A collection of ex vivo diffusion MRI data of mouse brains acquired in a study of early life stress (PI: Dr. Arie Kaffman). There are a total of 24 mouse brains (F/M=12/12, Stressed/Control=12/12, please see the List_of_Animals.xlsx for details). Data were saved in the Analyze format and can be opened using MRICro or other software tools that support the Analyze format. For each mouse, the average diffusion weighted and fractional anisotropy (FA) images were provided.
Dataset supports manuscript: Jordon D. White, Tanzil M. Arefin, Alexa Pugliese, et al. Early life stress causes sex-specific changes in adult fronto-limbic connectivity that differentially drive learning. Authorea. May 26, 2020.
DOI: 10.22541/au.159050220.00045500
Abstract: It is currently unclear whether early life stress (ELS) affects males and females differently. However, a growing body of work has shown that sex moderates responses to stress and injury, with important insights into sex-specific mechanisms provided by work in rodents. Unfortunately, most of the ELS studies in rodents were conducted only in males, a bias that is particularly notable in translational work that has used human imaging. Here we examine the effects of unpredictable postnatal stress (UPS), a mouse model of complex ELS, using high resolution diffusion magnetic resonance imaging. We show that UPS induces several neuroanatomical alterations that were seen in both sexes and resemble those reported in humans. In contrast, exposure to UPS induced fronto-limbic hyper-connectivity in males, but either no change or hypoconnectivity in females. Moderated-mediation analysis found that these sex-specific changes are likely to alter contextual freezing behavior in males but not in females.
Funding
Amygdala hyper-connectivity in a mouse model of unpredictable early life stress