共查询到20条相似文献,搜索用时 15 毫秒
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An isogenic blood–brain barrier model comprising brain endothelial cells,astrocytes, and neurons derived from human induced pluripotent stem cells 下载免费PDF全文
Scott G. Canfield Matthew J. Stebbins Bethsymarie Soto Morales Shusaku W. Asai Gad D. Vatine Clive N. Svendsen Sean P. Palecek Eric V. Shusta 《Journal of neurochemistry》2017,140(6):874-888
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Type 1 diabetes exacerbates blood–brain barrier alterations during experimental epileptic seizures in an animal model 下载免费PDF全文
Hatice Yorulmaz Engin Kaptan F. Burcu Seker Baria Oztas 《Cell biochemistry and function》2015,33(5):285-292
The aim of this study was to perform the effects of diabetes on the permeability of the blood–brain barrier (BBB) during pentylenetetrazole (PTZ)‐induced epileptic attacks. For this propose, the animals were divided into four groups. These groups contained were intact, PTZ‐treated, diabetic and PTZ‐treated diabetic individuals, respectively. To evaluate the functioning of the BBB, Evans blue was used as a BBB permeability indicator, and the expressions of zonula occludens‐1 and glial fibrillary acidic protein involving the functioning of the BBB were determined immunohistochemically. Also, the changes in the release of serum tumour necrosis factor‐alpha and interleukin‐10 and interleukin‐12 were studied by using enzyme‐linked immunosorbent assay method. BBB permeability in the seizures under diabetic conditions showed a considerable increase (p < 0·01) in all of the brain we studied. The immunoreactive staining intensity of zonula occludens‐1 and glial fibrillary acidic protein was found reduced in the brain regions of diabetic rats (p < 0·01). However, the serum level of tumour necrosis factor‐alpha increased in diabetes and diabetes + PTZ groups, and the serum level of interleukin‐12 increased significantly in all experimental groups (p < 0·05). In conclusion, diabetes dramatically increases BBB damage during epileptic seizures, and it may be derived from an elevation of paracellular passage. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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Lisanne M. van Leeuwen Maikel Boot Coen Kuijl Daisy I. Picavet Gunny van Stempvoort Susanne M.A. van der Pol Helga E. de Vries Nicole N. van der Wel Martijn van der Kuip A. Marceline van Furth Astrid M. van der Sar Wilbert Bitter 《Cellular microbiology》2018,20(9)
Central nervous system (CNS) infection by Mycobacterium tuberculosis is one of the most devastating complications of tuberculosis, in particular in early childhood. In order to induce CNS infection, M. tuberculosis needs to cross specialised barriers protecting the brain. How M. tuberculosis crosses the blood–brain barrier (BBB) and enters the CNS is not well understood. Here, we use transparent zebrafish larvae and the closely related pathogen Mycobacterium marinum to answer this question. We show that in the early stages of development, mycobacteria rapidly infect brain tissue, either as free mycobacteria or within circulating macrophages. After the formation of a functionally intact BBB, the infiltration of brain tissue by infected macrophages is delayed, but not blocked, suggesting that crossing the BBB via phagocytic cells is one of the mechanisms used by mycobacteria to invade the CNS. Interestingly, depletion of phagocytic cells did not prevent M. marinum from infecting the brain tissue, indicating that free mycobacteria can independently cause brain infection. Detailed analysis showed that mycobacteria are able to cause vasculitis by extracellular outgrowth in the smaller blood vessels and by infecting endothelial cells. Importantly, we could show that this second mechanism is an active process that depends on an intact ESX‐1 secretion system, which extends the role of ESX‐1 secretion beyond the macrophage infection cycle. 相似文献
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Protease activated receptor‐1 antagonist ameliorates the clinical symptoms of experimental autoimmune encephalomyelitis via inhibiting breakdown of blood–brain barrier 下载免费PDF全文
Ha Neui Kim Yu Ri Kim Sung Min Ahn Sun Kyung Lee Hwa Kyoung Shin Byung Tae Choi 《Journal of neurochemistry》2015,135(3):577-588
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Yali Wang Jia Jia Guizhen Ao Lifang Hu Hui Liu Yunqi Xiao Huaping Du Nabil J. Alkayed Chun‐Feng Liu Jian Cheng 《Journal of neurochemistry》2014,129(5):827-838
