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1.
Rat brain microvessel endothelial cells were immortalized by transfection with a plasmid containing the E1A adenovirus gene. One clone, called RBE4, was further characterized. These cells display a nontransformed phenotype and express typical endothelial markers, Factor VIII-related antigen and Bandeiraea simplicifolia binding sites. When RBE4 cells were grown in the presence of bFGF and on collagen-coated dishes, confluent cultures developed sprouts that extend above the monolayer and organized into three-dimensional structures. The activity of the blood-brain barrier-associated enzyme, gamma-glutamyl transpeptidase (γGTP), was expressed in these structures, not in the surrounding monolayer. Similar results were obtained with the microvessel-related enzyme alkaline phosphatase (ALP). Addition of agents that elevate intracellular cAMP reduced the formation of three-dimensional structures, but every cell inside the aggregates still expressed γCTP and ALP activities. Such structures, associated with high levels of γCTP and ALP activities, were also induced by astroglial factors, including (1) plasma membranes from newborn rat primary astrocytes or rat glioma C6 cells, (2) C6 conditioned media, or (3) diffusible factors produced by primary astrocytes grown in the presence of, but not in contact with RBE4 cells. RBE4 cells thus remain sensitive to angiogenic and astroglial factors for the expression of the blood-brain barrier-related γCTP activity, as well as for ALP activity, and could constitute the basis of a valuable in vitro model of the blood-brain barrier. © 1994 wiley-Liss, Inc.  相似文献   

2.
The physiological function of alkaline phosphatase (ALP) remains controversial. It was recently suggested that this membrane-bound enzyme has a role in the modulation of transmembranar transport systems into hepatocytes and Caco-2 cells. ALP activity expressed on the apical surface of blood-brain barrier cells, and its relationship with (125)I-insulin internalization were investigated under physiological conditions using p-nitrophenylphosphate (p-NPP) as substrate. For this, an immortalized cell line of rat capillary cerebral endothelial cells (RBE4 cells) was used. ALP activity and (125)I-insulin internalization were evaluated in these cells. The results showed that RBE4 cells expressed ALP, characterized by an ecto-oriented active site which was functional at physiological pH. Orthovanadate (100 microM), an inhibitor of phosphatase activities, decreased both RBE4-ALP activity and (125)I-insulin internalization. In the presence of L-arginine (1 mM) or adenosine (100 microM) RBE4-ALP activity and (125)I-insulin, internalization were significantly reduced. However, D-arginine (1 mM) had no significant effect. Additionally, RBE4-ALP activity and (125)I-insulin internalization significantly increased in the presence of the bioflavonoid kaempferol (100 microM), of the phorbol ester PMA (80 nM), IBMX (1 mM), progesterone (200 microM and 100 microM), beta-estradiol (100 microM), iron (100 microM) or in the presence of all-trans retinoic acid (RA) (10 microM). The ALP inhibitor levamisole (500 microM) was able to reduce (125)I-insulin internalization to 69.1 +/- 7.1% of control. Our data showed a positive correlation between ecto-ALP activity and (125)I-insulin incorporation (r = 0.82; P < 0.0001) in cultured rat brain endothelial cells, suggesting that insulin entry into the blood-brain barrier may be modulated through ALP.  相似文献   

3.
4.
Summary The present study deals with a rapid and convenient assay for blood-brain barrier (BBB)-associated enzymes, γ-glutamyl transpeptidase (γ-GTP) and alkaline phosphatase (ALP), in cultured endothelial cells and other cells. These enzyme activities in cultured cells could be efficiently measured by direct incubation of each substrate in the culture plates without pretreatment of the cells. This new direct in situ-in plate assay was more rapid and convenient than conventional ex-plate assays, and these assays gave similar values for specific enzyme activities. γ-GTP and ALP activities could be detected by this in situ method in primary-cultured endothelial cells of porcine brain microvessels, but their levels were lower than those before culture. The degree of loss due to culture differed, between γ-GTP and ALP; a relatively large amount of ALP remained but the γ-GTP level decreased greatly In this direct in situ-in plate assay, cultured porcine aortic endothelial cells exhibited negligibly small activities for both enzymes, whereas cultured astroglial cells of neonatal porcine brain showed moderate γ-GTP activity and a trace of ALP activity. This direct in situ-in plate assay can be used for microculture and automatic measurement and offers a convenient means for studying the possible regulatory mechanisms of the expression of the BBB-associated enzymes.  相似文献   

