Proliferative variability of endothelial clones derived from adult bovine aorta: influence of fibroblast growth factor and smooth muscle cell extracellular matrix

Cytokeratin-positive and cytokeratin-negative cultured endothelial cells from bovine aorta and vena cava

The heterogeneous morphology of microvascular endothelial cells obtained from the bovine corpus luteum was recently attributed to the occurrence of cytokeratin (CK) positive and CK negative endothelial cells. The aim of the present study was to establish comparable differences for bovine macrovascular endothelial cells. For this reason, endothelial cells were scraped from the abdominal aorta as well as the inferior vena cava of cows. At the level of phase contrast microscopy, primary cultures originating from both large vessels could be classified as CK positive or CK negative endothelial cells. After seeding CK positive endothelial cells on Matrigel matrix, a two-dimensional meshwork of so called pseudotubules formed within 2 h. By using immunofluorescence localization CK positive cells were identified by a complex meshwork. It consisted of CK 8, 18 and 19 as displayed by Western blots. The CK negative group showed spindle-shaped or polygonal endothelial cells according to light microscopy. In postconfluent cultures, spindle-shaped cells developed a three-dimensional meshwork of tubules. After seeding spindle-shaped cells on Vitrogen 100 matrix, pseudotubules formed within 1 day. In considering the frequency of occurrence, primary harvests from the vena cava contained less than 1% CK positive cells. With respect to growth, the cell number was two to three times higher for the CK negative group than the CK positive group as judged on day 13 after cell seeding. It is concluded that subpopulations of endothelial cells are derived from large blood vessels.

Basic fibroblast growth factor in the extracellular matrix suppresses collagen synthesis and type III procollagen mRNA levels in arterial smooth muscle cell cultures

To determine the effects of an intact extracellular matrix on collagen synthesis, arterial smooth muscle cells (SMCs) were plated sparsely on a cell-free, SMC-derived matrix and examined the following day. Collagen synthesis during a 5-hour incubation by cells on the matrix was reduced to 67% of the control values obtained from cultures on plastic. Total protein synthesis was unaffected. Treatment of the matrix with heparitinase to remove basic fibroblast growth factor (bFGF) before seeding the SMCs abolished the inhibitory effect of the matrix on collagen synthesis. The inhibitory effect was also eliminated by treating the matrix with a neutralizing polyclonal antibody directed against bFGF. Collagen synthesis by SMC cultures grown in wells coated with purified bFGF was only 61% that of control cultures, whereas total protein synthesis remained unchanged. Slot-blot analysis revealed that the relative message level for alpha 1(III) procollagen was reduced in cultures grown on the preexisting matrix or on plastic precoated with bFGF, whereas the alpha 1(I) procollagen message was unaffected. These results demonstrate the ability of the extracellular matrix to modulate the synthesis of collagen by arterial SMCs and indicate that bFGF in the matrix is responsible for these effects.

Quantitative determination of natriuretic peptides in human biological samples with a bioassay using cultured cells

Up to now, members of the natriuretic peptide family have usually been determined by radioimmunoassays using antibodies more or less specific for the distinct peptides so far identified. However, natriuretic peptides differing significantly in their amino acid sequence from the one against which the antibody has been raised cannot be determined by this means, and still unknown natriuretic peptides cannot be detected. We therefore developed a new bioassay system sensitive to all members of the natriuretic peptide family by taking advantage of the biological activity of these hormones, the activation of the guanylate cyclase/cyclic GMP system. In this assay, cultured cells are incubated with the natriuretic peptides, and the amount of cyclic GMP produced by the cells is determined by radioimmunoassay. From the relative stimulation of the cellular cyclic GMP production, the concentration of natriuretic peptides in the sample is determined after calibration with synthetic atrial natriuretic peptide. For a qualitative identification of the various peptides, the bioassay is combined with a reversed-phase HPLC step. Using cultured bovine aortic endothelial or bovine kidney epithelial cells for the bioassay, we achieved detection limits of 1 fmol or 50 fmol, respectively, for human atrial as well as brain natriuretic peptide. Intra-assay coefficients of variation of 4.3% (aortic endothelial cells, at 0.65 nmol/l peptide) and 5.8% (kidney epithelial cells, at 6.5 nmol/l peptide) were obtained. The total content of natriuretic peptides as well as the amounts of the individual natriuretic peptides following HPLC separation were determined in extracts of human atria obtained at aortocoronary bypass operations.(ABSTRACT TRUNCATED AT 250 WORDS)

Organ-derived microvessel endothelial cells exhibit differential responsiveness to thrombin and other growth factors