By using two structurally unrelated hydrogen sulfide (H2S) donors 5‐(4‐methoxyphenyl) ‐3H‐1, 2‐dithiole‐3‐thione (ADT) and sodium hydrosulfide (NaHS), this study investigated if H2S protected blood–brain barrier (BBB) integrity following middle cerebral artery occlusion (MCAO). ICR mice underwent MCAO and received H2S donors at 3 h after reperfusion. Infarction, neurological scores, brain edema, Evans blue (EB) extravasation, and tight junction protein expression were examined at 48 h after MCAO. We also investigated if ADT protected BBB integrity by suppressing post‐ischemic inflammation‐induced Matrix Metalloproteimase‐9 (MMP9) and Nicotinamide adenine dinucleotide phosphate (NADPH) oxidase (NOX). ADT increased blood H2S concentrations, decreased infarction, and improved neurological deficits. Particularly, ADT reduced EB extravasation, brain edema and preserved expression of tight junction proteins in the ischemic brain. NaHS also increased blood H2S levels and reduced EB extravasation following MCAO. Moreover, ADT inhibited expression of pro‐inflammatory markers induced Nitric Oxide Synthase (iNOS) and IL‐1β while enhanced expression of anti‐inflammatory markers arginase 1 and IL‐10 in the ischemic brain. Accordingly, ADT attenuated ischemia‐induced expression and activity of MMP9. Moreover, ADT reduced NOX‐4 mRNA expression, NOX activity, and inhibited nuclear translocation of Nuclear Factor Kappa‐B (NF‐κB) in the ischemic brain. In conclusion, H2S donors protected BBB integrity following experimental stroke possibly by acting through NF‐κB inhibition to suppress neuroinflammation induction of MMP9 and NOX4‐derived free radicals.
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Loic Le Guennec Mathieu Coureuil Xavier Nassif Sandrine Bourdoulous 《Cellular microbiology》2020,22(1)
The skull, spine, meninges, and cellular barriers at the blood–brain and the blood–cerebrospinal fluid interfaces well protect the brain and meningeal spaces against microbial invasion. However, once in the bloodstream, a range of pathogenic bacteria is able to reach the brain and cause meningitis. Despite advances in antibacterial therapy, bacterial meningitis remains one of the most important infectious diseases worldwide. The most common causative bacteria in children and adults are Streptococcus pneumoniae and Neisseria meningitidis associated with high morbidity and mortality, while among neonates, most cases of bacterial meningitis are due to group B Streptococcus and Escherichia coli. Here we summarise our current knowledge on the strategies used by these bacterial pathogens to survive in the bloodstream, to colonise the brain vasculature and to cross the blood–brain barrier. 相似文献
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Identification and quantification of blood–brain barrier transporters in isolated rat brain microvessels 下载免费PDF全文
Hajar Al Feteisi Zubida M. Al‐Majdoub Brahim Achour Narciso Couto Amin Rostami‐Hodjegan Jill Barber 《Journal of neurochemistry》2018,146(6):670-685
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Trafficking of adeno‐associated virus vectors across a model of the blood–brain barrier; a comparative study of transcytosis and transduction using primary human brain endothelial cells 下载免费PDF全文
Steven F. Merkel Allison M. Andrews Evan M. Lutton Dakai Mu Eloise Hudry Bradley T. Hyman Casey A. Maguire Servio H. Ramirez 《Journal of neurochemistry》2017,140(2):216-230
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Microfluidic blood–brain barrier model provides in vivo‐like barrier properties for drug permeability screening 下载免费PDF全文
Ying I. Wang Hasan Erbil Abaci Michael L. Shuler 《Biotechnology and bioengineering》2017,114(1):184-194
Efficient delivery of therapeutics across the neuroprotective blood–brain barrier (BBB) remains a formidable challenge for central nervous system drug development. High‐fidelity in vitro models of the BBB could facilitate effective early screening of drug candidates targeting the brain. In this study, we developed a microfluidic BBB model that is capable of mimicking in vivo BBB characteristics for a prolonged period and allows for reliable in vitro drug permeability studies under recirculating perfusion. We derived brain microvascular endothelial cells (BMECs) from human induced pluripotent stem cells (hiPSCs) and cocultured them with rat primary astrocytes on the two sides of a porous membrane on a pumpless microfluidic platform for up to 10 days. The microfluidic system was designed based on the blood residence time in human brain tissues, allowing for medium recirculation at physiologically relevant perfusion rates with no pumps or external tubing, meanwhile minimizing wall shear stress to test whether shear stress is required for in