Curcumin-loaded nanoemulsion improves haemorrhagic stroke recovery in wistar rats.

Cerebrovascular diseases are currently a major global health problem. Considering the limitations of current therapy, the search for new alternatives for the treatment of these diseases is necessary and, in this context, curcumin, a molecule that has neuroprotective properties already described in the literature. A limiting factor when considering therapies for the nervous tissue is the presence of the blood-brain barrier which stimulates the search for new drug delivery strategies. In this context, nanoencapsulation seems to be a promising alternative. In this work, we compared the protective effects of free and nanoemulsified curcumin after intracerebral haemorrhage induced by collagenase (ICH) in Wistar rats. Injury area, motor activity, oxidative stress in the brain and serum biochemical parameters were investigated. Two hours after surgery, the first dose was injected intraperitoneally, followed by 24 and 48 h administration. Behavioural analysis was performed through 3 different tests: open field, beam walking and foot fault (24, 48 and 72 h respectively). At the end of the recovering time (3 days after injury), the animals were euthanized and the brain (for analysis of injury area and oxidative stress), blood (for biochemical parameters), kidney and liver (for histopathological examination) were investigated. Curcumin nanoemulsion 30 mg/kg was able to improve behavioural recovery, reduce the size of the haematoma and attenuate the weight loss caused by ICH. In terms of oxidative parameters, we observed that curcumin nanoemulsion modulated antioxidant responses with therapeutic potential against ICH. Only discrete results in few parameters were found with free-curcumin in the same dose.

Probucol mitigates streptozotocin-induced cognitive and biochemical changes in mice.

Alzheimer's disease (AD) is a neurodegenerative disorder characterized by synaptic loss and cognitive impairments. Although AD is the most prevalent aging-related neurodegenerative disease, therapeutic strategies remain palliative. Recent studies have shown that probucol presents neuroprotective effects in experimental models of neurodegenerative disease. The present study aimed to investigate the potential protective effects of probucol against streptozotocin (STZ)-induced cognitive impairment and hippocampal biochemical changes (oxidative stress-related parameters, acetylcholinesterase (AChE) activity, cholesterol levels and ß-secretase (BACE) protein levels) in mice. Adult Swiss mice received STZ [150 µg/bilateral, i.c.v.], and treated daily with probucol (≅10 mg/kg/day, in drinking water, for 5 weeks,). Twenty-one days after i.c.v. administrations, STZ-infused animals displayed significant deficits in cognition (evaluated in the displaced and new object recognition tasks), which were paralleled by a significant increase in hippocampal AChE activity. Moreover, STZ-infused mice showed increased levels of BACE and decreased glutathione reductase (GR) activity in the hippocampus compared with the control group. Probucol treatment significantly protected against the behavioral and hippocampal biochemical changes induced by STZ. However, it was unable to prevent STZ-induced increase of hippocampal BACE levels and did not change hippocampal cholesterol levels. It is noteworthy that probucol treatment increased the glutathione peroxidase (GPx) activity per se independent of STZ injection. The present findings are the first to show that i.c.v. STZ infusions are able to increase hippocampal BACE expression. Moreover, the results also show that probucol can counteract STZ-induced cognitive impairments and biochemical parameters independently of potential modulator effects toward BACE levels. The study is the first to report the protective effects of probucol against STZ-induced biochemical hippocampal changes and behavioral impairments, rendering this compound a promising molecule for further pharmacological studies on the search for therapeutic strategies to treat or prevent AD.

ß-Caryophyllene protects the C6 glioma cells against glutamate-induced excitotoxicity through the Nrf2 pathway.

ß-Caryophyllene (BCP), a natural bicyclic sesquiterpene present in several essential oils, displays analgesic and anti-inflammatory properties in vitro and in vivo. Astrocytes are a major class of glial cells that regulate extracellular ion balance, repair and scarring processes in the CNS following neuroinflammatory conditions and traumatic injuries. This study sought to determine the protective effect of BCP against glutamate (Glu)-induced cytotoxicity in the C6 glioma cell line on neurochemical parameters as well as their biochemical mechanism. Glu increases intracellular reactive oxygen species (ROS) production and induces mitochondrial dysfunction as well as decreasing antioxidant defenses such as glutathione (GSH) and glutathione peroxidase activity. BCP prevented C6 cells from Glu-induced cytotoxicity by modulating the cellular antioxidant response, mainly by inhibiting ROS production and reestablishing the mitochondrial membrane potential (Δψm). Moreover, BCP per se induced the nuclear translocation of nuclear factor (erythroid-derived 2)-like 2 (Nrf2) which was reflected by improvement in the cellular GSH antioxidant system. Taken together, our results suggest that cytoprotective effects of BCP were mediated by the amelioration of cellular antioxidant responses via Nrf2 activation, which is, in part, dependent on cannabinoid receptor type 2 (CB2R) activation. This functional nonpsychoactive CB2R ligand, could represent an important molecule for protection of glial cells against oxidative stress induced by glutamate.

Positive correlation between elevated plasma cholesterol levels and cognitive impairments in LDL receptor knockout mice: relevance of cortico-cerebral mitochondrial dysfunction and oxidative stress.

Convergent epidemiological, clinical, and experimental findings indicate that hypercholesterolemia contributes to the onset of Alzheimer's disease (AD)-like dementia, but the exact underlying mechanisms remains unknown. In this study, we evaluated the cognitive performance of mice submitted to a model of hypercholesterolemia, as well as its relationship with mitochondrial dysfunction and oxidative stress, two key events involved in AD pathogenesis. Wild-type C57bl/6 or low density lipoprotein receptor (LDLr)-deficient mice were fed with either standard or cholesterol-enriched diet for a 4-week period and tested for spatial learning and memory in the object location task. LDLr⁻/⁻ mice displayed spatial learning and memory impairments regardless of diet. Moreover, LDLr⁻/⁻ mice fed cholesterol-enriched diet presented a significant decrease in the mitochondrial complexes I and II activities in the cerebral cortex, which were negatively correlated with respective blood cholesterol levels. Additionally, hypercholesterolemic LDLr⁻/⁻ mice presented a significant decrease in glutathione levels, about 40% increase in the thiobarbituric acid-reactive substances levels, as well as an imbalance between the peroxide-removing-related enzymes glutathione peroxidase/glutathione reductase activities in the cerebral cortex. These findings indicate a significant relationship between hypercholesterolemia, cognitive impairment, and cortico-cerebral mitochondrial dysfunctional/oxidative stress. Because of the involvement of such alterations in AD patients, our data render this mouse model of hypercholesterolemia a useful approach to comprehend the molecular events mediating AD pathogenesis.