Effects of the PAF-analog and -antagonist CV-6209 on cultured human glioma cell lines

Cell lines of human glioma (U-343 MGa and U-251 MG) and human glia (U-533 CG) origin were cultured as monolayers and exposed to CV-6209, an alkyl-phospholipid analog and antagonist of platelet activating factor. This drug had very potent antiproliferative effects on the studied human glioma cell lines; IC50 was 0.9 microM after 48 h treatment and 0.2 microM after 2 weeks treatment. At these doses no growth inhibitory effect was noted on the normal glia cells. The effects on the glioma cells were reversible in the dose intervals, where cell proliferation, 3H-thymidine and 14C-methionine uptakes were greatly inhibited. The simultaneous administration of platelet activating factor [(R)PAF] did not influence the antiproliferative effects of CV-6209 on the cells cultured as monolayers. The structurally similar analog CV-3988 also had antiproliferative effects, although at 10 times higher concentration than CV-6209. Two other, structurally unrelated, PAF-antagonists (WEB-2086 and TCV-309) gave effects only at very high concentrations. The U-343 MGa cell line was also exposed to CV-6209 when growing as multicellular spheroids. The studies on the spheroid cultures also demonstrated good antitumoral effects with decreases of both the volume growth and the thymidine uptake. The simultaneous administration of (R)PAF reversed the inhibitory effect of CV-6209 on thymidine incorporation. This study demonstrates a strong antitumoral effect at low concentrations of CV-6209. The antiproliferative effects were probably primarily related to the ether-lipid structure and not to the PAF-antagonistic properties. The good antitumoral effect of CV-6209 on both monolayer and spheroid cultures and the possible PAF-antagonistic properties are discussed.     

Neuronal inhibition of astroglial cell proliferation is membrane mediated

Previously we have used a microwell tissue culture assay to show that early postnatal mouse cerebellar astroglia have a flattened morphology and proliferate rapidly when they are cultured in the absence of neurons, but develop specific cell-cell contacts and undergo morphological differentiation when they are co-cultured with purified granule neurons (Hatten, M. E., 1985, J. Cell Biol., 100:384-396). In these studies of cell binding between neurons and astroglia, measurement with light and fluorescence microscopy or with [35S]methionine-labeled cells indicated that the kinetics of the binding of the neurons to astroglial cells are rapid, occurring within 10 min of the addition of the neurons to the growing glia. 6 h after neuronal attachment, astroglial DNA synthesis decreases, as shown by a two- to fivefold decrease in [3H]thymidine incorporation, and glial growth ceases. No effects on astroglial cell growth were seen after adding medium conditioned by purified cerebellar neurons cultured in the absence of astroglia, by astroglia cultured in the absence of neurons, or by a mixed population of cerebellar cells. This result was unchanged when any of these media were concentrated up to 50-fold, or when neurons and astroglia were cultured in separate chambers with confluent medium. Two groups of experiments suggest that membrane-membrane interactions between granule neurons and astroglia control astroglial cell growth. First, neurons fixed with dilute amounts of paraformaldehyde (0.5%) bound to the astroglia with the same kinetics as did living cells, inhibited DNA synthesis, and arrested glial growth within hours. Second, a cell membrane preparation of highly purified granule neurons also bound rapidly to the glia, decreased [3H]thymidine incorporation two- to fivefold and inhibited astroglial cell growth. The rate of the decrease in glial growth depended on the concentration of the granule neural membrane preparation added. A similar membrane preparation from purified cerebellar astroglial cells, PC12 cells, 3T3 mouse fibroblasts, or PTK rat epithelial cells did not decrease astroglial cell growth rates. Living neurons were the only preparation that both inhibited glial DNA synthesis and induced the astroglial cells to transform from the flat, epithelial shapes they have when they are cultured without neurons to highly differentiated forms that resemble Bergmann glia or astrocytes seen in vivo. These results suggest that membrane-membrane interactions between neurons and astroglia inhibit astroglial proliferation in vitro, and raise the possibility that membrane elements involved in glial growth regulation include neuron-glial interaction molecules.     

