Silibinin-Albumin Nanoparticles: Characterization and Biological Evaluation Against Oxidative Stress-Stimulated Neurotoxicity Associated with Alzheimer's Disease.

Alzheimer's disease (AD) is strongly associated with oxidative stress which can damage neural cells. Silibinin has shown potential antioxidative effects. However, due to its low solubility in water, silibinin provides low biological activity and bioavailability. Therefore, to increase its pharmacological effects, silibilin was encapsulated into human serum albumin (HSA) nanoparticles and well-characterized by DLS and TEM techniques. The antioxidant activity of silibinin-HSA nanoparticles was evaluated on LPS-induced oxidative stress in neuron-like cells (SH-SY5Y) through MTT, antioxidant activity and apoptotic assay. It was shown that the mean diameter of HSA and silibinin-HSA nanoparticles were 88 and 105 nm, respectively with a drug loading of 24.08%, drug encapsulation rate of 94.72%, and the yield of silibinin-HSA nanoparticles of around 83.41% and the HSA nano-formulation released silibinin for 15 h. The results displayed that cell viability was reduced by LPS (10 µg/mL), who's also determined to stimulate oxidative stress and apoptosis. However, co-incubation of cells with silibinin (50 µg/mL) or silibinin-HSA nanoparticles led to the recovery of cell viability, activation of SOD and CAT, increase of GSH content, and reduction of ROS level, Caspase-3 activity and fragmentation of DNA. It was also indicated that the neuroprotective and antioxidant activities of silibinin-HAS nanoparticles was greater than free silibinin, indicating that using albumin can be a potential formulation approach for improving the antioxidant efficacy of silibinin.

Antioxidant activity of calycosin against α-synuclein amyloid fibrils-induced oxidative stress in neural-like cells as a model of preventive care studies in Parkinson's disease.

Protein misfolding and aggregation result in induction of a number of neurodegenerative diseases. In the present study, the anti-fibrillation activity of calycosin and its influence on the amyloid formation of α-synuclein (α-syn) and associated cytotoxicity on neuron-like cells (PC-12) as a model of Parkinson's disease were explored. Therefore, in combination with ThT and ANS fluorescence assay, CD, Congo red absorbance, TEM and cytotoxicity assays (MTT, ROS, SOD activity, CAT activity, GSH content, and caspase-3 activity assays), we showed that calycosin remarkably inhibits α-syn fibril formation through a concentration-dependent manner. The experimental analysis indicated that calycosin exert its antioxidant effects against α-syn amyloid-triggered neurotoxicity by modifying the aggregation pathway toward formation of nontoxic spices via recovering the activity of SOD/CAT and GSH content and reducing the ROS content and caspase-3 activity. This work may provide useful information about the mechanism of α-syn amyloid inhibition by calycosin and pave the way for developing some small molecules-based therapeutic platforms against Parkinson's disease.

MTMR14 protects against cerebral stroke through suppressing PTEN-regulated autophagy.

The phosphoinositide phosphatase, myotubularinrelated protein 14 (MTMR14), plays a critical role in the regulating autophagy. However, its functional contribution to neuronal autophagy is still unclear. In the present study, we attempted to explore the effects of MTMR14 on ischemic stroke progression, as well as the underlying molecular mechanisms. Oxygen-glucose deprivation/reoxygenation (OGDR)-induced primary cortical neurons and pheochromocytoma (PC12) cells, and middle cerebral artery occlusion (MCAO)-operated mice were used to establish cerebral ischemia/reperfusion (I/R) injury in vitro and in vivo, respectively. OGDR treatment markedly decreased the expression of MTMR14 expression from mRNA and protein levels in the cultured primary neurons and PC12 cells. Functional analysis showed that OGDR-reduced cell viability was further accelerated by MTMR14 knockdown. On the contrary, MTMR14 over-expression significantly rescued the cell survival in OGDR-exposed cells. Moreover, autophagic markers including LC3BII and Beclin 1 were highly up-regulated in OGDR-incubated neurons and PC12 cells, while being further exacerbated by MTMR14 deletion. However, promoting MTMR14 dramatically alleviated LC3BII and Beclin 1 expression levels stimulated by OGDR. Importantly, we found that MTMR14-regulated autophagy was through its interactions with phosphatase and tensin homolog (PTEN). MTMR14 negatively modulated PTEN protein expression levels in OGDR-exposed cells. In vivo, MCAO-operated mice exhibited significantly reduced expression of MTMR14 in the ischemic penumbra tissues. After MCAO operation, MTMR14 over-expression effectively reduced infarct volume and neurological deficits scores, along with decreased activation of LC3B in neurons. Consistently, MCAO-increased PTEN, LC3BII and Beclin 1 were repressed by MTMR14 in mice. An interaction between MTMR14 and PTEN in response to MCAO was confirmed in vivo. Together, these results indicated the neuroprotective effects of MTMR14 on modulating PTEN-dependent excessive autophagy during cerebral I/R injury. Thus, targeting MTMR14 may provide feasible therapy for ischemic stroke onset and progression.

