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Circadian-Dependent Intermittent Fasting Influences Ischemic Tolerance and Dendritic Spine Remodeling

Soomin Jeong, Anil K. Chokkalla, Charles K. Davis, Hyunmook Jeong, Bharath Chelluboina, Vijay Arruri, Bori R. Kim, Ashlyn Narman, Saivenkateshkomal Bathula, Thiruma V. Arumugam, Barbara B. Bendlin, Raghu Vemuganti

2024Stroke14 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Preconditioning by intermittent fasting is linked to improved cognition and motor function, and enhanced recovery after stroke. Although the duration of fasting was shown to elicit different levels of neuroprotection after ischemic stroke, the impact of time of fasting with respect to the circadian cycles remains unexplored. METHODS: Cohorts of mice were subjected to a daily 16-hour fast, either during the dark phase (active-phase intermittent fasting) or the light phase (inactive-phase intermittent fasting) or were fed ad libitum. Following a 6-week dietary regimen, mice were subjected to transient focal cerebral ischemia and underwent behavioral functional assessment. Brain samples were collected for RNA sequencing and histopathologic analyses. RESULTS: Active-phase intermittent fasting cohort exhibited better poststroke motor and cognitive recovery as well as reduced infarction, in contrast to inactive-phase intermittent fasting cohort, when compared with ad libitum cohort. In addition, protection of dendritic spine density/morphology and increased expression of postsynaptic density protein-95 were observed in the active-phase intermittent fasting. CONCLUSIONS: These findings indicate that the time of daily fasting is an important factor in inducing ischemic tolerance by intermittent fasting.

Topics & Concepts

MedicineIntermittent fastingNeuroprotectionCircadian rhythmCohortStroke (engine)Internal medicineIschemiaEndocrinologyRegimenCerebral infarctionCardiologyMechanical engineeringEngineeringDietary Effects on HealthGenetics, Aging, and Longevity in Model OrganismsCircadian rhythm and melatonin