Differentiated properties characteristic of renal proximal epithelium in a cell line derived from a normal monkey kidney (JTC-12)

Summary The JTC-12 cell, an established cell line derived from a normal monkey kidney, was studied in an attempt to characterize the epithelial qualities. Phase contrast microscopy showed dome formation in confluent monolayers and electron microscopic examinations revealed the presence of numerous microvilli on the apical membranes and desmosome between cells. Sonicated cells showed activities of γ-glutamyl transpeptidase, leucine aminopeptidase, alkaline phosphatase, and trehalase, marker enzymes of renal proximal epithelium. Alkaline phosphatase activity exhibited the characteristics of a renal type isozyme. Furthermore, confluent JTC-12 monolayers exhibited Na⁺-dependent transport of hexose, amino acid as well as inorganic phosphate. These findings indicate that JTC-12 cells in monolayer culture maintain ultrastructural, biochemical, and physiological properties of renal proximal epithelial cells. This cell line will be useful for further studies on cellular functions of renal proximal epithelium. This work was supported in part by grants from The Ministry of Health and Welfare of Japan and from the Ministry of Education, Science and Culture of Japan.     

Endothelial cell confluence regulates cyclooxygenase-2 and prostaglandin E2 production that modulate motility

Endothelial cells line the vasculature and, after mechanical denudation during invasive procedures or cellular loss from natural causes, migrate to reestablish a confluent monolayer. We find confluent monolayers of human umbilical vein endothelial cells were quiescent and expressed low levels of cyclooxygenase-2, but expressed cyclooxygenase-2 at levels comparable with cytokine-stimulated cells when present in a subconfluent culture. Mechanically wounding endothelial cell monolayers stimulated rapid cyclooxygenase-2 expression that increased with the level of wounding. Cyclooxygenase-2 re-expression occurred throughout the culture, suggesting signaling from cells proximal to the wound to distal cells. Media from wounded monolayers stimulated cyclooxygenase-2 expression in confluent monolayers, which correlated with the level of wounding of the donor monolayer. Wounded monolayers and cells in subconfluent cultures secreted enhanced levels of prostaglandin (PG) E(2) that depended on cyclooxygenase-2 activity, and PGE(2) stimulated cyclooxygenase-2 expression in confluent endothelial cell monolayers. Cells from subconfluent monolayers migrated through filters more readily than those from confluent monolayers, and the cyclooxygenase-2-selective inhibitor NS-398 suppressed migration. Adding PGE(2) to NS-398-treated cells augmented migration. Endothelial cells also migrated into mechanically denuded areas of confluent monolayers, and this too was suppressed by NS-398. We conclude that endothelial cells not in contact with neighboring cells express cyclooxygenase-2 that results in enhanced release of PGE(2), and that this autocrine and paracrine loop enhances endothelial cell migration to cover denuded areas of the endothelium.     

Evidence that hepatocyte growth factor abrogates contact inhibition of mitosis in Madin-Darby canine kidney cell monolayers.

It is becoming increasingly apparent that hepatocyte growth factor (HGF) plays an important role in kidney development, regeneration, and transformation to carcinoma. Previous in vitro studies have shown that HGF stimulates cell scattering, but not proliferation, in the renal epithelial cell line Madin-Darby canine kidney (MDCK) when grown on plastic at low density. This communication demonstrates that HGF treatment of confluent monolayers of MDCK also stimulates DNA synthesis and cell division. HGF stimulated thymidine incorporation in confluent MDCK cell monolayers grown on plastic in a dose dependent fashion, but did not stimulate thymidine incorporation in MDCK cells at 10-20% confluency on plastic. Additionally, basolaterally, but not apically, applied HGF stimulated thymidine incorporation in confluent MDCK cell monolayers grown on filters. Immunofluorescent labeling of nuclei in control and HGF treated MDCK cell monolayers grown on filters demonstrated an increase in mitotic figures. Confocal X-Z section views and direct cell counts of MDCK cell monolayers grown on filters demonstrated an increase in cell number after HGF treatment compared to controls. This is the first report of HGF stimulating cell proliferation in previously quiescent renal epithelial cell monolayers. This model will be useful for studying the mechanisms controlling cell proliferation rates in epithelial tissue.     