To investigate the relationship between endothelial cells and organ-associated vascular physiology, microvascular endothelial cells were isolated from murine brain, lung, and liver tissues. During culture, these endothelial cells maintained certain differentiated characteristics common to all endothelial cells, but also showed organ-specific characteristics, with distinct patterns of responsiveness to various growth factors. Microvascular endothelial cells from all organs responded to endothelial cell growth factor (ECGF), but lung (LE-1) and brain (MBE-12) endothelial cells showed different responsiveness to thrombin (10-60 nM), combinations of thrombin and ECGF, or thrombin and extracellular matrix. Liver sinusoidal endothelial cells (HSE) were relatively unresponsive to thrombin, but were the most responsive of the endothelial cells to EGF. Endothelial cells isolated from lung and brain, where fluxes in vascular permeability are observed following injury, showed dramatic morphological alterations in response to nanomolar concentrations of thrombin. These cells also exhibited the highest amount of 125I-thrombin binding at these concentrations. Scatchard analysis of 125I-thrombin binding indicated that LE cells have the highest affinity for thrombin, followed by MBE, with HSE exhibiting significantly lower affinity. The binding of 125I-thrombin to these cells was inhibited by the TR-9 monoclonal antibody directed against fibroblast high-affinity thrombin receptors involved in thrombin-stimulated mitogenesis. The results suggest that the differences in growth stimulation observed between organ-derived endothelial cells in response to thrombin, ECGF, and EGF may relate to differential expression of receptors for these factors. These observations demonstrate yet another aspect of the functional heterogeneity of the microvascular endothelium.

Subclones of a rat parathyroid cell line (PT-r): regulation of growth and production of parathyroid hormone-related peptide (PTHRP)

Four subclones from a rat parathyroid cell line (PT-r cell) have been isolated, and morphological and functional characteristics have been examined. Subclones 1 and 2 display a polygonal shape, show growth and secretory responses to calcium (half-maximal suppressions at 1.2 and 1.7 mM, respectively), and respond to secretin with cAMP production (14.5-fold and 16.9-fold over basal) and hormone secretion (41 and 58% over basal). Subclone 4 is elongated in form and does not respond to calcium or secretin. Subclone 3 shows mixed morphology, elongated and polygonal shapes, with moderate response to calcium (half-maximal suppression at 1.7 mM) and secretin (cAMP, 3.2-fold increase and hormone secretion, 50% increase over basal). The clones were tested for content of messenger RNA (mRNA) representing parathyroid hormone (PTH) and parathyroid hormone-related peptide (PTHRP). Only PTHRP mRNA was found. The peptide released is virtually all PTHRP. PTH mRNA was not detected even with a sensitive RNA probe. The amount of mRNA for PTHRP closely paralleled the amount of PTH-like bioactivity released into the medium from each clone (144.7 +/- 12.1, 110.0 +/- 12.9, 68.0 +/- 5.6, and 39.9 +/- 2.4 pgEq of rat PTH-(-34) per 10(7) cells per 12 h in a medium with 0.7 mM ionized calcium, from subclones 1, 2, 3, and 4, respectively). Culture conditions, low-density passage (less than 1:50 split ratio) or high-density passage (greater than 1:10 split ratio), affected morphology and function of the clones 1 and 2. They became elongated and functionally dedifferentiated like subclone 4 and 3 months of high-density culture.(ABSTRACT TRUNCATED AT 250 WORDS)

Microvascular endothelial cells from human omental tissue: modified method for long-term cultivation and new aspects of characterization

A method for long-term cultivation of large amounts of human microvascular endothelial cells from the omental tissue (human omental tissue microvascular endothelial cells, HOTMECs) was devised. The method originally described by Kern, Knedler, and Eckel was modified: HOTMECs were isolated by enzymatic dissociation with collagenase. For primary cultivation and passages, HOTMECs were plated either onto fibronectin-coated petri dishes or onto a human fibroblast extracellular matrix (HFB-ECM) prepared from the same tissue. Omental tissue (10-15 g) yielded 4-8 X 10(5) HOTMECs; more than 90% of the cells adhered to precoated dishes and grew in Waymouth's culture medium supplemented with 20% heat-inactivated fetal calf serum. Confluence was reached 3-5 days after seeding with an average of 1-2 X 10(6) cells/dish. Confluent HOTMEC layers were subcultured at a split ratio of 1:3 up to 11 passages by plating the cells onto dishes coated with HFB-ECM and maintained in long-term culture for up to 3 months. The endothelial origin of these cells was demonstrated as follows. The cells in culture showed the typical "cobblestone" growth pattern and synthesized von Willebrand factor (vWF) as determined by metabolic labeling. Using an indirect immunostaining technique, the cytoplasm of the HOTMECs stained for vWF. A monoclonal antibody specific for human endothelial cells bound exclusively to the cultured cells. The expression of thrombomodulin on the surface of the cultured cells was demonstrated by the activation of protein C by thrombin. In control experiments, these features could be detected on neither fibroblasts nor mesothelial cells.