vivo‐like barrier properties in a microfluidic BBB model. This BBB‐on‐a‐chip model achieved significant barrier integrity as evident by continuous tight junction formation and in vivo‐like values of trans‐endothelial electrical resistance (TEER). The TEER levels peaked above 4000 Ω · cm2 on day 3 on chip and were sustained above 2000 Ω · cm2 up to 10 days, which are the highest sustained TEER values reported in a microfluidic model. We evaluated the capacity of our microfluidic BBB model to be used for drug permeability studies using large molecules (FITC‐dextrans) and model drugs (caffeine, cimetidine, and doxorubicin). Our analyses demonstrated that the permeability coefficients measured using our model were comparable to in vivo values. Our BBB‐on‐a‐chip model closely mimics physiological BBB barrier functions and will be a valuable tool for screening of drug candidates. The residence time‐based design of a microfluidic platform will enable integration with other organ modules to simulate multi‐organ interactions on drug response. Biotechnol. Bioeng. 2017;114: 184–194. © 2016 Wiley Periodicals, Inc. 相似文献
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Sefa Gulturk Ayse Demirkazik Ilkay Kosar Ali Cetin Hatice S. Dökmetas Tuncer Demir 《Bioelectromagnetics》2010,31(4):262-269
We investigated the effect of long‐term exposure to modulation magnetic field (MF), insulin, and their combination on blood–brain barrier (BBB) permeability in a diabetic rat model. Fifty‐three rats were randomly assigned to one of six groups: sham, exposed to no MF; MF, exposed to MF; diabetes mellitus (DM), DM induced with streptozotocin (STZ); DM plus MF (DMMF); DM plus insulin therapy (DMI); and DM plus insulin therapy plus MF (DMIMF). All the rats underwent Evans blue (EB) measurement to evaluate the BBB 30 days after the beginning of experiments. The rats in MF, DMMF, and DMIMF groups were exposed to MF (B = 5 mT) for 165 min every day for 30 days. Mean arterial blood pressure (MABP), body mass, and serum glucose level of the study rats were recorded. The extravasation of brain EB of the MF, DM, DMMF, DMI, and DMIMF groups was higher than that of the sham group and the extravasation of right hemisphere of the DMIMF group was highest (P < 0.05). The post‐procedure body mass of the sham and MF groups were significantly higher than those of the DM and DMMF groups (P < 0.05). In the DM, DMMF, DMI, and DMIMF groups, the baseline glucose was significantly lower than the post‐procedure glucose (P < 0.05). DM and MF increase BBB permeability; in combination, they cause more increase in BBB permeability, and insulin decreases their effect on BBB. Improved glucose metabolism may prevent body mass loss and the hypoglycemic effect of MF. DM increases MABP but MF causes no additional effect. Bioelectromagnetics 31:262–269, 2010. © 2009 Wiley‐Liss, Inc. 相似文献
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Weirong Fang Rui Zhang Lan Sha Peng Lv Erxin Shang Dan Han Jie Wei Xiaohan Geng Qichuan Yang Yunman Li 《Journal of neurochemistry》2014,128(5):662-671
The blood–brain barrier (BBB) greatly limits the efficacy of many neuroprotective drugs' delivery to the brain, so improving drug penetration through the BBB has been an important focus of research. Here we report that platelet activating factor (PAF) transiently opened BBB and facilitated neuroprotectant edaravone penetration into the brain. Intravenous infusion with PAF induced a transient BBB opening in rats, reflected by increased Evans blue leakage and mild edema formation, which ceased within 6 h. Furthermore, rat regional cerebral blood flow (rCBF) declined acutely during PAF infusion, but recovered slowly. More importantly, this transient BBB opening significantly increased the penetration of edaravone into the brain, evidenced by increased edaravone concentrations in tissue interstitial fluid collected by microdialysis and analyzed by Ultra‐performance liquid chromatograph combined with a hybrid quadrupole time‐of‐flight mass spectrometer (UPLC‐MS/MS). Similarly, incubation of rat brain microvessel endothelial cells monolayer with 1 μM PAF for 1 h significantly increased monolayer permeability to 125I‐albumin, which recovered 1 h after PAF elimination. However, PAF incubation with rat brain microvessel endothelial cells for 1 h did not cause detectable cytotoxicity, and did not regulate intercellular adhesion molecule‐1, matrix‐metalloproteinase‐9 and P‐glycoprotein expression. In conclusion, PAF could induce transient and reversible BBB opening through abrupt rCBF decline, which significantly improved edaravone penetration into the brain.
