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1.
The present study aimed to investigate pathways that contribute to uptake and transcytosis of high-density lipoproteins (HDLs) and HDL-associated alpha-tocopherol (alpha TocH) across an in vitro model of the blood-brain barrier (BBB). In primary porcine brain capillary endothelial cells HDL-associated alpha TocH was taken up in 10-fold excess of HDL holoparticles, indicating efficient selective uptake, a pathway mediated by scavenger receptor class B, type I (SR-BI). SR-BI was present in caveolae of brain capillary endothelial cells and expressed almost exclusively at the apical membrane. Disruption of caveolae with methyl-beta-cyclodextrin (CDX) resulted in (mis)sorting of SR-BI to the basolateral membrane. Immunohistochemistry of porcine brain cryosections revealed SR-BI expression on brain capillary endothelial cells and presumably astrocytic endfeet. HDL-associated [(14)C]alpha TocH taken up by brain capillary endothelial cells was recovered in sucrose gradient fractions containing the majority of cellular caveolin-1, the major caveolae-associated protein. During mass transfer studies using alpha TocH-enriched HDL, approximately 50% of cellular alpha TocH was recovered with the bulk of cellular caveolin-1 and SR-BI. Efflux experiments revealed that a substantial amount of cell-associated [(14)C]alpha TocH could be mobilized into the culture medium. In addition, apical-to-basolateral transport of HDL holoparticles and HDL-associated alpha TocH was saturable. Results from the present study suggest that part of cerebral apolipoprotein A-I and alpha TocH originates from plasma HDL transcytosed across the BBB and that caveolae-located SR-BI facilitates selective uptake of HDL-associated alpha TocH at the BBB.  相似文献   

2.
Normal neurological function depends on a constant supply of polyunsaturated fatty acids to the brain. A considerable proportion of essential fatty acids originates from lipoprotein-associated lipids that undergo uptake and/or catabolism at the blood-brain barrier (BBB). This study aimed at identifying expression and regulation of endothelial lipase (EL) in brain capillary endothelial cells (BCEC), major constituents of the BBB. Our results revealed that BCEC are capable of EL synthesis and secretion. Overexpression of EL resulted in enhanced hydrolysis of extracellular high-density lipoprotein (HDL)-associated sn-2-labeled [(14)C]20 : 4 phosphatidylcholine. [(14)C]20 : 4 was recovered in cellular lipids, indicating re-uptake and intracellular re-esterification. To investigate local regulation of EL in the cerebrovasculature, BCEC were cultured in the presence of peroxisome-proliferator activated receptor (PPAR)- and liver X receptor (LXR)-agonists, known to regulate HDL levels. These experiments revealed that 24(S)OH-cholesterol (a LXR agonist), bezafibrate (a PPARalpha agonist), or pioglitazone (a PPARgamma agonist) resulted in down-regulation of EL mRNA and protein levels. Our findings implicate that EL could generate fatty acids at the BBB for transport to deeper regions of the brain as building blocks for membrane phospholipids. In addition PPAR and LXR agonists appear to contribute to HDL homeostasis at the BBB by regulating EL expression.  相似文献   

3.
Primary cultures of brain capillary endothelial cells (BCECs) were used to investigate the induction of blood-brain barrier (BBB) characteristics in vitro. Enzymatic activities of gamma-glutamyltranspeptidase (gamma-GT) and alkaline phosphatase (ALP) were taken as indicators for the expression of the BBB phenotype. We were able to show that a coculture system with a direct cell-cell contact between astroglial cells and BCECs is the necessary precondition for an increase of these enzyme activities that are lost in pure BCEC cultures. Coculture with both astrocytes and C6-glioma cells reestablishes the BBB phenotype whereas conditioned media as well as an astrocyte-derived extracellular matrix were ineffective. The susceptibility of the BCECs to an astroglial stimulus depends on the proliferative state of the BCECs. Cells in an early highly proliferative culture phase were stimulated to express an enzymatic activity level similar to the in vivo situation. Confluent BCEC monolayers were not induced at all. With the ALP we observed a spatial induction within a BCEC colony. Astrocyte-induced ALP activity was first observed at an outer belt of BCEC colonies in direct contact with the astrocyte layer. However, this signal is transferred to the center of the colony with time in culture. We conclude that direct contact of BCECs with astroglial cells is necessary for the induction of the BBB phenotype in cultured BCECs and that this signal may be transferred from induced to noninduced BCECs.  相似文献   

