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RESEARCH PRODUCT
Sex differences in nucleus accumbens transcriptome profiles associated with susceptibility versus resilience to subchronic variable stress
Aki TakahashiDaniel J. ChristoffelH. Francisca AhnLi ShenMinghui WangGeorgia E. HodesMadeline L. PfauGustavo TureckiZachary S. LorschImmanuel PurushothamanMeghan E. FlaniganCaroline MenardSam A. GoldenScott J. RussoMitra HeshmatiRachel L. NeveJa Wook KooJian FengAnna EbrancatoJane MagidaHossein AleyasinEric J. NestlerBin Zhangsubject
Malemedicine.medical_specialtyMethyltransferaseStreRepression PsychologyNucleus accumbensBiologyAnxietyMotor ActivityGene Expression Regulation EnzymologicNucleus AccumbensDNA Methyltransferase 3ATranscriptomeMiceInternal medicineGene expressionmedicineTranscriptional regulationAnimalsNucleus accumbenEpigeneticsDNA (Cytosine-5-)-MethyltransferasesGene Knock-In TechniquesSwimmingGeneticsMice KnockoutSex CharacteristicsBehaviorNeuroscience (all)DepressionGeneral NeuroscienceEpigeneticFeeding BehaviorArticlesResilience PsychologicalSex differenceMice Inbred C57BLEndocrinologyChronic DiseaseBrain stimulation rewardFemaleTranscriptomeStress PsychologicalSex characteristicsdescription
Depression and anxiety disorders are more prevalent in females, but the majority of research in animal models, the first step in finding new treatments, has focused predominantly on males. Here we report that exposure to subchronic variable stress (SCVS) induces depression-associated behaviors in female mice, whereas males are resilient as they do not develop these behavioral abnormalities. In concert with these different behavioral responses, transcriptional analysis of nucleus accumbens (NAc), a major brain reward region, by use of RNA sequencing (RNA-seq) revealed markedly different patterns of stress regulation of gene expression between the sexes. Among the genes displaying sex differences was DNA methyltransferase 3a (Dnmt3a), which shows a greater induction in females after SCVS. Interestingly, Dnmt3a expression levels were increased in the NAc of depressed humans, an effect seen in both males and females. Local overexpression of Dnmt3a in NAc rendered male mice more susceptible to SCVS, whereasDnmt3aknock-out in this region rendered females more resilient, directly implicating this gene in stress responses. Associated with this enhanced resilience of female mice upon NAc knock-out ofDnmt3awas a partial shift of the NAc female transcriptome toward the male pattern after SCVS. These data indicate that males and females undergo different patterns of transcriptional regulation in response to stress and that a DNA methyltransferase in NAc contributes to sex differences in stress vulnerability.SIGNIFICANCE STATEMENTWomen have a higher incidence of depression than men. However, preclinical models, the first step in developing new diagnostics and therapeutics, have been performed mainly on male subjects. Using a stress-based animal model of depression that causes behavioral effects in females but not males, we demonstrate a sex-specific transcriptional profile in brain reward circuitry. This transcriptional profile can be altered by removal of an epigenetic mechanism, which normally suppresses DNA transcription, creating a hybrid male/female transcriptional pattern. Removal of this epigenetic mechanism also induces behavioral resilience to stress in females. These findings shed new light onto molecular factors controlling sex differences in stress response.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-12-16 |