5.
The blood-brain barrier consists of the cerebral microvascular endothelium, pericytes, astrocytes and neurons. In this study we analyzed the differentiation stage dependent influence of primary porcine brain capillary pericytes on the barrier integrity of primary porcine brain capillary endothelial cells. At first, we were able to induce two distinct differentiation stages of the primary pericytes in vitro. TGFβ treated pericytes expressed more α-SMA and actin while desmin, vimentin and nestin expression was decreased when compared to bFGF induced cells. Further analysis of α-SMA revealed that most of the pericytes differentiated with TGFβ expressed functional α-SMA while only few cells expressed functional α-SMA in the presence of bFGF. In addition the permeability factors VEGF, MMP-2 and MMP-9 were higher secreted by the α-SMA positive phenotype indicating a proangiogenic role of this TGFβ induced pericyte differentiation stage. Higher level of VEGF, MMP-2 and MMP-9 were as well detected in the TGFβ pretreated pericyte coculture with endothelial cells when compared to the influence of the bFGF pretreated pericytes. The TEER measurement of the barrier integrity of endothelial cells revealed that bFGF induced α-SMA negative pericytes stabilize the barrier integrity while α-SMA positive pericytes differentiated by TGFβ decrease the barrier integrity. These results together reveal the potential of pericytes to regulate the endothelial barrier integrity in a differentiation stage dependant pathway.  相似文献   

6.
Previously we reported that the co-culture of non-brain vascular endothelial cells with glioma cells leads to the induction of a more differentiated endothelial cell phenotype which exhibits important properties of the blood-brain barrier (BBB). Recognising the potential for improving the model barrier system with agents known to modify the growth and differentiation of cells in culture we examined the effects of four differentiating agents (butyric acid, dexamethasone, retinoic acid, and dimethyl sulfoxide) on barrier function. Of these agents only butyric acid and dexamethasone resulted in an enhancement (depending on the dose used) of transendothelial electrical resistance (barrier function). The greatest effect was observed with butyric acid in a dose-dependent manner and was slow in onset and only occurred in the endothelial/glial cell co-cultures. These data indicate that butyric acid may be a beneficial agent in optimising conditions necessary for induction of BBB properties in in vitro barrier systems.  相似文献   

7.
8.
Abstract: Two membrane glycoproteins acting as energy-dependent efflux pumps, mdr -encoded P-glycoprotein (P-gp) and the more recently described multidrug resistance-associated protein (MRP), are known to confer cellular resistance to many cytotoxic hydrophobic drugs. In the brain, P-gp has been shown to be expressed specifically in the capillary endothelial cells forming the blood-brain barrier, but localization of MRP has not been well characterized yet. Using RT-PCR and immunoblot analysis, we have compared the expression of P-gp and Mrp1 in homogenates, isolated capillaries, primary cultured endothelial cells, and RBE4 immortalized endothelial cells from rat brain. Whereas the mdr1a P-gp-encoding mRNA was specifically detected in brain microvessels and mdr1b mRNA in brain parenchyma, mrp1 mRNA was present both in microvessels and in parenchyma. However, Mrp1 was weakly expressed in microvessels. Mrp1 expression was higher in brain parenchyma, as well as in primary cultured brain endothelial cells and in immortalized RBE4 cells. This Mrp1 overexpression in cultured brain endothelial cells was less pronounced when the cells were cocultured with astrocytes. A low Mrp activity could be demonstrated in the endothelial cell primary monocultures, because the intracellular [3H]vincristine accumulation was increased by several MRP modulators. No Mrp activity was found in the cocultures or in the RBE4 cells. We suggest that in rat brain, Mrp1, unlike P-gp, is not predominantly expressed in the blood-brain barrier endothelial cells and that Mrp1 and the mdr1b P-gp isoform may be present in other cerebral cells.  相似文献   

