Vivaria housing conditions expose sex differences in brain oxidation, microglial activation, and immune system states in aged hAPOE4 mice.
E M Reyes-ReyesJ BrownM D TrialD ChinnasamyJ P WiegandD BradfordR D BrintonDavid BradfordPublished in: Experimental brain research (2024)
Apolipoprotein E ε4 allele (APOE4) is the predominant genetic risk factor for late-onset Alzheimer's disease (AD). APOE4 mouse models have provided advances in the understanding of disease pathogenesis, but unaccounted variables like rodent housing status may hinder translational outcomes. Non-sterile aspects like food and bedding can be major sources of changes in rodent microflora. Alterations in intestinal microbial ecology can cause mucosal barrier impairment and increase pro-inflammatory signals. The present study examined the role of sterile and non-sterile food and housing on redox indicators and the immune status of humanized-APOE4 knock-in mice (hAPOe4). hAPOE4 mice were housed under sterile conditions until 22 months of age, followed by the transfer of a cohort of mice to non-sterile housing for 2 months. At 24 months of age, the redox/immunologic status was evaluated by flow cytometry/ELISA. hAPOE4 females housed under non-sterile conditions exhibited: (1) higher neuronal and microglial oxygen radical production and (2) lower CD68 + microglia (brain) and CD8 + T cells (periphery) compared to sterile-housed mice. In contrast, hAPOE4 males in non-sterile housing exhibited: (1) higher MHCII + microglia and CD11b + CD4 + T cells (brain) and (2) higher CD11b + CD4 + T cells and levels of lipopolysaccharide-binding protein and inflammatory cytokines in the periphery relative to sterile-housed mice. This study demonstrated that sterile vs. non-sterile housing conditions are associated with the activation of redox and immune responses in the brain and periphery in a sex-dependent manner. Therefore, housing status may contribute to variable outcomes in both the brain and periphery.
Keyphrases
- high fat diet induced
- mental illness
- resting state
- inflammatory response
- late onset
- white matter
- immune response
- cognitive decline
- cerebral ischemia
- neuropathic pain
- high fat diet
- binding protein
- functional connectivity
- gene expression
- adipose tissue
- flow cytometry
- drinking water
- computed tomography
- insulin resistance
- multiple sclerosis
- dna methylation
- lps induced
- toll like receptor
- lipopolysaccharide induced
- climate change
- blood brain barrier
- spinal cord