4.
Amyloid-β peptides (Aβ) accumulate in cerebral capillaries indicating a central role of the blood-brain barrier (BBB) in the pathogenesis of Alzheimer's disease (AD). Although a relationship between apolipoprotein-, cholesterol- and Aβ metabolism is evident, the interconnecting mechanisms operating in brain capillary endothelial cells (BCEC) are poorly understood. ApoJ (clusterin) is present in HDL that regulates cholesterol metabolism which is disturbed in AD. ApoJ levels are increased in AD brains and in plasma of cerebral amyloid angiopathy (CAA) patients. ApoJ may bind, prevent fibrillization, and enhance clearance of Aβ. We here define a connection of apoJ and cellular cholesterol homeostasis in amyloid precursor protein (APP) processing/Aβ metabolism at the BBB. Silencing of apoJ in primary porcine (p)BCEC decreased intracellular APP and Aβ oligomer levels while the addition of purified apoJ to pBCEC increased intracellular APP and enhanced Aβ clearance across the pBCEC monolayer. Treatment of pBCEC with Aβ(1–40) increased expression of apoJ and receptors involved in amyloid transport including lipoprotein receptor-related protein 1 [LRP1]. In accordance, cerebromicrovascular endothelial cells isolated from 3 × Tg AD mice showed elevated expression levels of apoJ and LRP1 as compared to Non-Tg animals. Treatment of pBCEC with HMGCoA-reductase inhibitor simvastatin markedly increased intracellular and secreted apoJ levels, in parallel increased secreted Aβ oligomers and reduced Aβ uptake and cell-associated Aβ oligomers. Simvastatin effects on apoJ, APP processing, and LRP1 expression in BCEC were confirmed in the mouse model. We suggest a close and complex interaction of apoJ, cholesterol homeostasis, and APP/Aβ processing and clearance at the BBB.  相似文献   

5.
HIV-1 circulates both as free virus and within immune cells, with the level of free virus being predictive of clinical course. Both forms of HIV-1 cross the blood-brain barrier (BBB) and much progress has been made in understanding the mechanisms by which infected immune cells cross the blood-brain barrier BBB. How HIV-1 as free virus crosses the BBB is less clear as brain endothelial cells are CD4 and galactosylceramide negative. Here, we found that HIV-1 can use the mannose-6 phosphate receptor (M6PR) to cross the BBB. Brain perfusion studies showed that HIV-1 crossed the BBB of all brain regions consistent with the uniform distribution of M6PR. Ultrastructural studies showed HIV-1 crossed by a transcytotic pathway consistent with transport by M6PR. An in vitro model of the BBB was used to show that transport of HIV-1 was inhibited by mannose, mannan, and mannose-6 phosphate and that enzymatic removal of high mannose oligosaccharide residues from HIV-1 reduced transport. Wheatgerm agglutinin and protamine sulfate, substances known to greatly increase transcytosis of HIV-1 across the BBB in vivo, were shown to be active in the in vitro model and to act through a mannose-dependent mechanism. Transport was also cAMP and calcium-dependent, the latter suggesting that the cation-dependent member of the M6PR family mediates HIV-1 transport across the BBB. We conclude that M6PR is an important receptor used by HIV-1 to cross the BBB.  相似文献   

6.
Although the cerebral accumulation of guanidinoacetate (GAA) contributes to neurological complications in S -adenosylmethionine:guanidinoacetate N -methyltransferase (GAMT) deficiency, how GAA is abnormally distributed in the brain remains unknown. The purpose of this study was to investigate the transport of GAA across the blood–brain barrier (BBB) and in brain parenchymal cells in rats. [14C]GAA microinjected into the rat cerebrum was not eliminated from the brain, implying the negligible contribution of GAA efflux transport across the BBB. In contrast, in vivo analysis and an uptake study by TR-BBB cells, a rat in vitro BBB model, revealed that GAA was transported from the circulating blood across the BBB most likely via a creatine transporter (CRT). Although CRT at the BBB is almost saturated by endogenous creatine under physiological conditions, the creatine level in the blood significantly decreases in GAMT deficiency. This might lead to the increase of CRT-mediated blood-to-brain transport of GAA at the BBB. Furthermore, [14C]GAA was taken up by brain parenchymal cells in a concentrative manner most likely via taurine transporter and CRT. These characteristics of GAA transport across the BBB and in the brain parenchymal cells could be the key factors that facilitate GAA accumulation in the brains of patients with GAMT deficiency.  相似文献   