Control of cell division in hepatoma cells by exogenous heparan sulfate proteoglycan

The effects of cell surface heparan sulfate proteoglycan (HSPG) prepared from log and confluent monolayers of a rat hepatoma cell line on hepatoma cell growth were studied. When HSPG isolated from confluent cells was added exogenously to log phase cells, it was internalized and free heparan sulfate (HS) chains appeared transiently in the nucleus. Concurrently, the growth of the treated cells was inhibited, but the cells resumed logarithmic growth as the level of nuclear HS fell, and the cells grew to confluence and became contact inhibited. When HSPG prepared from log-phase hepatoma cells was added exogenously to log phase cells, it was internalized but very little of the internalized HS appeared in the nucleus, and there was no change in the rate of cell growth. However, when the rate of cell growth was reduced by culture of the cells in serum- and insulin-deficient medium, HSPG prepared from log-phase cells stimulated the growth rate of these slow-growing cells. The cell cycle dependency of HSPG uptake and growth inhibition was studied in cultures synchronized by a thymidine/aphidicolin double block. When [35SO4]HSPG from confluent cells was added to synchronized cells just as they were released from the second block, a portion of the [35SO4]HSPG was internalized and [35SO4]HS appeared in the nucleus. However, at mitosis the [35SO4]HS disappeared almost completely from all of the cellular pools, and after mitosis, more of the [35SO4]HSPG was taken up and [35SO4]HS reappeared in the nucleus and remained in the nucleus until the cells divided again. When cultures were released from the aphidicolin block, both control and HSPG-treated cells progressed through the S, the G2, and the M phases of the cell cycle. However, the length of the G1 phase of the cycle was increased in the HSPG-treated cells. The treated cultures then progressed through the second S, G2, and M phases. Thus, the inhibition of cell division occurred in the G1 phase of the cell cycle, prior to the G1/S boundary. Addition of the HSPG to the synchronized cultures just after the first mitosis resulted in an immediate arrest of the cell cycle in G1.(ABSTRACT TRUNCATED AT 400 WORDS)     

Retraction of cultured endothelial cell monolayer by human breast cancer cells, MCF-7.

A human breast cancer cell line (MCF-7), when sealed on confluent bovine pulmonary aortic endothelial cell (CPAE) monolayers, induced morphological changes (retraction) in CPAE cells. The area of retraction depended on the incubation time and the number of MCF-7 cells, suggesting that MCF-7 cells had the capacity to retract CPAE cells. This capacity was reduced by 60% by pretreatment of MCF-7 cells with 17β-estradiol (E) and progesterone (Pg). The extent of retraction was not affected by the addition of various protease inhibitors. CPAE retraction was induced also by adding conditioned medium (CM) from the culture of MCF-7 cells. Considerably less activity was detected in the CM obtained from MCF-7 cells cultured in the presence of E and Pg. The retraction was reversed in 24 h by culturing the monolayer in fresh medium without CM and was not induced by trypsin treatment of the CM.     

Generation of a radial-like glial cell line

Rat C6 glioma is a cell line that has been used extensively as a model of astroglia. Although this cell line retains many of the properties of developing glia, it does not resemble morphologically the specialized form of glia found embryonically, the radial glia. In experiments designed to study a mutant form of receptor protein tyrosine phosphatase β, we isolated a subclone of C6 called C6-R which, like radial glia, assumes a highly polarized radial-like morphology in culture. C6-R cells and, to a somewhat lesser extent, C6 cells, express cytoskeletal proteins found in developing astroglia including glial fibrillary acidic protein and RC1. As seen with radial glia, cerebellar granule cell bodies and neurites migrated along radial processes of C6-R cells in culture. Morphological analysis of dye-labeled cells injected into the developing forebrain revealed that a large fraction (∼60%) of the C6-R cells in the cortex assumed a radial orientation and about half of these (∼30%) made contact with the pial surface. In contrast, the parental C6 cells generally formed aggregates and only displayed a radial alignment when associated with blood vessels. These results suggest that we have generated a stable cell line from C6 glioma which has adopted certain key features of radial glia, including the ability to promote neuronal migration in culture and integrate radially in vivo in response to local cues. This cell line may be particularly useful for studying receptors on radial glia that mediate neuronal migration. © 1998 John Wiley & Sons, Inc. J Neurobiol 37: 291–304, 1998     