Biphasic responses, quantal signals and cellular behaviour

It is commonplace to think of thresholds in biological systems. Biphasic responses, with both thresholds and upper limits, or lintels, are also surprisingly common. In this paper we show that they are found in many systems in which an aspect of cellular behaviour is controlled by chemical signals. In some cases the biphasic response can lead to the partitioning of a tissue into regions expressing different behaviours and, therefore, in principle able to take different developmental and evolutionary paths within the same organism. Several other features are common; these include brief, all-or-nothing responses and the expression of different behaviours evoked by a signal of a single chemical species in one or more cell types, but over different concentration ranges. Such behaviour is illustrated very clearly by the differentiation of cells in the mammalian immune system as well as by developing slime mould cells, so the underlying principle is widespread. We suggest that the interaction of unitary behaviours with chemical signals showing such non-linear concentration dependences will account for the complexity of development.

Forskolin, phosphodiesterase inhibitors, and cyclic AMP analogs inhibit proliferation of cultured bovine aortic endothelial cells

The role of cyclic AMP on endothelial cell proliferation was investigated, since these cells can be exposed to high concentrations of physiological and pharmacological agents that alter cyclic AMP metabolism. Cloned bovine aortic endothelial cells were plated at 25,000 cells/35mm dish and grown for 5 days in the presence of phosphodiesterase (PDE) inhibitors, forskolin, or cyclic AMP analogs. The PDE inhibitors dipyridamole, ZK 62 711, isobutylmethylxanthine (IBMX) and theophylline inhibited cell growth in a concentration-dependent manner. Dipyridamole produced a 30% and a 50% inhibition at 5 microM and 12.5 microM, while higher concentrations were cytotoxic. At its therapeutic plasma concentration range (50-100 microM) theophylline inhibited cell proliferation by 15-25%, while IBMX and the highly specific cyclic AMP phosphodiesterase inhibitor, ZK 62 711 inhibited growth by 60-80% and 40-50%, respectively. Forskolin (5 microM) increased cyclic AMP levels and cyclic AMP-kinase activity ratios by 2.5-fold and 2-fold. In the absence of PDE inhibitors forskolin produced a 20% growth inhibition at 0.5 microM and a 60% inhibition at 10 microM. The forskolin dose-response curve was not altered by theophylline, but was shifted to the left by approximately 10-fold with dipyridamole and ZK 62 711 and 5-fold with IBMX. Forskolin (5 microM), by itself produced a 1.8-fold increase in cyclic AMP. In the presence of 5 microM theophylline, dipyridamole, IBMX, and ZK 62 711, cyclic AMP was increased by forskolin 2.0, 2.6, 3.5, and 6.6-fold, respectively. 8-Bromo cyclic AMP and dibutyryl cyclic AMP produced a 55% and 60% growth inhibition at 100 microM. The cyclic GMP analogs were less effective inhibitors of growth (15-30%). Our results demonstrate that cyclic AMP analogs and pharmacological agents that elevate intracellular cyclic AMP levels inhibit cell growth and suggest that cyclic AMP may be an important endogenous regulator of endothelial cell proliferation.

Comparison of binding and cyclic GMP accumulation by atrial natriuretic peptides in endothelial cells

Rat 125I-labeled atrial natriuretic factor (ANF (8-33)) was used to identify ANF receptors on cultured bovine aortic endothelial cells. Specific binding of 125I-ANF at 37 degrees C to confluent endothelial cells was saturable and of high affinity. Scatchard analysis of the equilibrium binding data indicated that endothelial cells contain a single class of binding sites with a Kd of 0.1 +/- 0.01 nM. This particular clone of endothelial cells had 16000 +/- 1300 receptors per cell. The order of potency for competing with 125I-ANF binding was human atrial natriuretic peptide (hANP) = atrial natriuretic factor (ANF (8-33)) greater than atriopeptin II greater than atriopeptin III greater than atriopeptin. The weakest competitor, atriopeptin I, had a K1 of 0.45 nM, which was only 6-fold higher than the K1 for hANP and ANF (8-33). ANF (8-33) and hANP in the presence of 0.5 mM isobutylmethyl-xanthine produced a 15-20-fold increase in cyclic GMP content at 10 pM and a maximal 500-fold elevation of cyclic GMP at 10 nM. The concentrations required to elicit a half-maximal increase in cyclic GMP for hANP, ANF (8-33), atriopeptin I, atriopeptin II and atriopeptin III were 0.30, 0.35, greater than 500, 4.0 and 5.0 nM, respectively. Although atriopeptin I acted as a partial agonist, it was unable to antagonize the effect of ANF (8-33) on cyclic GMP formation. These findings suggest that endothelial cells have multiple and functionally distinct ANF-binding sites.