7.
Porcine brain capillary endothelial cells (PBCEC) cultured in serum-free and hydrocortisone supplemented medium are characterised by high transendothelial electrical resistances and low cell monolayer permeabilities for small solutes very similar to the blood-brain barrier (BBB) in vivo. Differential screening of a subtracted cDNA library disclosed a 2.1-kb mRNA that is overexpressed in hydrocortisone treated PBCEC relative to untreated cells. The mRNA encodes a 656-aa member of the ATP-binding cassette (ABC) superfamily of transporters that we named brain multidrug resistance protein (BMDP). Phylogenetic analysis and multiple sequence alignment showed that porcine BMDP is most related to the human and mouse breast cancer resistance protein (BCRP). Northern blot analysis revealed that BMDP is expressed in brain tissue in vivo and was predominantly localised within the endothelial cells isolated from brain capillaries. Thus, we identified a new transport protein at the BBB that might play an important role in the exclusion of xenobiotics from the brain.  相似文献   

8.
Abstract: Although cycasin (methylazoxymethanol β- d -glucoside) is proposed to be a significant etiological factor for the prototypical neurodegenerative disorder Western Pacific amyotrophic lateral sclerosis and parkinsonism-dementia complex, the mechanism underlying transport of cycasin across the blood-brain barrier (BBB) is unknown. We examined cycasin transport in cultured bovine brain endothelial cells, a major element of the BBB. Cycasin was taken up into endothelial cells in a dose-dependent manner with maximal uptake observed at a concentration of 10 µ M . Cycasin uptake was significantly inhibited by α-methyl- d -glucoside, a specific analogue for the Na+-dependent glucose transporter (SGLT), by the SGLT inhibitor phlorizin, by replacement of extracellular NaCl with LiCl, and by dinitrophenol (DNP), an inhibitor of energy metabolism. In addition, cycasin produced inward currents in a whole-cell voltage clamp configuration. Peak currents were observed at 10 µ M with a trend toward reduction at higher concentrations, and currents were clearly blocked by α-methyl- d -glucoside, phlorizin, and DNP. In addition, cycasin never evoked currents in Na+-free extracellular solution. These results suggest that cycasin is selectively transported across brain endothelial cells, possibly across the BBB by a Na+/energy-dependent glucose transporter.  相似文献   

9.
The blood–brain barrier (BBB) restricts the entry of proteins as well as potential drugs to cerebral tissues. We previously reported that a family of Kunitz domain-derived peptides called Angiopeps can be used as a drug delivery system for the brain. Here, we further characterize the transcytosis ability of these peptides using an in vitro model of the BBB and in situ brain perfusion. These peptides, and in particular Angiopep-2, exhibited higher transcytosis capacity and parenchymal accumulation than do transferrin, lactoferrin, and avidin. Angiopep-2 transport and accumulation in brain endothelial cells were unaffected by the P-glycoprotein inhibitor, cyclosporin A, indicating that this peptide is not a substrate for the efflux pump P-glycoprotein. However, competition studies show that activated α2-macroglobulin, a specific ligand for the low-density lipoprotein receptor-related protein-1 (LRP1) and Angiopep-2 can share the same receptor. In addition, LRP1 was detected in glioblastomas and brain metastases from lung and skin cancers. Fluorescent microscopy also revealed that Alexa488-Angiopep-2 co-localized with LRP1 in brain endothelial cell monolayers. Overall, these results suggest that Angiopep-2 transport across the BBB is, in part, mediated by LRP1.  相似文献   