Preliminary Characterization of Glial-Secreted Factors Responsible for the Induction of High Electrical Resistances Across Endothelial Monolayers in a Blood-Brain Barrier Model

Factors secreted by C6 glioma cells which induce electrical resistances across endothelial monolayers in an in vitro blood-brain barrier model have been partially characterised for the first time. These transendothelial electrical resistances (TEERs) were only evident when cell-free conditioned medium derived from C6 glioma cells was applied to the basolateral surfaces of confluent ECV304 or ECV304-9 cells which are both human umbilical vein endothelial cell lines (HUVEC). Electrical resistance values as high as 600 ohm. sq cm were obtained with this blood-brain barrier model and ultrafiltration techniques suggest that any factor(s) in the conditioned medium responsible for these TEERs have molecular masses of less than 1000 Da. Enzymic proteolysis and heat treatment carried out on the conditioned medium failed to inhibit its effect on the HUVEC monolayers suggesting that these C6 cell-secreted factors are unlikely to be proteins.     

Cultured endothelial cells produce heparinlike inhibitor of smooth muscle cell growth

Using cultured cells from bovine and rat aortas, we have examined the possibility that endothelial cells might regulate the growth of vascular smooth muscle cells. Conditioned medium from confluent bovine aortic endothelial cells inhibited the proliferation of growth-arrested smooth muscle cells. Conditioned medium from exponential endothelial cells, and from exponential or confluent smooth muscle cells and fibroblasts, did not inhibit smooth muscle cell growth. Conditioned medium from confluent endothelial cells did not inhibit the growth of endothelial cells or fibroblasts. In addition to the apparent specificity of both the producer and target cell, the inhibitory activity was heat stable and not affected by proteases. It was sensitive flavobacterium heparinase but not to hyaluronidase or chondroitin sulfate ABC lyase. It thus appears to be a heparinlike substance. Two other lines of evidence support this conclusion. First, a crude isolate of glycosaminoglycans (TCA-soluble, ethanol-precipitable material) from endothelial cell-conditioned medium reconstituted in 20 percent serum inhibited smooth muscle cell growth; glycosaminoglycans isolated from unconditioned medium (i.e., 0.4 percent serum) had no effect on smooth muscle cell growth. No inhibition was seen if the glycosaminoglycan preparation was treated with heparinase. Second, exogenous heparin, heparin sulfate, chondroitin sulfate B (dermatan sulfate), chondroitin sulfate ABC, and hyaluronic acid were added to 20 percent serum and tested for their ability to inhibit smooth muscle cell growth. Heparin inhibited growth at concentrations as low as 10 ng/ml. Other glycosaminoglycans had no effect at doses up to 10 μg/ml. Anticoagulant and non- anticoagulant heparin were equally effective at inhibiting smooth muscle cell growth, as they were in vivo following endothelial injury (Clowes and Karnovsk. Nature (Lond.). 265:625-626, 1977; Guyton et al. Circ. Res. 46:625-634, 1980), and in vitro following exposure of smooth muscle cells to platelet extract (Hoover et al. Circ. Res. 47:578-583, 1980). We suggest that vascular endothelial cells may secrete a heparinlike substance in vivo which may regulate the growth of underlying smooth muscle cells.     

A new stable epithelial cell line (RK-L) from normal rat kidney

Summary A stable epithelial cell line has been established from the kidneys of a normal Sprague-Dawley rat. This line, termed RK-L, has a high proliferative capacity (minimal doubling time 12.3 h) and can be grown in medium containing 1% fetal bovine serum. Thus far, the line has been carried through more than 60 serial passages. The RK-L cells were found to display similarities with kidney tubule cells. Using light microscopy, confluent cultures were seen as pavement-like monolayers forming domes, which are thought to result from transepithelial fluid transport. Electron microscopy revealed polarized cells that had microvilli on the apical surface, junction complexes in the apical part of the lateral cell membrane, and a basal lamina-like layer. Pinocytotic activity was indicated by infoldings of the apical plasma membrane and the formation of vesicles. The RK-L line should prove useful for investigations of kidney tubule transport mechanisms.     

