upon the learning process [6] These brain regions are inherently involved in addictive, depressive and aggressive behavior [7,8,9] when regularly exposed to a stressful environment or substance abuse, leading to behavior pattern fixation

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