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Melatonin alleviates lipopolysaccharide‐compromised integrity of blood–brain barrier through activating AMP‐activated protein kinase in old mice 下载免费PDF全文
Hui Shu Mengwei Wang Yanyun Sun Xiaojing Liu Yi Eve Sun Chun‐Feng Liu Jie Liu Wenlan Liu Xinchun Jin 《Aging cell》2017,16(2):414-421
Blood–brain barrier (BBB) dysfunction is considered to be an early event in the pathogenesis of a variety of neurological diseases in old patients, and this could occur in old people even when facing common stress. However, the mechanism remains to be defined. In this study, we tested the hypothesis that decreased melatonin levels may account for the BBB disruption in old mice challenged with lipopolysaccharide (LPS), which mimicked the common stress of sepsis. Mice (24–28 months of age) received melatonin (10 mg kg?1 day?1, intraperitoneally, i.p.) or saline for one week before exposing to LPS (1 mg kg?1, i.p.). Evan's blue dye (EB) and immunoglobulin G (IgG) leakage were used to assess BBB permeability. Immunostaining and Western blot were used to detect protein expression and distribution. Our results showed that LPS significantly increased BBB permeability in old mice accompanied by the degradation of tight junction proteins occludin and claudin‐5, suppressed AMP‐activated protein kinase (AMPK) activation, and elevated gp91phox protein expression. Interestingly, administration of melatonin for one week significantly decreased LPS‐induced BBB disruption, AMPK suppression, and gp91phox upregualtion. Moreover, activation of AMPK with metformin significantly inhibited LPS‐induced gp91phox upregualtion in endothelial cells. Taken together, our findings demonstrate that melatonin alleviates LPS‐induced BBB disruption through activating AMPK and inhibiting gp91phox upregulation in old mice. 相似文献
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Gary N. Y. Chan Victor Saldivia Yingbo Yang Henrianna Pang Inés de Lannoy Reina Bendayan 《Journal of neurochemistry》2013,127(3):342-352
Intracerebral microdialysis was utilized to investigate the effect of P‐glycoprotein (a drug efflux transporter) induction at the mouse blood–brain barrier (BBB) on brain extracellular fluid concentrations of quinidine, an established substrate of P‐glycoprotein. Induction was achieved by treating male CD‐1 mice for 3 days with 5 mg/kg/day dexamethasone (DEX), a ligand of the nuclear receptor, pregnane X receptor, and a P‐glycoprotein inducer. Tandem liquid chromatography mass spectrometric method was used to quantify analytes in dialysate, blood and plasma. P‐glycoprotein, pregnane X receptor and Cyp3a11 (metabolizing enzyme for quinidine) protein expression in capillaries and brain homogenates was measured by immunoblot analysis. Following quinidine i.v. administration, the average ratio of unbound quinidine concentrations in brain extracellular fluid (determined from dialysate samples) to plasma at steady state (375–495 min) or Kp, uu, ECF/Plasma in the DEX‐treated animals was 2.5‐fold lower compared with vehicle‐treated animals. In DEX‐treated animals, P‐glycoprotein expression in brain capillaries was 1.5‐fold higher compared with vehicle‐treated animals while Cyp3a11 expression in brain capillaries was not significantly different between the two groups. These data demonstrate that P‐gp induction mediated by DEX at the BBB can significantly reduce quinidine brain extracellular fluid concentrations by decreasing its brain permeability and further suggest that drug–drug interactions as a result of P‐gp induction at the BBB are possible.