9.
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   

10.
The brain is partially protected from chemical insults by a physical barrier mainly formed by the cerebral microvasculature, which prevents penetration of hydrophilic molecules in the cerebral extracellular space. This results from the presence of tight junctions joining endothelial cells, and from a low transcytotic activity in endothelial cells, inducing selective permeability properties of cerebral microvessels that characterize the blood-brain barrier. The endothelial cells provide also, as a result of their drug-metabolizing enzymes activities, a metabolic barrier against potentially penetrating lipophilic substances. It has been established that in cerebrovascular endothelial cells, several families of enzymes metabolize potentially toxic lipophilic substrates from both endogenous and exogenous origin to polar metabolites, which may not be able to penetrate further across the blood-brain barrier. Enzymes of drug metabolism present at brain interfaces devoid of blood-brain barrier, like circumventricular organs, pineal gland, and hypophysis, that are potential sites of entry for xenobiotics, display higher activities than in cerebrovascular endothelial cells, and conjugation activities are very high in the choroid plexus. Finally, xenobiotic metabolism normally results in detoxication, but also in some cases in the formation of pharmacologically active or neurotoxic products, possibly altering some blood-brain barrier properties.  相似文献   

11.
Transport of carnitine was studied with immortalized rat brain endothelial cells (RBE4), an in vitro model of the blood-brain barrier. The experiments on uptake and efflux through the luminal membrane excluded any involvement of choline and amino acids transporters, as well as that of glycoprotein P. Acetyl-, octanoylcarnitine, and betaine were without any effect; the only compound decreasing both processes was butyrobetaine. An exposure of the abluminal membrane resulted in a 40% inhibition of carnitine uptake by the substrates of neutral amino acid transporter L, while its efflux through the basolateral membrane, occurring in a form of free carnitine, was sensitive to SH group reagent, mersalyl, and was diminished by butyrobetaine. These features of carnitine transport did not fully correspond to the known characteristics of the proteins transporting carnitine in other tissues (OCTN2 and CT1); however, they did not exclude an involvement of a transporter belonging to the same superfamily. Moreover, such a protein in brain endothelium would fulfill a regulatory role in the transport of carnitine through the blood-brain barrier.  相似文献   

12.
Summary Studies of brain microvessel endothelial cell physiology and blood-brain barrier properties are often hampered by the requirement of repeatedly producing and characterizing primary endothelial cell cultures. The use of viral oncogenes to produce several immortalized brain microvessel cell lines has been reported. The resulting cell lines express many properties of the blood-brain barrier phenotype but do not completely mimic primary endothelial cells in culture. As immortalized brain microvessel endothelial cell lines have not yet been produced from mice, we transformed mouse brain endothelial cells with the adenovirus E1A gene using a retroviral vector (DOL). Eight of 11 clones produced exhibited an endothelial-like cobblestone morphology and were characterized as endothelial with a panel of antibodies, lectins, and ultrastructural criteria. These cells are endothelial in origin and share ultrastructural features with primary cultures of endothelial cells. Examination of freeze fracture and transmission electron micrographs show adherens junctions exist between the transformed cells, and culture in astrocyte-conditioned medium induces the formation of gap junctions. This is one indication that responses to astrocyte-derived factors are retained by the transformed cell lines.  相似文献   

13.
14.
The blood-brain barrier, localized in the endothelium of the cerebral capillaries, is characterized by the existence of tight junctions, a low mitochondrial density, a low number of vesicles and a high activity of certain enzymes like alkaline phosphatase and gamma-glutamyl transpeptidase. Astroglial cells secrete a product that induces brain microvessel endothelial cells to differentiate into endothelial cells with blood-brain barrier properties. If rat astrocytes were grown together with human umbilical cord vein endothelial cells in a co-culture system in which there is no cellular contact between both cell types, alkaline phosphatase activity was induced in the endothelial cells after three days of co-culturing. If the endothelial cells were cultured in astrocyte conditioned medium, alkaline phosphatase activity was also induced, and preliminary results showed that formation of tight junctions occurred after five days. These observations support the hypothesis that astrocytes induce the differentiation of non-blood-brain barrier endothelial cells into endothelial cells with blood-brain barrier properties, in this study based on alkaline phosphatase-activity induction and induction of tight junction formation. These inductive processes are produced by a soluble factor released by the astrocytes.  相似文献   