Bovine coronary artery endothelium: in vitro culture and production of plasminogen activator

A new method for isolation and culture of endothelial cells from bovine coronary artery (BCoAEC) is presented. This method involves in situ perfusion and digestion of main coronary arteries with a collagenase solution. The isolated cells were cultured and maintained through many cell passages in Dulbecco's Modified Eagle's Medium supplemented with fetal bovine serum derived from either whole blood or plasma. Confirmation of these cells' endothelial origin was obtained by demonstration of typical morphologic and growth characteristics of endothelium, immunofluorescent staining with antibodies to von Willebrand factor (Factor VIII: vWF), and measurement of plasminogen activator (PA). In addition, production of PA was inhibited by enzymatically active thrombin as has been previously described with bovine aortic endothelial cells in culture.

Glucocorticoid inhibition of vascular smooth muscle cell proliferation: influence of homologous extracellular matrix and serum mitogens

We examined the influence of glucocorticoid hormones on the proliferation of cultured adult bovine aortic smooth muscle cells (BASM) using both primary mass cultures and a cloned strain. Cloned BASM cells maintained on plastic culture dishes were inhibited by approximately 40% by dexamethasone treatment but showed no inhibition when grown of homologous extracellular matrix (ECM) coated dishes. Dexamethasone inhibited growth of primary cultures by 73% on plastic and by 45% on ECM. The inhibitory effect was specific for the glucocorticoids, dexamethasone, corticosterone, and cortisol and was not observed with progesterone, aldosterone, estradiol or 17-alpha OH progesterone. In cloned cells, the abolition of glucocorticoid inhibition by ECM was independent of seeding density and serum concentration. The inhibition on plastic was dependent on serum concentrations greater than 1% and resulted in both a slow rate of proliferation and a lower saturation density. A specific subset of peptides detected on two-dimensional gels was induced by glucocorticoids under growth inhibitory conditions but was not induced when the cells were grown on ECM. Primary cultures grown on ECM and exposed to Dulbecco's modified Eagle's Medium (DME) containing high density lipoprotein and transferrin grew at 40% of the rate observed for cultures exposed to DME with 10% serum. Both conditions showed growth inhibition of 70% in the presence of dexamethasone. The addition of epidermal and platelet-derived growth factors in DME containing high density lipoprotein and transferrin to cells grown on ECM resulted in growth rates comparable to that observed with cultures exposed to 10% serum and were inhibited 45% by dexamethasone. These results suggest that glucocorticoids inhibit smooth muscle proliferation by decreasing the sensitivity of the cells to mitogenic stimulation by high density lipoprotein when the cells are maintained on a homologous substrate.

The synthesis of subendothelial matrix by bovine aortic endothelial cells in culture

Bovine aortic endothelial cells cultured on collagenous or plastic substrata continuously synthesize and deposit a subendothelial matrix, independently of whether the cells are in the logarithmic or the stationary phase of growth. This subendothelial matrix contains fibrillar and amorphous elements comparable with those observed in the subendothelium in vivo. Deposition of subendothelial matrix on a collagen gel substratum both started earlier and progressed at approximately double the rate than that on denatured collagen. The relative composition of the subendothelial matrix was assessed by sequential incubation with trypsin, elastase and collagenase (Jones et al., 1979). The subendothelial matrix deposited on collagen gels by early confluent cultures and late post-confluent cultures differed in their enzyme sensitivity. These age-related changes in the enzyme sensitivity of the subendothelial matrix were characteristic for each cloned cell population examined. Comparable variations in the composition of the subendothelial matrix were not observed when the cells were cultured on plastic or gelatin-coated dishes; the subendothelial matrix deposited on these two substrata contained considerably more trypsin-sensitive material and less elastase and collagenase-sensitive material than the matrix deposited on native collagen gels. Age-related changes in the enzyme sensitivity of the subendothelial matrix deposited on collagen gels was found to be a function of the time elapsed since confluence and it was not related to the time elapsed since plating or to the number of cells present.

Spreading of non-transformed and transformed cells

Mechanisms of cellular reactions responsible for the spreading of non-transformed cultured tissue cells on the surface of various substrata and relationships of these reactions to the control of cell proliferation are reviewed; the special role of the membrane-cytoskeleton interactions leading to extension and attachment of pseudopods is stressed. Transition of cells from non-transformed to transformed phenotype is characterized by decreased spreading and by decreased dependence of proliferation on spreading. Manifestations of both of these spreading-associated changes are reviewed and their possible mechanisms are discussed. It is suggested that cell transition to transformed phenotype involves shift of an equilibrium between the reactions induced by the two groups of membrane-bound ligands: those attached and those not attached to the substratum.

Tumour angiogenesis

A variety of different factors has been implicated in inducing angiogenesis. Their identity and precise mechanisms of action remain elusive. The present treatise summarises the state of our knowledge not only in relation to tumour-induced capillary growth but also for non-neoplastic situations and mechanisms.