The Effect of Repeated Resveratrol Administration on Global Ischemia-Induced Hippocampal Neurodegeneration, Neurochemical Effects and Functional Alterations

Global cerebral ischemia is an established animal model mimicking the effects of cardiac arrest in humans. It is characterized by selective neuronal damage in the hippocampus and significant behavioural and cognitive impairments. In this light, novel therapeutic compounds with numerous physiological targets as well as neuroprotective capabilities and the capacity to lessen residual cognitive deficits pose as great candidates in the treatment of ischemic pathology. The current thesis investigates the possible therapeutic properties of resveratrol (3, 4, 5´trihydroxystilbene), a naturally occurring phytoalexin present in the skin of grapes, against cerebral ischemia-induced neuronal degeneration and cognitive impairments, as well as elaborate on possible mechanisms of action of the compound in male Wistar rats. In Article 1, neuronal density assessment and behavioural testing following chronic pretreatment with resveratrol at two doses (1 and 10 mg/kg) revealed that the compound has important neuroprotective properties at short and long post-ischemic intervals. Despite comparable neuronal protection, the two resveratrol doses showed distinct behavioural effects, highlighting independent actions of the polyphenol on discrete physiological systems mediating cellular survival and behavioural recovery. Articles 2 and 3 investigated possible mechanisms of action of the polyphenol that have not yet been explored with regards to cerebral ischemia. Specifically, Article 2 demonstrated that resveratrol influences markers of plasticity in both ischemic and control animals as well as promotes angiogenesis in the hippocampal region postischemia. Further elaborating on documented effects attributing non-neuronal mechanisms of action of resveratrol in reducing glial activation postischemia, Article 3 highlighted important regulatory effects of resveratrol on mediating glial type-1 glutamate transporter expression at a short reperfusion interval. These findings support the notion of multiple biological targets by resveratrol and highlight its potential role in attenuating forebrain ischemia-induced neuronal degeneration through multiple physiological targets, while cautioning against possible dose-related effects on behaviour and in healthy controls

Dose-related effects of chronic resveratrol administration on neurogenesis, angiogenesis, and corticosterone secretion are associated with improved spatial memory retention following global cerebral ischemia

Objectives: The polyphenol resveratrol has shown regulatory effects on hippocampal neurogenesis, which according to the neurovascular niche hypothesis, is likely to involve stimulation of angiogenesis. In rodents, global cerebral ischemia leads to selective CA1 neuronal damage, spatial memory impairments, lasting changes in corticosterone (CORT) secretion, and increased neurogenesis. This study examined dose-related effects of 21-day RSV treatment on markers associated with neurogenesis (DCX, PSA-NCAM) and angiogenesis (CD31) in the hippocampus at short (7-day) and long-term (85-day) intervals following global ischemia. In parallel, post-ischemic and stress-induced CORT levels and spatial memory in the Morris water maze were determined. Methods: Five groups of male Wistar rats were included: sham/saline, ischemia/saline, ischemia/1 mg/kg RSV, ischemia/10 mg/kg RSV, and sham/10 mg/kg RSV. Changes in expression of plasticity markers were paralleled by assessment of basal- and stress-induced CORT secretions, and spatial memory performance. Results: Our findings revealed a significant attenuation of ischemia-induced DCX/PSA-NCAM expression in RSV-treated rats, whereas RSV treatment increased angiogenesis in the injured CA1 region. RSV attenuated CORT levels 3 days post-ischemia and a trend toward attenuating CORT secretion in response to 15 minutes restraint stress. Increased swimming latencies in the target quadrant during the MWM probe trial in RSV-treated ischemic rats support beneficial effects of RSV on spatial memory retention. Discussion: Our findings uncover time- and dose-related effects of RSV and global ischemia on the regulation of hippocampal plasticity. Changes in neuro- and angiogenesis are consistent with RSV neuroprotective effects, but appear independent of RSV regulatory effects on corticosterone secretion