The molecular organization of endothelial cell to cell junctions: differential association of plakoglobin, beta-catenin, and alpha- catenin with vascular endothelial cadherin (VE-cadherin)

In this paper we report that the assembly of interendothelial junctions containing the cell type-specific vascular endothelial cadherin (VE- cadherin or cadherin-5) is a dynamic process which is affected by the functional state of the cells. Immunofluorescence double labeling of endothelial cells (EC) cultures indicated that VE-cadherin, alpha- catenin, and beta-catenin colocalized in areas of cell to cell contact both in sparse and confluent EC monolayers. In contrast, plakoglobin became associated with cell-cell junctions only in tightly confluent cells concomitantly with an increase in its protein and mRNA levels. Furthermore, the amount of plakoglobin coimmunoprecipitated with VE- cadherin, increased in closely packed monolayers. Artificial wounding of confluent EC monolayers resulted in a major reorganization of VE- cadherin, alpha-catenin, beta-catenin, and plakoglobin. All these proteins decreased in intensity at the boundaries of EC migrating into the lesion. In contrast, EC located immediately behind the migrating front retained junctional VE-cadherin, alpha-catenin, and beta-catenin while plakoglobin was absent from these sites. In line with this observation, the amount of plakoglobin coimmunoprecipitated with VE- cadherin decreased in migrating EC. These data suggest that VE- cadherin, alpha-catenin, and beta-catenin are already associated with each other at early stages of intercellular adhesion and become readily organized at nascant cell contacts. Plakoglobin, on the other hand, associates with junctions only when cells approach confluence. When cells migrate, this order is reversed, namely, plakoglobin dissociates first and, then, VE-cadherin, alpha-catenin, and beta-catenin disassemble from the junctions. The late association of plakoglobin with junctions suggests that while VE-cadherin/alpha-catenin/beta- catenin complex can function as an early recognition mechanism between EC, the formation of mature, cytoskeleton-bound junctions requires plakoglobin synthesis and organization.     

Role of substrata in determining the growth topology of transformed and nontransformed cells in culture

Cylindrical DEAE cellulose anion exchangers (DE-53), generally used for chromatography, were found suitable as a substratum for cultivating cells. Embryonic avian and mammalian cells cultured on DE-53 microcarriers (MC) grow in multilayers, while the same embryonic cells when transformed by avian sarcoma virus (ASV) grow in monolayers. These patterns of cell growth differ from those of normal and transformed cells grown on conventional glass or plastic Petri dishes, or on beaded MC.Cells derived from established cell lines such as BHK, HeLa, L-929, MDCK, and VERO grow in monolayer on these MC. A human adenocarcinoma cell line is the only exception growing in a multilayer form. These results indicate that the ability of cultured cells to grow in multilayers, is determined not only by their state of transformation but also by the properties of the support on which they are cultured.     

Establishment and characterization of a nerve cell line (NC-HIMT) from HIMT cells derived from a human ovarian immature teratoma with special reference to the induction of neuron differentiation by retinoic acid

A nerve cell line designated NC-HIMT was established from a HIMT cell line derived from a benign ovarian, three germ layer immature teratoma removed from a 21-year-old Japanese female. The HIMT cells were elongated, ellipsoid or spherical in shape, whose karyotype was on the high side of normal diploidy. Small amounts of retinoic acid enhanced differentiation and maturation of the HIMT cells into nervous tissue, and the NC-HIMT cell line was established by the colony isolating technique when the HIMT cell line was cultured in the presence of retinoic acid-supplemented medium. After establishment, the NC-HIMT cell line was cultured and maintained in retinoic acid-free growth medium. Even though these cells were cultured without retinoic acid, the phenotype of nerve cells remained and the cells were also maintained in a state of high normal diploidy. The nerve cells contacted each other with their long cell projections and formed networks. Immunocytochemical observations using anti-bovine NSE, α-internexin, neurofilament 200kD, peripherin and GFAP confirmed that the cells were either nerve cells or glia cells. These results assume that HIMT cells, which were derived from an immature teratoma. have progenitor and/or stem cells which can differentiate into nerve and/or glial cells.     