10.
Astrocytes, a member of the glial cell family in the central nervous system, are assumed to play a crucial role in the formation of the blood-brain barrier (BBB) in vertebrates. It was shown that astrocytes induce BBB-properties in brain capillary endothelial cells (BCEC) in vitro. We now established an astroglial cell line of non-tumoral origin. The cloned cell line (A7) shows a highly increased proliferation rate and expresses the astrocytic marker glial fibrillary acidic protein. Furthermore, the clone A7 expresses S-100-protein and vimentin, which are also expressed by primary cultured astrocytes. This cell line therefore shows general astrocytic features. In addition, we were able to show that A7 cells re-induce the BBB-related marker enzyme alkaline phosphatase in BCEC, when these two cell types are co-cultured. Thus we have a cell line which can be readily cultured in large quantities, shows common astrocyte properties and is able to influence BCEC with respect to a BBB-related feature. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

11.
We previously reported that electromagnetic fields (EMFs) [GSM 1800 standard (Global System for Mobile Communications, 1800 MHz)] increased sucrose permeation across the blood-brain barrier (BBB) in vitro. The cell culture model used in our previous study was comprised of rat astrocytes in coculture with porcine brain microvascular endothelial cells (PBECs). In this study, after optimization of cell culture conditions, distinctly improved barrier tightness was observed, accompanied by a loss of susceptibility to EMF-related effects on BBB permeability. Cell cultures were exposed for 1-5 days at an average specific absorption rate (SAR) of 0.3 W/kg in the identical exposure system as described before. To quantify barrier tightness, sucrose permeation across exposed PBEC was measured and compared to values of sham exposed cells and to a control group. Additionally, observations in the BBB coculture system were complemented by similar experiments using two other in vitro models, composed of PBEC monocultures with or without serum. These three models display distinctly higher barrier tightness than the previously used system. In all three BBB models, sucrose permeation across the cell layers remained unaffected by exposure to a GSM 1800 field for up to 5 days. We thus could not confirm enhanced permeability of the BBB in vitro after EMF exposure as reported before since the in vitro barrier tightness in these experiments is now more like that of the in vivo situation.  相似文献   

12.
During the present study the contribution of lipoprotein lipase (LPL) to low density lipoprotein (LDL) holoparticle and LDL-lipid (alpha-tocopherol (alphaTocH)) turnover in primary porcine brain capillary endothelial cells (BCECs) was investigated. The addition of increasing LPL concentrations to BCECs resulted in up to 11-fold higher LDL holoparticle cell association. LPL contributed to LDL holoparticle turnover, an effect that was substantially increased in response to LDL-receptor up-regulation. The addition of LPL increased selective uptake of LDL-associated alphaTocH in BCECs up to 5-fold. LPL-dependent selective alphaTocH uptake was unaffected by the lipase inhibitor tetrahydrolipstatin but was substantially inhibited in cells where proteoglycan sulfation was inhibited by treatment with NaClO(3). Thus, selective uptake of LDL-associated alphaTocH requires interaction of LPL with heparan-sulfate proteoglycans. Although high level adenoviral overexpression of scavenger receptor BI (SR-BI) in BCECs resulted in a 2-fold increase of selective LDL-alphaTocH uptake, SR-BI did not act in a cooperative manner with LPL. Although the addition of LPL to BCEC Transwell cultures significantly increased LDL holoparticle cell association and selective uptake of LDL-associated alphaTocH, holoparticle transcytosis across this porcine blood-brain barrier (BBB) model was unaffected by the presence of LPL. An important observation during transcytosis experiments was a substantial alphaTocH depletion of LDL particles that were resecreted into the basolateral compartment. The relevance of LPL-dependent alphaTocH uptake across the BBB was confirmed in LPL-deficient mice. The absence of LPL resulted in significantly lower cerebral alphaTocH concentrations than observed in control animals.  相似文献   

13.
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   

14.
A blood-brain barrier (BBB) model composed of porcine brain capillary endothelial cells (BCEC) was exposed to a moderately excessive zinc environment (50 micromol/L Zn) in cell culture, and longitudinal measurements were made of zinc transport kinetics, ZnT-1 (SLC30A1) expression and changes in the protein concentration of metallothionein (MT), ZnT-1, ZnT-2 (SLC30A2) and Zip1 (SLC39A1). Zinc release by cells of the BBB model significantly increased after 12-24 h of exposure, but decreased back to control levels after 48-96 h, as indicated by transport across the BBB from both the ablumenal (brain) and the lumenal (blood) directions. Expression of ZnT-1, the zinc export protein, increased by 169% within 12 h, but was no longer different from controls after 24 h. Likewise, ZnT-1 protein content increased transiently after 12 h of exposure, but returned to control levels by 24 h. Capacity for zinc uptake and retention increased from both the lumenal and the ablumenal directions within 12-24 h of exposure and remained elevated. MT and ZnT-2 were elevated within 12 h and remained elevated throughout the study. Zip1 was unchanged by the treatment. The BBB's response to a moderately high zinc environment was dynamic and involved multiple mechanisms. The initial response was to increase the cells' capacity to sequester zinc with additional MT and to increase zinc export with the ZnT-1 protein. But the longer-term strategy involved increasing ZnT-2 transporters, presumably to sequester zinc into intracellular vesicles as a mechanism to protect the brain and to maintain brain zinc homeostasis.  相似文献   