15.
In an effort to obtain a useful in vitro model possessing some of the properties of the blood-brain barrier, we have investigated the properties and interactions of immortalized cell lines. Immortalised human umbilical vein endothelial cells (HUVEC-304), in co-culture with rat C6 glioma cells in a two-chambered assembly, form tight junctional complexes, and develop a permeability barrier having a high transcellular electrical resistance. The endothelial cells generate a barrier with greatest integrity in the presence of glioma cells, or in the presence of glioma cell conditioned medium. Under these conditions, the endothelial cells also display pronounced structural changes which do not occur in the absence of glioma cells. Morphological alterations include a flattening of cell shape from a cuboidal-type to a squamous-type of appearance, and a re-organization of F-actin microfilaments. The integrity of the barrier can be reversibly disrupted by osmotic shock or by tumor necrosis factor-alpha (TNF-α). We interpret these observations to indicate that co-cultures of immortalized vascular endothelial and C6 glioma cells provide a model for the investigation of cell-cell interactions required for the generation of a barrier having several properties of the blood-brain barrier. © 1996 Wiley-Liss, Inc.  相似文献   

16.
A spontaneous tube-forming clone of rat cerebral resistance-vessel endothelium was characterized in long-term serial culture. In this study, a clone, RV-150 ECT, of cerebral resistance vessel endothelial cells in long-term culture has been shown to have a subpopulation of γ-GTP positive cells that are present in all cultures regardless of confluency status or tube-forming stages. In pre-confluent and confluent cultures, the γ-GTP positive cells are few in number, stain weakly, and are randomly distributed in the monolayers. In monolayer post-confluent cultures, γ-GTP positive cells increase in number, stain strongly, and begin to show signs of non-random distributions. In early post-confluent cultures that have become a mixture of monolayer and multilayer cells, there is a further increase in γ-GTP positive cells which begin to form distinct groupings. In mid post-confluent fultures, the multilayered areas of the culture have begun clustering to form clear multicellular aggregates. The γ-GTP positive cells at this stage are reduced in number and are predominately associated with the cell clusters. In late postconfluent cultures, the multicellular clusters develop clear cell cords between/among the clusters. At this stage the γ-GTP positive cells are associated exclusively with cell clustters. With cord development, the γ-GTP positive cells are associated with bothe clusters and cords, and are reduced in number apparently because of selective degeneration of these cells. The results of this study demonstrate that a phenotypically distinct subpopulation of endothelial cells exhibits characteristic features of the blood-brain barrier, namely γ-GTP. The ability of these cells to express this property in long-term serial culture suggests that this may represent a useful in vitro model to study the growth and differentiation of bloodbrain barrier vessels. © 1993 Wiley-Liss, Inc.  相似文献   

17.
Two key enzymes of glycolysis, phosphofructokinase and pyruvate kinase, were studied in embryonal carcinoma cells (P19 EC cells) and three differentiated derivatives in relation to growth rate and differentiation state. The growth rates of P19 EC cells and its differentiated derivatives are positively correlated with both the specific activity of phosphofructokinase and the expression of the L-subunit of this enzyme. The specific activity of pyruvate kinase and its isozyme composition is not correlated with growth rate but seems to be correlated with the differentiation state of these cells. The decrease in specific activity of pyruvate kinase during differentiation of P19 EC cells induced by retinoic acid or dimethylsulfoxide preceded the shift from K- to M-type pyruvate kinase. In contrast to aggregates that were treated with dimethylsulfoxide, the specific activity of pyruvate kinase was reduced after aggregation in the presence of retinoic acid. Only after plating dimethylsulfoxide-treated aggregates again in the presence of dimethylsulfoxide, was a decrease in specific activity obtained. Both retinoic acid and dimethylsulfoxide are able to induce a K- to -M shift of pyruvate kinase.  相似文献   

