TY - JOUR T1 - Epigenetic Conditioning Induces Intergenerational Resilience to Dementia in a Mouse Model of Vascular Cognitive Impairment JF - bioRxiv DO - 10.1101/2021.06.16.448715 SP - 2021.06.16.448715 AU - Krystal Courtney D. Belmonte AU - Eleanor B. Holmgren AU - Tiffany A. Wills AU - Jeff M. Gidday Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/06/16/2021.06.16.448715.abstract N2 - Background Vascular cognitive impairment and dementia (VCID), which occurs immediately or in delayed fashion in 25-30% of stroke survivors, or secondary to chronic cerebral hypoperfusion, is the second leading cause of dementia following Alzheimer’s disease. To date, efficacious therapies are unavailable. We have shown previously in mice that repetitive hypoxic preconditioning (RHC) induces a long-lasting resilience to acute stroke (Stowe et al., 2011). More recently, we documented that untreated, first-generation adult progeny of mice exposed to RHC prior to mating are protected from retinal ischemic injury (Harman et al., 2020), consistent with accumulating evidence supporting the concept that long-lasting phenotypes induced epigenetically by intermittent stressors may be heritable. We undertook the present study to test the hypothesis that RHC will induce resilience to VCID, and that such RHC-induced resilience can also be inherited.Methods Chronic cerebral hypoperfusion (CCH) was induced in C57BL/6J mice secondary to bilateral carotid artery stenosis with microcoils in both the parental (F0) generation, and in their untreated first-generation (F1) offspring. Cohorts of F0 mice were directly exposed to either 8 wks of RHC (1 h of systemic hypoxia [11% oxygen] 3x/week) or normoxia prior to CCH. Cohorts of F1 mice were derived from F0 mice treated with RHC prior to mating, and untreated, normoxic controls that were age-matched at the time of stenosis induction. Demyelination in the corpus callosum of F0 mice was assessed following 3 months of CCH by immunohistochemistry. Mice from both generations were assessed for short-term recognition memory in vivo by novel object preference (NOP) testing following 3 months of CCH, and a month thereafter, ex vivo measurements of CA1 hippocampal long-term potentiation (LTP) were recorded from the same animals as a metric of long-lasting changes in synaptic plasticity.Results Three months of CCH caused demyelination and concomitant impairments in recognition memory in control mice from both generations. However, these CCH-induced memory impairments were prevented in F0 animals directly treated with RHC, as well as in their untreated adult F1 progeny. Similarly, hippocampal LTP was preserved in the 4-month CCH cohorts of mice directly treated with RHC, and in their untreated offspring with CCH.Conclusions Our findings demonstrate that RHC or other repetitively-presented, epigenetic-based therapeutics may hold promise for inducing a long-lasting resilience to VCID in treated individuals, and in their first-generation adult progeny.Competing Interest StatementThe authors have declared no competing interest. ER -