Stroke Induces a BDNF-Dependent Improvement in Cognitive Flexibility in Aged Mice

الملخص EN

Stroke remains a leading cause of disability worldwide.

Recently, we have established an animal model of stroke that results in delayed impairment in spatial memory, allowing us to better investigate cognitive deficits.

Young and aged brains show different recovery profiles after stroke; therefore, we assessed aged-related differences in poststroke cognition.

As neurotrophic support diminishes with age, we also investigated the involvement of brain-derived neurotrophic factor (BDNF) in these differences.

Young (3-6 months old) and aged (16-21 months old) mice were trained in operant touchscreen chambers to complete a visual pairwise discrimination (VD) task.

Stroke or sham surgery was induced using the photothrombotic model to induce a bilateral prefrontal cortex stroke.

Five days poststroke, an additional cohort of aged stroke animals were treated with intracerebral hydrogels loaded with the BDNF decoy, TrkB-Fc.

Following treatment, animals underwent the reversal and rereversal task to identify stroke-induced cognitive deficits at days 17 and 37 poststroke, respectively.

Assessment of sham animals using Cox regression and log-rank analyses showed aged mice exhibit an increased impairment on VD reversal and rereversal learning compared to young controls.

Stroke to young mice revealed no impairment on either task.

In contrast, stroke to aged mice facilitated a significant improvement in reversal learning, which was dampened in the presence of the BDNF decoy, TrkB-Fc.

In addition, aged stroke control animals required significantly less consecutive days and correction trials to master the reversal task, relative to aged shams, an effect dampened by TrkB-Fc.

Our findings support age-related differences in recovery of cognitive function after stroke.

Interestingly, aged stroke animals outperformed their sham counterparts, suggesting reopening of a critical window for recovery that is being mediated by BDNF.