Establishment and characterization of a nerve cell line (NC-HIMT) from HIMT cells derived from a human ovarian immature teratoma with special reference to the induction of neuron differentiation by retinoic acid

A nerve cell line designated NC-HIMT was established from a HIMT cell line derived from a benign ovarian, three germ layer immature teratoma removed from a 21-year-old Japanese female. The HIMT cells were elongated, ellipsoid or spherical in shape, whose karyotype was on the high side of normal diploidy. Small amounts of retinoic acid enhanced differentiation and maturation of the HIMT cells into nervous tissue, and the NC-HIMT cell line was established by the colony isolating technique when the HIMT cell line was cultured in the presence of retinoic acid-supplemented medium. After establishment, the NC-HIMT cell line was cultured and maintained in retinoic acid-free growth medium. Even though these cells were cultured without retinoic acid, the phenotype of nerve cells remained and the cells were also maintained in a state of high normal diploidy. The nerve cells contacted each other with their long cell projections and formed networks. Immunocytochemical observations using anti-bovine NSE, alpha-internexin, neurofilament 200kD, peripherin and GFAP confirmed that the cells were either nerve cells or glia cells. These results assume that HIMT cells, which were derived from an immature teratoma, have progenitor and/or stem cells which can differentiate into nerve and/or glial cells.     

Epithelial cell polarity alters Rho-GTPase responses to Pseudomonas aeruginosa

Pseudomonas aeruginosa is an opportunistic human pathogen that preferentially infects damaged epithelial tissues. Previous studies have failed to distinguish whether the increased susceptibility of injured epithelium results from the loss of cell polarity or increased access to the basolateral surface. We have used confluent monolayers of Madin-Darby canine kidney (MDCK) cells cultured on porous filter supports for 1-3 d as a model system to investigate whether the differentiation state of a polarized model epithelium affected the response of epithelial cells to this pathogen. Confluent incompletely polarized MDCK cell monolayers (day 1) efficiently internalized apically applied P. aeruginosa via a pathway that required actin polymerization and activation of Rho-family GTPases and was accompanied by an increase in the amount of activated RhoA. In contrast, P. aeruginosa entry into highly polarized MDCK monolayers (day 3) was 10- to 100-fold less efficient and was insensitive to inhibitors of actin polymerization or of Rho-family GTPase activation. There was no activation of RhoA; instead, Cdc42-GTP levels increased significantly. Basolateral infection of highly polarized MDCK monolayers was less efficient and insensitive to Clostridium difficile Toxin B, whereas basolateral infection of incompletely polarized MDCK monolayers was more efficient and required activation of Rho-family GTPases. Together, our findings suggest that as epithelial barrier differentiates and becomes highly polarized, it becomes resistant to P. aeruginosa infection. Nevertheless, polarized epithelial cells still sense the presence of apically infecting P. aeruginosa, but they may do so through a different group of surface proteins and/or downstream signaling pathways than do incompletely polarized cells.     

Differential cell behaviour on polylysine and gelatin in primary culture of mouse mammary adenocarcinoma.

Cells dissociated from spontaneous and transplanted tumours of C3HJax mammary gland have been cultured on polylysine and gelatin substrates. The isolated cells proliferated to form monolayers with high degree of organoid structure as indicated by formation of alveolar cavities. Differences were observed in the cell attachment, growth pattern, number and size of alveolar cavities, cells which lined the cavity and cell morphology on polylysine and gelatin substrates as compared to conventional cell culture plastic surface. On polylysine more than 90% cells attached rapidly, within 15-45 min after plating, with or without serum and formed confluent monolayers marked by presence of large and small alveolar cavities. Multiple interacting cell types took part in organization of the cavity. Cells lining the cavity constantly proliferated and rearranged to expand it. On gelatin, 60-70% cells attached over a period of 6-24 hr in presence of serum and formed confluent monolayers dominated by small alveolar cavities. Cells forming the cavities were epithelial in nature and cavities once formed did not increase in size. Upon subculture, the cell morphology on these substrates was strikingly different. On polylysine, the predominant cell type had numerous irregular microvilli whereas on gelatin, cells had smoother boundaries with a few stunted cytoplasmic extensions. The cell attachment on conventional surface was low, 40-50%. When seeded at high cell density, formation of alveolar cavities was suppressed and at low cell density, cultures were marked by contact inhibition of cells and failure to attain confluence. These results suggest differential behaviour and interaction of mammary tumour epithelium with the substrates used.     