18.
In the present study, we investigated the changes in blood-brain barrier (BBB) permeability following brain endothelial cell exposure to different xenobiotics able to promote free radical generation during their metabolism. Our in vitro BBB model consisted of confluent monolayers of immortalized rat brain capillary endothelial cells (RBE4) grown on collagen-coated filters in the presence of C6 glioma cells grown in the lower compartment. We have recently shown that a range of xenobiotics, including menadione, nitrofurazone, and methylviologen (paraquat) may undergo monoelectronic redox cycling in isolated brain capillaries, giving rise to reactive oxygen species. In this study, addition of 100 microM menadione to the culture medium for 30 min significantly increased the permeability of endothelial cell monolayers to radiolabeled sucrose. The effect on endothelial permeability induced by menadione was dose-dependent and reversible. These permeability changes preceded the onset of cell death, as assessed by the Trypan blue exclusion method. Pre-incubation with superoxide dismutase and catalase blocked changes in sucrose permeability to control levels in a dose-dependent manner, suggesting the involvement of reactive oxygen species in menadione-induced BBB opening.  相似文献   

19.
When grown in the absence of astroglial cells, purified mouse cerebellar granule neurons survive less than 36 hr and do not extend neurites. Here we report that low concentrations of basic fibroblast growth factor (bFGF, 1-25 ng/ml) maintained the viability and promoted the differentiation of purified granule neurons. The effect of bFGF on granule cell neurite outgrowth was dose dependent. Neurite outgrowth was stimulated markedly in the presence of 1-25 ng/ml bFGF, but effects were not seen below 1 ng/ml or above 50 ng/ml. When affinity-purified antibodies against bFGF (1-5 micrograms/ml) were added either to purified granule cells or to co-cultures of neurons and astroglial cells, process extension by granule neurons was severely impaired. The inhibition of neurite outgrowth in the presence of anti-bFGF antibodies was reversed by the addition of 25 ng/ml of exogenous bFGF. In addition to neuronotrophic effects, bFGF influenced the rate of growth of the astroglial cells. This result depended on whether the astroglia were grown in isolation from neurons, where low doses of bFGF (10-25 ng) stimulated glial growth, or in coculture with neurons, where much higher doses of bFGF (100-250 ng/ml) were needed for glial mitogenesis. Immunoprecipitation of lysates from 35S-labeled cerebellar astroglial cells with anti-bFGF antibodies revealed a single band after SDS-PAGE at 18,000 Da, the molecular weight of bFGF. These results indicate that glial cells synthesize bFGF and are possibly an endogenous source of bFGF in cerebellar cultures. Thus, astroglial cells synthesize soluble factors needed for neuronal differentiation.  相似文献   

20.
p-glycoprotein (p-gp) is an ATP-binding cassette transporter and its overexpression is responsible for the acquisition of the multidrug resistance phenotype in human tumors. p-gp is localized at the blood-brain barrier and is involved in brain cytoprotection. Our previous work used immunoprecipitation to show that caveolin-1 can interact with p-gp. In this study, we provide evidence that caveolin-1 regulates p-gp transport activity in a rat brain endothelial cell line (RBE4). Down-regulation of caveolin-1 by siRNA reduced the interaction between p-gp and caveolin-1, followed by a decrease in [3H]-Taxol and [3H]-Vinblastine accumulation in RBE4 cells. The latter result showed that down-regulation of caveolin-1 enhanced p-gp transport activity. RBE4 cells were also transfected with Sarcoma in order to modulate caveolin-1 phosphorylation. Overexpression of Sarcoma, a protein tyrosine kinase, stimulated caveolin-1 phosphorylation and increased both [3H]-Taxol and [3H]-Vinblastine accumulation as well as Hoechst 33342 accumulation. Transfection of caveolin-1 inhibits p-gp transport activity. Conversely, transfection of the mutant cavY14F decreased the p-gp/caveolin-1 interaction and reduced accumulation of the two p-gp substrates. Thus, our data show that caveolin-1 regulates p-gp function through the phosphorylation state of caveolin-1 in endothelial cells from the blood-brain barrier.  相似文献   

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