Felicia Rivera scite author profile

Flavonoids are an important group of recognized antioxidants ubiquitous in fruits, vegetables and herbs. There are epidemiological evidences for the stroke-protecting capacity of flavonoids and while the neuroprotective power of complex extracts rich in flavonoids like those of Ginkgo biloba, green tea or lyophilized red wine have been demonstrated in several studies, neuroprotection by individual flavonoids has been poorly studied in vivo. The neuroprotective capacity of individual flavonoids was studied in PC12 cells in culture and in a model of permanent focal ischemia (permanent Middle Cerebral Artery Occlusion - pMCAO). In the in vivo experiments, flavonoids were administered in lecithin preparations to facilitate the crossing of the blood brain barrier. The simultaneous incubation of PC12 cells with 200 micro M hydrogen peroxide (H2O2) and different flavonoids for 30 min resulted in a conspicuous profile: quercetin, fisetin, luteolin and myricetin significantly increased cell survival while catechin, kaempherol and taxifolin did not. Quercetin was detected in brain tissue 30 min and 1 h after intraperitoneal administration. When one of the protective flavonoids (quercetin) and one of those that failed to increase PC12 cell survival (catechin) were assessed for their protective capacity in the pMCAO model, administered i.p. 30 min after vessel occlusion, quercetin significantly decreased the brain ischemic lesion while catechin did not. It is concluded that when administered in liposomal preparations, flavonoids structurally related to quercetin could become leads for the development of a new generation of molecules to be clinically effective in human brain ischemia.

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Quercetin in brain diseases: Potential and limits

Dajas

Abin-Carriquiry

Arredondo

et al. 2015

Neurochemistry International

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Some aspects of thein vivo neuroprotective capacity of flavonoids: Bioavailability and structure-activity relationship

et al. 2004

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On the basis of previous work showing that flavonoids structurally related to quercetin are neuroprotective for cells in culture, this work was directed towards determining if several flavonoids (quercetin, fisetin and catechin) could acutely and by an intraperitoneal (IP) route reach significant cerebral concentrations and either prevent or facilitate recovery from a brain lesion induced by focal ischemia in rats. Aqueous and liposomal preparations of quercetin, fisetin and catechin were administered IP in a single dose and assessed in the brain by HPLC at 30 min, 1 h, 2 h and 4 h. Ischemic damage from focal middle cerebral artery occlusion was assessed spectrophotometrically with 2,3,5,-triphenylltetrazolium chloride (TTC). Infarct volume was assessed by an image analysis system following perfusion with TTC. The status of the cerebral tissue was evaluated by hematoxylin-eosin. Flavonoids administered in aqueous preparations were undetected in the brain. Cerebral concentrations of catechin (10.5 ng/g), fisetin (8.23 ng/g) and quercetin (509 ng/g) were detected in the brain only after IP injection of the liposomal preparations. Spectrophotometric analysis of brain tissue with the TTC-technique showed that liposomal quercetin reduced ischemic damage and infarct volume after permanent occlusion of the middle cerebral artery (ischemic: 41.3 mm3 vs liposomal quercetin: 17 mm3). In liposomal quercetin-treated animals there was also recovery of the cytoarchitecture in ischemic areas of striatum and cortex. Although a liposomal preparation of fisetin had similar effects, catechin failed to protect brain tissue. In conclusion, early administration of liposomal preparations of quercetin and structurally related flavonoids are beneficial and neuroprotective in experimental focal ischemia.

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Reduction of ischemic brain damage and increase of glutathione by a liposomal preparation of quercetin in permanent focal ischemia in rats

et al. 2008

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Oxidative stress is implicated in the pathogenesis of cerebral ischemia injury, and the flavonoids have shown to be neuroprotective in experimental models of cerebral ischemia. Previously, we have shown that an aqueous preparation of quercetin did not reach the brain while a liposomal preparation produced measurable cerebral amounts of quercetin that reduced significantly the cerebral damage provoked by permanent middle cerebral artery occlusion (pMCAo) of rats. In this context, the protective effects of liposomal quercetin (LQ) were investigated in the same model after 1 and 4 hours of arterial occlusion. LQ was administered in a single dose (30 mg/kg), at 30 min, 1 and 4 h after pMCAo, and the brain was studied 24 h later. Cerebral damage and the oedema volume were assessed with a tetrazolium salt (TTC). The status of brain tissue, the neuronal population, the global motor behaviour as well as the antioxidant, endogenous reduced glutathione (GSH), were also assessed in the brain. Thirty min after LQ there was a significantly protective effect against ischemic lesion demonstrated by a significant increase in numbers of cells in striatum and cortex, together with a partial reversal of motor deficits. GSH levels decreased after ischemia in ipsilateral striatum and cortex, and the LQ preparation reversed these effects 24 h after the occlusion. Our results suggest that endogenous brain GSH is critical in the defense mechanisms after ischemia, as a significant mediator of the protective effects of the LQ preparation.

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Felicia Rivera

Studies on the toxicity of Punica granatum L. (Punicaceae) whole fruit extracts

Cell culture protection andin vivo neuroprotective capacity of flavonoids

Quercetin in brain diseases: Potential and limits

Some aspects of thein vivo neuroprotective capacity of flavonoids: Bioavailability and structure-activity relationship

Reduction of ischemic brain damage and increase of glutathione by a liposomal preparation of quercetin in permanent focal ischemia in rats

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