MicroRNA-1298-3p inhibits proliferation and invasion of glioma cells by downregulating Nidogen-1.

Glioma is the most prevalent tumor of the central nervous system. To identify differentially expressed miRNAs (DEMs) in gliomas of different grades, bioinformatics analysis was performed. The DEMs between low-grade gliomas (LGGs) and high-grade gliomas (HGGs) were identified by screening the Gene Expression Omnibus and The Cancer Genome Atlas databases using the LIMMA package. Six overlapping DEMs were identified by comparing LGGs and HGGs. Downregulation of miR-1298-3p correlated with poor overall survival rates in glioma patients. Overexpression of miR-1298-3p induced apoptosis of glioma cells and inhibited glioma cell proliferation, migration, and invasion. The basement membrane protein Nidogen-1 (NID1) was identified as a direct binding target of miR-1298-3p in glioma cells. MiR-1298-3p agonist downregulated the NID1 and vimentin levels, but upregulated the level of E-cadherin in glioma cells. Importantly, overexpression of miR-1298-3p induced apoptosis and reduced tumor growth in a mouse xenograft model of glioma. Our results show that miR-1298-3p functions as a tumor suppressor in glioma cells, and suggest that it might serve as a potential biomarker and therapeutic target in glioma patients.

Eya2 overexpression promotes the invasion of human astrocytoma through the regulation of ERK/MMP9 signaling.

The overexpression of eyes absent (Eya) 2 has been found in several human cancers. However, its biological roles and clinical significance in human astrocytoma have not yet been explored. This study investigated the clinical significance and biological roles of Eya2 in human astrocytoma tissues and cell lines. Using immunohistochemistry, we found Eya2 overexpression in 33 out of 90 (36.7%) astrocytoma specimens. The rate of Eya2 overexpression was higher in grade III-IV (48.1%) than in grade â… +Ⅱ astrocytomas (21.1%). Transfection with an Eya2 expression plasmid was performed in A172 cells with a low endogenous expression of Eya2 and the knockdown of Eya2 was carried out in U251 cells with a high endogenous expression using siRNA. Eya2 overexpression induced A172 cell proliferation and invasion, while the knockdown of Eya2 using siRNA decreased the proliferation and invasion of U251 cells. In addition, we found that transfection with the Eya2 expression plasmid facilitated cell cycle progression, and that the knockdown of Eya2 inhibited cell cycle progression, accompanied by a change in the expression of cell cycle-related proteins, including cyclin D1 and cyclin E. Eya2 also positively regulated extracellular signal-regulated kinase (ERK) activity and matrix metalloproteinase (MMP)9 expression. The blockade of ERK signaling using an inhibitor abolished the effects of Eya2 on A172 cell invasion and MMP9 production. In addition, we found that there was a positive correlation between Eya2 and Six1 in the astrocytoma cell lines. Immunoprecipitation revealed that Eya2 interacted with Six1 protein in the U251 cell line, which exhibited a high expression of both proteins. Eya2 failed to upregulate MMP expression in the A172 cells in which Six1 was silenced. On the whole, our data indicate that Eya2 may serve as a potential oncoprotein in human astrocytoma. Eya2 regulates astrocytoma cell proliferation and invasion, possibly through the regulation of ERK signaling.

Microneurosurgery in combination with endovascular embolisation in the treatment of solid haemangioblastoma in the dorsal medulla oblongata.

OBJECTIVE: To investigate the treatment of solid haemangioblastomas in the dorsal medulla oblongata using microneurosurgery in combination with endovascular embolisation. METHODS: Clinical data from 11 patients with solid haemangioblastomas in the dorsal medulla oblongata who were treated with endovascular embolisation followed by microneurosurgery were analysed retrospectively. Clinical results were evaluated using the modified Rankin scale. The patients were preoperatively evaluated by neuroimaging methods such as magnetic resonance imaging (MRI), contrast MRI and digital subtraction angiography (DSA). General anaesthesia was induced, the patients were tracheally intubated, and the abnormal vessels were embolised. Surgery to resect the haemangioblastoma was conducted after the blood-clotting index returned to normal levels (generally one month after the interventional treatment). RESULTS: Embolisation was accomplished in all 11 patients. DSA analysis revealed that most of the tumour vessels and tumour stains disappeared without any complications. The haemangioblastomas were completely resected. None of the patients received blood transfusion or died during surgery. The neurological deficit was reduced or eliminated in 10 patients, but 1 patient died after experiencing an acute myocardial infarction on the tenth postoperative day. No recurrence occurred during follow-up in patients who underwent total tumour resection. Postoperative grades using the modified Rankin scale were improved in all 10 patients. However, several complications occurred, including communicating hydrocephalus, incision infection, pneumonia and cerebrospinal fluid leakage from the incision. Notably, normal perfusion pressure breakthrough (NPPB) did not develop during or after endovascular embolisation or surgery. CONCLUSION: Preoperative endovascular embolisation is a safe and effective adjunct treatment. Employing this treatment, solid haemangioblastomas in the dorsal medulla oblongata can be safely and completely resected.