Probe for polyanionic regions on the cell surface

Summary The binding of polyuridylate to cells in the presence of proflavine may be used as a probe to provide relative estimates of exposed polyanionic regions on the external surface of the cell. This probe binds preferably to hydrophilic, polyanionic regions, and soluble polysaccharides containing either carboxylate or sulfate groups compete with the binding of this probe. Binding of the probe to protein and lipid regions is considerably weaker. Virustransformed human fibroblasts bind 10 times less of the probe than nontransformed cells when confluent monolayers are compared. However, as the cell density is decreased, the amount of probe bound per cell increases dramatically both for transformed as well as for normal cells. In fact, human fibroblasts (a) derived from normal donors, (b) from donors with different metabolic disorders, and (c) transformed by simian virus 40, all bind about the same amount of probe when compared at the same density. Populations of human fibroblasts aged in vitro, which contain high proportions of large cells and grow only to relatively low densities in monolayers, bind disproportionately large amounts of the complex.     

Modulation of ion conductance and active transport by TGF-beta 1 in alveolar epithelial cell monolayers

Transforming growth factor-beta1 (TGF-beta 1) may be a critical mediator of lung injury and subsequent remodeling during recovery. We evaluated the effects of TGF-beta 1 on the permeability and active ion transport properties of alveolar epithelial cell monolayers. Rat alveolar type II cells plated on polycarbonate filters in defined serum-free medium form confluent monolayers and acquire the phenotypic characteristics of alveolar type I cells. Exposure to TGF-beta 1 (0.1-100 pM) from day 0 resulted in a concentration- and time-dependent decrease in transepithelial resistance (Rt) and increase in short-circuit current (Isc). Apical amiloride or basolateral ouabain on day 6 inhibited Isc by 80 and 100%, respectively. Concurrent increases in expression of Na+-K+-ATPase alpha 1- and beta 1-subunits were observed in TGF-beta 1-treated monolayers. No change in the alpha-subunit of the rat epithelial sodium channel (alpha-rENaC) was seen. Exposure of confluent monolayers to TGF-beta 1 from day 4 resulted in an initial decrease in Rt within 6 h, followed by an increase in Isc over 72-96 h. These results demonstrate that TGF-beta 1 modulates ion conductance and active transport characteristics of the alveolar epithelium, associated with increased Na+-K+-ATPase, but without a change in alpha-rENaC.     

Paracellular transport of insulin-like growth factor-I (IGF-I) across human umbilical vein endothelial cell monolayers

Insulin-like growth factors (IGFs) are well defined mitogens and growth promoters, which are found in blood associated with high affinity IGF binding proteins (IGFBPs). In vivo, the endothelium is potentially the primary site of uptake of IGFs or IGF-IGFBP complexes from blood for transport to the extravascular space. However, the pathway and mechanisms by which IGFs cross the endothelial cell barrier are not known. The presence of high affinity receptors for IGF-I and IGF-II on human umbilical vein endothelial (HUVE) cells was demonstrated by (i) radio-receptor assays using both IGF-I and IGF-II and (ii) affinity label cross-linking studies. In addition, Western ligand blotting and immunoblotting revealed that IGFBP-2, -3, and -4 are secreted into serum-free media conditioned by confluent HUVE cell monolayers. To study transendothelial migration of IGF-I, HUVE cells were grown on microporous membranes in a bichamber system. When compared with membranes without cells, HUVE monolayers restricted the passage of ¹²⁵I-IGF-I and [³H]inulin, whereas the control Madin Darby canine kidney (MDCK) cell line virtually excluded all passage of these molecules. Transport of ¹²⁵I-IGF-I across HUVE cell monolayers was not significantly different to that of [³H]inulin, a paracellular probe. Moreover, ¹²⁵I-IGF-I transport was not inhibited by either excess unlabelled IGF-I or a monoclonal antibody to the type I IGF receptor at a concentration shown to inhibit ¹²⁵I-IGF-I binding to HUVE cell monolayers. Our findings show that the movement of free IGF-I across HUVE cell monolayers occurs via a paracellular route and not by a receptor-mediated, transcellular pathway. J. Cell. Physiol. 170:290–298, 1997. © 1997 Wiley-Liss, Inc.