15.
We report an investigation on the influence of high frequency electromagnetic fields (EMF) on the permeability of an in vitro model of the blood-brain barrier (BBB). Our model was a co-culture consisting of rat astrocytes and porcine brain capillary endothelial cells (BCEC). Samples were characterized morphologically by scanning electron microscopy and immunocytochemistry. The BBB phenotype of the BCEC was shown by the presence of zona occludens protein (ZO-1) as a marker for tight junctions and the close contact of the cells together with the absence of intercellular clefts. Permeability measurements using (14)C-sucrose indicated a physiological tightness which correlated with the morphological findings and verified the usefulness of our in vitro model. Samples were exposed to EMF conforming to the GSM1800-standard used in mobile telephones (1.8 GHz). The permeability of the samples was monitored over four days and compared with results of samples that were cultured identically but not exposed to EMF. Exposure to EMF increased permeability for (14)C-sucrose significantly compared to unexposed samples. The underlying pathophysiological mechanism remains to be investigated.  相似文献   

16.
聚乳酸纳米粒穿透血脑屏障的分析电镜研究   总被引:4,自引:0,他引:4  
观察以聚乳酸 (D ,L-polylacticacid,PLA)为材料制备、经吐温-80(T-80)表面改性的纳米粒对血脑屏障的穿透效果并探讨其机制 ,分别将FITC-Dextran、叶绿素铜作为PLA纳米粒的示踪标记 ,应用荧光显微镜、透射电镜及分析电镜观察经静脉注射入小鼠体内的PLA纳米粒在脑组织中的分布、穿透血脑屏障的特性。荧光显微镜观察到小鼠脑组织中散在及沿毛细血管壁分布的荧光颗粒 ,透射电镜可观察到小鼠脑毛细血管内皮细胞及周围脑组织中圆形或类圆形的外源性纳米粒 ;进一步采用分析电镜对颗粒处组织进行能谱分析证实其为叶绿素铜标记的PLA纳米粒。证实了T-80修饰的PLA纳米粒具有穿透血脑屏障的特性 ,机制可能是毛细血管内皮细胞的胞吞转运作用 ,同时 ,为研究纳米粒在组织内的定位提供了新的标记方法.  相似文献   

17.
The peptide urocortin is a member of the corticotropin-releasing factor (CRF) family and a potent satiety signal to the brain. Urocortin in blood does not reach the brain significantly by itself, but its permeation across the blood-brain barrier (BBB) can be enhanced by leptin. How leptin facilitates the influx of urocortin has not been elucidated. In this study, we tested the hypothesis that leptin activates receptor-mediated endocytosis of urocortin. We measured the kinetics of permeation of radioactively labeled urocortin across the mouse BBB and determined the specific effects of leptin and receptor antibodies. The results show that the influx transfer constant of urocortin was enhanced in the presence of leptin and mediated by CRF-2beta, the specific receptor for urocortin. To determine the specificity of this modulation, the effect of leptin was compared with that of TNFalpha. Both TNFalpha and leptin independently facilitated receptor-mediated transport of urocortin across the BBB. Even though TNFalpha and leptin have similar effects on urocortin transport, leptin did not significantly affect the influx of TNFalpha across the BBB. The results indicate that permeation of ingestive peptides and cytokines across the BBB can be acutely modulated, consistent with a role of BBB in regulating feeding behavior. Thus, sites of action of leptin, urocortin, and TNFalpha exist not only in the brain but also at the BBB where they each control the flow of other ingestive signals to CNS targets.  相似文献   

