Nurture outpaces nature: fostering with an attentive mother alters social dominance in a mouse model of stress sensitivity.
Debpali SurOryan AgranyoniMichael KirbyNaamah CohenAnastasia BagaevKristina KarandashevaElena ShmerkinDenis GorobetsBrajesh Kumar SavitaRaphael AvneriMali-Salmon DivonElad LaxIzhak MichaelevskiAlbert PinhasovPublished in: Molecular psychiatry (2023)
Maternal care is critical for epigenetic programming during postnatal brain development. Stress is recognized as a critical factor that may affect maternal behavior, yet owing to high heterogeneity in stress response, its impact varies among individuals. We aimed here to understand the connection between inborn stress vulnerability, maternal care, and early epigenetic programming using mouse populations that exhibit opposite poles of the behavioral spectrum (social dominance [Dom] and submissiveness [Sub]) and differential response to stress. In contrast to stress-resilient Dom dams, stress-vulnerable Sub dams exhibit significantly lower maternal attachment, serum oxytocin, and colonic Lactobacillus reuteri populations. Sub offspring showed a reduced hippocampal expression of key methylation genes at postnatal day (PND) 7 and a lack of developmentally-dependent increase in 5-methylcytosine (5-mC) at PND 21. In addition, Sub pups exhibit significant hypermethylation of gene promoters connected with glutamatergic synapses and behavioral responses. We were able to reverse the submissive endophenotype through cross-fostering Sub pups with Dom dams (Sub/D). Thus, Sub/D pups exhibited elevated hippocampal expression of DNMT3A at PND 7 and increased 5-mC levels at PND 21. Furthermore, adult Sub/D offspring exhibited increased sociability, social dominance, and hippocampal glutamate and monoamine levels resembling the neurochemical profile of Dom mice. We postulate that maternal inborn stress vulnerability governs epigenetic patterning sculpted by maternal care and intestinal microbiome diversity during early developmental stages and shapes the array of gene expression patterns that may dictate neuronal architecture with a long-lasting impact on stress sensitivity and the social behavior of offspring.
Keyphrases
- gene expression
- healthcare
- dna methylation
- birth weight
- palliative care
- pregnancy outcomes
- high fat diet
- stress induced
- mouse model
- mental health
- poor prognosis
- quality improvement
- magnetic resonance
- type diabetes
- climate change
- preterm infants
- metabolic syndrome
- multiple sclerosis
- body mass index
- adipose tissue
- mass spectrometry
- single cell
- magnetic resonance imaging
- pain management
- contrast enhanced
- copy number
- functional connectivity
- genome wide identification
- high fat diet induced