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1.
Am J Transl Res ; 11(2): 1073-1083, 2019.
Article in English | MEDLINE | ID: mdl-30899407

ABSTRACT

Increasing evidence emphasizes the protective role of Eph receptors in synaptic function in the pathological development of Alzheimer's disease (AD); however, their roles in the regulation of hippocampal astrocytes remain largely unknown. Here, we directly investigated the function of astroglial EphB2 on synaptic plasticity in APP/PS1 mice. Using cell isolation and transgene technologies, we first isolated hippocampal astrocytes and evaluated the expression levels of ephrinB ligands and EphB receptors. Then, we stereotaxically injected EphB2-Flox-AAV into the hippocampus of GFAP-cre/APP/PS1 mice and further evaluated hippocampal synaptic plasticity and astroglial function. Interestingly, astrocytic EphB2 expression was significantly increased in APP/PS1 mice in contrast to its expression profile in neurons. Moreover, depressing this astroglial EphB2 upregulation enhanced hippocampal synaptic plasticity, which results from harmful D-serine release. These results provide evidence of the different expression profiles and function of EphB2 between astrocytes and neurons in AD pathology.

2.
Med Gas Res ; 7(1): 48-55, 2017.
Article in English | MEDLINE | ID: mdl-28480032

ABSTRACT

Isoflurane, a volatile and inhalational anesthetic, has been extensively used in perioperative period for several decades. A large amount of experimental studies have indicated that isoflurane exhibits neuroprotective properties when it is administrated before or after (pre-conditioning and post-conditioning) neurodegenerative diseases (e.g., hypoxic ischemia, stroke and trauma). Multiple mechanisms are involved in isoflurane induced neuroprotection, including activation of glycine and γ-aminobutyric acid receptors, antagonism of ionic channels and alteration of the function and activity of other cellular proteins. Although neuroprotection provided by isoflurane is observed in many animal studies, convincing evidence is lacking in human trials. Therefore, there is still a long way to go before translating its neuroprotective properties into clinical practice.

3.
Neurobiol Aging ; 54: 112-132, 2017 06.
Article in English | MEDLINE | ID: mdl-28366226

ABSTRACT

Astrocytes and apolipoprotein E (apoE) play critical roles in cognitive function, not only under physiological conditions but also in some pathological situations, particularly in the pathological progression of Alzheimer's disease (AD). The regulatory mechanisms underlying the effect of apoE, derived from astrocytes, on cognitive deficits during AD pathology development are unclear. In this study, we generated amyloid precursor protein/apoE knockout (APP/apoEKO) and APP/glial fibrillary acidic protein (GFAP)-apoEKO mice (the AD mice model used in this study was based on the APP-familial Alzheimer disease overexpression) to investigate the role of apoE, derived from astrocytes, in AD pathology and cognitive function. To explore the mechanism, we investigated the amyloidogenic process related transforming growth factor ß/mothers against decapentaplegic homolog 2/signal transducer and activator of transcription 3 (TGF-ß/Smad2/STAT3) signaling pathway and further confirmed by administering TGF-ß-overexpression adeno-associated virus (specific to astrocytes) to APP/GFAP-apoEKO mice and TGF-ß-inhibition adeno-associated virus (specific to astrocytes) to APP/WT mice. Whole body deletion of apoE significantly ameliorated the spatial learning and memory impairment, reduced amyloid ß-protein production and inhibited astrogliosis in APP/apoEKO mice, as well as specific deletion apoE in astrocytes in APP/GFAP-apoEKO mice. Moreover, amyloid ß-protein accumulation was increased due to promotion of amyloidogenesis of APP, and astrogliosis was upregulated by activation of TGF-ß/Smad2/STAT3 signaling. Furthermore, the overexpression of TGF-ß in astrocytes in APP/GFAP-apoEKO mice abrogated the effects of apoE knockout. In contrast, repression of TGF-ß in astrocytes of APP/WT mice exerted a therapeutic effect similar to apoE knockout. These data suggested that apoE derived from astrocytes contributes to the risk of AD through TGF-ß/Smad2/STAT3 signaling activation. These findings enhance our understanding of the role of apoE, derived from astrocytes, in AD and suggest it to be a potential biomarker and therapeutic target for AD.


Subject(s)
Alzheimer Disease/genetics , Alzheimer Disease/psychology , Apolipoproteins E/genetics , Apolipoproteins E/physiology , Astrocytes/physiology , Gene Deletion , Genetic Therapy/methods , Memory Disorders/genetics , Memory/physiology , STAT3 Transcription Factor/physiology , Signal Transduction/genetics , Smad2 Protein/physiology , Spatial Learning/physiology , Transforming Growth Factor beta/physiology , Animals , Disease Models, Animal , Male , Mice, Transgenic
4.
Brain Inj ; 30(9): 1054-61, 2016.
Article in English | MEDLINE | ID: mdl-27295203

ABSTRACT

BACKGROUND: The standard for early traumatic brain injury (TBI) seizure prophylaxis is phenytoin (PHT). Levetiracetam (LEV) has been proposed as an alternative to PHT. The aim of this study was to evaluate the safety and efficacy of LEV on TBI seizure when compared with PHT. METHODS: A search was carried out based on the databases from Pubmed, Embase and the Cochrane database up to May 2015. The relative risk (RR) and the relevant 95% confidence intervals (CI) were determined. RESULTS: Eight observational studies and one randomized controlled trial involving 2035 cases were included. The results indicated that no significant differences in terms of overall seizure (RR = 0.90; 95% CI = 0.51-1.53; p = 0.68), early seizure (RR = 1.06; 95% CI = 0.37-3.07; p = 0.92) and late seizure (RR = 1.10; 95% CI = 0.43-2.79; p = 0.85) occurrence. However, LEV was associated with a lower adverse drug reaction rate (RR = 0.43; 95% CI = 0.23-0.81; p = 0.01). Moreover, there were no significant differences in terms of mortality, length of ICU or hospital stay between groups. CONCLUSIONS: The meta-analysis suggests that LEV appears to have a similar efficacy to PHT on TBI. A better safety profile of LEV is supported by this analysis.


Subject(s)
Anticonvulsants/therapeutic use , Brain Injuries, Traumatic/complications , Phenytoin/therapeutic use , Piracetam/analogs & derivatives , Seizures/prevention & control , Anticonvulsants/adverse effects , Humans , Levetiracetam , Phenytoin/adverse effects , Piracetam/adverse effects , Piracetam/therapeutic use , Seizures/etiology
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