Differential impact of Met receptor gene interaction with early-life stress on neuronal morphology and behavior in mice
Publication date: February 2018Source: Neurobiology of Stress, Volume 8Author(s): Hanke Heun-Johnson, Pat LevittAbstractEarly adversity in childhood increases the risk of anxiety, mood, and post-traumatic stress disorders in adulthood, and specific gene-by-environment interactions may increase risk further. A common functional variant in the promoter region of the gene encoding the human MET receptor tyrosine kinase (rs1858830 āCā allele) reduces expression of MET and is associated with altered cortical circuit function and structural connectivity. Mice with reduced Met expression exhibit changes in anxiety-like and conditioned fear behavior, precocious synaptic maturation in the hippocampus, and reduced neuronal arbor complexity and synaptogenesis. These phenotypes also can be produced independently by early adversity in wild-type mice. The present study addresses the outcome of combining early-life stress and genetic influences that alter timing of maturation on enduring functional and structural phenotypes. Using a model of reduced Met expression (Met+/ā) and early-life stress from postnatal day 2ā9, social, anxiety-like, and contextual fear behaviors in later life were measured. Mice that experienced early-life stress exhibited impairments in social interaction, whereas alterations in anxiety-like behavior and fear learning were driven by Met haploinsufficiency, independent of rearing condition. Early-life stress or reduced Met expression decreased arbor complexit...
Source: Neurobiology of Stress - Category: Neuroscience Source Type: research
More News: Anxiety | Brain | Environmental Health | Genetics | Learning | Neurology | Post Traumatic Stress Disorder | Social Anxiety Disorder | Study | Universities & Medical Training