18.
Intracerebral accumulation of neurotoxic dicarboxylic acids (DCAs) plays an important pathophysiological role in glutaric aciduria type I and methylmalonic aciduria. Therefore, we investigated the transport characteristics of accumulating DCAs – glutaric (GA), 3-hydroxyglutaric (3-OH-GA) and methylmalonic acid (MMA) – across porcine brain capillary endothelial cells (pBCEC) and human choroid plexus epithelial cells (hCPEC) representing in vitro models of the blood–brain barrier (BBB) and the choroid plexus respectively. We identified expression of organic acid transporters 1 (OAT1) and 3 (OAT3) in pBCEC on mRNA and protein level. For DCAs tested, transport from the basolateral to the apical site (i.e. efflux) was higher than influx. Efflux transport of GA, 3-OH-GA, and MMA across pBCEC was Na+-dependent, ATP-independent, and was inhibited by the OAT substrates para-aminohippuric acid (PAH), estrone sulfate, and taurocholate, and the OAT inhibitor probenecid. Members of the ATP-binding cassette transporter family or the organic anion transporting polypeptide family, namely MRP2, P-gp, BCRP, and OATP1B3, did not mediate transport of GA, 3-OH-GA or MMA confirming the specificity of efflux transport via OATs. In hCPEC, cellular import of GA was dependent on Na+-gradient, inhibited by NaCN, and unaffected by probenecid suggesting a Na+-dependent DCA transporter. Specific transport of GA across hCPEC, however, was not found. In conclusion, our results indicate a low but specific efflux transport for GA, 3-OH-GA, and MMA across pBCEC, an in vitro model of the BBB, via OAT1 and OAT3 but not across hCPEC, an in vitro model of the choroid plexus.  相似文献   

19.
Abstract: Iron is essential in the cellular metabolism of all mammalian tissues, including the brain. Intracerebral iron concentrations vary with age and in several (neurological) diseases. Although it is evident that endothelial cells lining the capillaries in the brain are of importance, factors governing the regulation of intracerebral iron concentration are unknown. To investigate the role of blood-brain barrier endothelial cells in cerebral iron regulation, primary cultures of porcine blood-brain barrier endothelial cells were grown in either iron-enriched or iron-depleted medium. Iron-enriched cells showed a reduction in surface-bound and total transferrin receptor numbers compared with iron-depleted cells. Transferrin receptor kinetics showed that the transferrin receptor internalization rate in iron-enriched cultures was higher, whereas the transferrin receptor externalization rate in iron-enriched cultures was lower than the rate in iron-depleted cultures. Moreover, blood-brain barrier endothelial cells cultured in iron-enriched medium were able to accumulate more iron intracellularly, which underlines our kinetic data on transferrin receptors. Our results agree with histopathological studies on brain tissue of patients with hemochromatosis, suggesting that at high peripheral iron concentrations, the rate of iron transport across the blood-brain barrier endothelial cells is to some extent proportional to the peripheral iron concentration.  相似文献   

20.
Abstract— Primary cultures of bovine brain capillary endo-thelial cells (BCEC), possessing tight junctions and high levels of γ-glutamyl transpeptidase, were used as an in vitro model for the blood-brain barrier. The interaction of acetylated low density lipoprotein (AcLDL) with BCEC was studied to characterize the scavenger receptor on these cells. A saturable high affinity binding site was found with a dissociation constant of AcLDL of 5.4 μg/ml (3.1 n M ) and a maximal binding ranging from 284 to 626 ng of AcLDL/mg of cell protein for eight primary cultures, and independent of the presence of calcium. Cell association was coupled to degradation, and both could be effectively competed for by polyinosinic acid and AcLDL but not by low density lipoprotein or by high density lipoprotein. Prolonged incubation showed an accumulation of the ligand in the cells. The rate of degradation of AcLDL was ∼ 10–20-fold lower in BCEC than that of peripheral endothelial cells. No evidence for lysosomal degradation could be obtained. Binding of 1,1'-dioctadecyl-3,3,3,3'-tetramethylindocar-boxyamine perchlorate-labeled AcLDL by BCEC was observed, which could be competed for by an excess of un-labeled AcLDL and polyinosinic acid. We have shown that in vitro BCEC possesses specific binding sites for AcLDL, whereas these cells show a relatively low degradative capacity.  相似文献   

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