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Salah Yousif Catarina Chaves Sophie Potin Isabelle Margaill Jean‐Michel Scherrmann Xavier Declèves 《Journal of neurochemistry》2012,123(4):491-503
Subchronic morphine treatment induces P‐glycoprotein (P‐gp) up‐regulation at the blood–brain barrier. This study investigates the rate and extent to which P‐gp and breast cancer‐resistance protein (Bcrp) increase at the rat blood–brain barrier following subchronic morphine treatment. Rats were given increasing doses of morphine (10–40 mg/kg) or saline i.p. twice daily for 5 days. The brain cortex large vessels and microvessels were then mechanical isolated 6, 9, 12, 24, and 36 h after the last injection. The gene and protein expression of P‐gp and Bcrp in morphine‐treated and control rats were compared by qRT‐PCR and western blotting. The levels of Mdr1a and Bcrp mRNAs were not significantly modified 6 h post morphine, but the Mdr1a mRNA increased 1.4‐fold and Bcrp mRNA 2.4‐fold at 24 h. P‐gp and Bcrp protein expression in brain microvessels was unchanged 6 h post morphine and increased 1.5‐fold at 24 h. This effect was more pronounced in large vessels than in microvessels. However, extracellular morphine concentrations of 0.01–10 μM did not modify the expressions of the MDR1 and BCRP genes in hCMEC/D3 human endothelial brain cells in vitro. MK‐801 (NMDA antagonist) and meloxicam (cyclo‐oxygenase‐2 inhibitor) given after morphine treatment completely blocked P‐gp and Bcrp up‐regulation. Interestingly, misoprostol and iloprost, two well‐known agonists of prostaglandin E2 receptors induced both MDR1 and BCRP mRNA levels in hCMEC/D3. Thus, morphine does not directly stimulate P‐gp and Bcrp expression by the brain endothelium, but glutamate released during morphine withdrawal may do so by activating the NMDA/cyclo‐oxygenase‐2 cascade. 相似文献
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Enhanced transport of plant‐produced rabies single‐chain antibody‐RVG peptide fusion protein across an in cellulo blood–brain barrier device 下载免费PDF全文
Waranyoo Phoolcharoen Christophe Prehaud Craig J. van Dolleweerd Leonard Both Anaelle da Costa Monique Lafon Julian K‐C. Ma 《Plant biotechnology journal》2017,15(10):1331-1339
The biomedical applications of antibody engineering are developing rapidly and have been expanded to plant expression platforms. In this study, we have generated a novel antibody molecule in planta for targeted delivery across the blood–brain barrier (BBB). Rabies virus (RABV) is a neurotropic virus for which there is no effective treatment after entry into the central nervous system. This study investigated the use of a RABV glycoprotein peptide sequence to assist delivery of a rabies neutralizing single‐chain antibody (ScFv) across an in cellulo model of human BBB. The 29 amino acid rabies virus peptide (RVG) recognizes the nicotinic acetylcholine receptor (nAchR) at neuromuscular junctions and the BBB. ScFv and ScFv‐RVG fusion proteins were produced in Nicotiana benthamiana by transient expression. Both molecules were successfully expressed and purified, but the ScFv expression level was significantly higher than that of ScFv‐RVG fusion. Both ScFv and ScFv‐RVG fusion molecules had potent neutralization activity against RABVin cellulo. The ScFv‐RVG fusion demonstrated increased binding to nAchR and entry into neuronal cells, compared to ScFv alone. Additionally, a human brain endothelial cell line BBB model was used to demonstrate that plant‐produced ScFv‐RVGP fusion could translocate across the cells. This study indicates that the plant‐produced ScFv‐RVGP fusion protein was able to cross the in celluloBBB and neutralize RABV. 相似文献