Ras involvement in cells transformed with 2-amino-4-(5-nitro-2-furyl)thiazole (ANFT) in vitro and with N-[4-(5-nitro-2-furyl)-2-thiazoyl]formamide in vivo.

N-[4-(5-nitro-2-furyl)-2-thiazolyl]formamide (FANFT) administration to rats followed by sodium saccharin results in transitional cell carcinomas of the bladder, of which 24% harbor an activated H-ras gene. Since 2-amino-4-(5-nitro-2-furyl)thiazole (ANFT) is the mutagenic and carcinogenic metabolite of FANFT in vivo, we wished to examine ras activation in in vitro ANFT-transformed rat bladder epithelial cells as well as four cell lines established in culture from in vivo FANFT-induced rat bladder tumors. Screening by Western blotting revealed no enhanced levels of p21ras in ANFT-transformed cells nor in cells established in culture from FANFT-induced rat bladder carcinomas. Further investigations using immunohistochemical staining with a different pan-reactive p21 monoclonal antibody (Cetus Corporation) specific for this method, however, showed two groups of cells from FANFT-induced rat bladder tumors had enhanced immunoreactivity. Apart from this, p21ras expression of most of the cells groups varied little from the controls. We examined the reported hot spots (exons 1 and 2) of each of the ras genes (H-, K- and N-ras) by direct sequencing of amplified DNA. No mutations were present. We conclude, therefore, that ANFT transformation of primary rat bladder epithelial cells in vitro may not in this case be mediated by ras activation, although this is difficult to determine since others have observed that optimal culture conditions can select for certain populations of cells without ras activation.

In vitro transformation of rat bladder epithelium by 2-amino-4-(5-nitro-2-furyl)thiazole.

To establish a rat urinary bladder carcinogenesis model in vitro, primary rat bladder epithelial cells were grown in media containing 2-amino-4-(5-nitro-2-furyl)thiazole (ANFT), the water-soluble metabolite of N-[4-(5-nitro-2-furyl)-2-thiazolyl]-formamide (FANFT), for 4 weeks followed by long-term (4-7 months) exposure to control medium, sodium saccharin (NaS), or urea. Another set of cultures were exposed to ANFT, NaS and urea simultaneously. Several phenotypic changes were observed in the chemically exposed cell cultures, namely differences in cell morphology, increased growth rate and the ability to grow on plastic instead of rat-tail collagen support. All of the chemically exposed cultures were anchorage independent except one of those treated with NaS. The ANFT-treated cells followed by control medium or urea and cells treated with ANFT, NaS and urea were tumorigenic when transplanted to nude mice, whereas NaS or ANFT followed by NaS treatment were not. The tumors were carcinomas and their epithelial differentiation was verified by strong positive staining for cytokeratin. These studies demonstrate the urothelial transforming capability of ANFT in cell culture without the necessity for a long exposure to a secondary chemical.

Insulin action on activity and cell surface disposition of human HepG2 glucose transporters expressed in Chinese hamster ovary cells.

Complementary DNA encoding a facilitative glucose transporter was isolated from a human hepatoma cell line (HepG2) cDNA library and subcloned into a metal-inducible mammalian expression vector, pLEN (California Biotechnology) containing human metallothionein gene II promoter sequences. Chinese hamster ovary (CHO) cells transfected with this transporter expression vector, pLENGT, exhibited a 2-17-fold increase in immunoreactive HepG2-type glucose transporter protein, as measured by protein immunoblotting with antipeptide antibodies directed against the HepG2-type glucose transporter C-terminal domain. Expression of the human glucose transporter was verified by protein immunoblotting with a mouse polyclonal antiserum that recognizes the human but not the rodent HepG2-type transporter. 2-Deoxy-D-glucose uptake was increased 2-7-fold in transfected cell lines. Polyclonal antisera directed against purified red blood cell glucose transporter were raised in several rabbits. Antiserum from one rabbit, delta, was found to bind to the surface of intact red cells but not to inside-out red cell ghosts. Using this delta-antiserum in intact cell-binding assays, 1.6-9-fold increases in cell surface expression of the human glucose transporter were measured in CHO-K1 cell lines transfected with the transporter expression vector. Measurements of total cellular glucose transporter immunoreactive protein using anti-HepG2 transporter C-terminal peptide serum, cell surface glucose transporter protein using delta-antiserum and 2-deoxyglucose uptake revealed proportional relationships among these parameters in transfected cell lines expressing different levels of transporter protein. Insulin increased 2-deoxyglucose uptake 40% in control CHO-K1 cells and in CHO-K1 cells expressing modest levels of the human glucose transporter protein. However, stimulation of sugar-uptake by insulin was only 10% in cells overexpressing human glucose transporter protein 9-fold, and no effect of insulin on sugar uptake was detected in several cell lines expressing very high levels (12-17-fold over controls) of human HepG2 glucose transporter protein. No insulin stimulation of anti-cell surface glucose transporter antibody binding was detected in any control or transfected CHO-K1 cell lines. These data indicate that a glucose transporter protein that is insensitive to insulin in HepG2 cells is regulated by insulin when expressed at low but not at high levels in insulin-response CHO-K1 cells. Additionally, the results suggest that insulin does not increase 2-deoxyglucose uptake by increasing the number of cell surface HepG2-type glucose transporters in CHO-K1 fibroblasts.

The effect of thioglycolate on intermediate filaments and membrane translocation in rat urothelium during the expansion-contraction cycle.

The functional role of cytokeratin intermediate filaments in the translocation of asymmetric membrane plaques between cytoplasm and surface of apical urothelial cells was investigated during contraction and expansion of rat urinary bladders. A stereological investigation of electron micrographs provided estimations of surface area, volume, and number of discoidal vesicles and infoldings per unit volume of urothelial apical cell cytoplasm. Contracted and distended bladders incubated in 0.01 M sodium bicarbonate were compared to identical preparations experimentally incubated in 5 mM thioglycolic acid. The latter reagent disrupts the intermediate filament network by reducing sulfhydryl bridges. Densities of discoidal vesicles in cells contracted after incubation in thioglycolate were similar to density estimations in cells expanded under control conditions. Similarly, densities of vesicles in cells expanded after exposure to thioglycolate were comparable in number to those in normally contracted cells. Thus, membrane translocation to and from the luminal surface was blocked by thioglycolate treatment. The lack of normal membrane transfer at the luminal surface induces apical cells exposed to experimental conditions to undergo extraordinary adjustments in response to external pressures of bladder contraction and distension. During contraction, the apical-intermediate cell interface unfolded while the luminal surface ballooned out into the lumen. In distended bladders, large intercellular spaces formed between apical cells along their lateral margins. The results support a model published earlier implicating the filament network as a critical mediator of membrane translocation.

Long term growth and maintenance of stratified rat urothelium in vitro.

Culture conditions that allow long term growth and maintenance of rat urothelium have been determined using short (3 to 8 days) and long (14 to 60 days) term measurements of cell density and tritiated thymidine incorporation as indices. The basal nutrient medium utilized was a mixture of 199 plus Ham's F 12 (1:1) supplemented with insulin (1 microgram/ml) and hydrocortisone (1 microgram/ml). Long term culture of urothelium seems to require porous collagen. Porous albumin, or plastic dishes thinly coated with albumin, collagen, fibronectin or mixtures thereof, did not support long term maintenance. Serum was required at a concentration of 5%, independent of other additives. Decreasing Ca++ levels below that normally found the basal medium (approximately 1 X 10(-3] to as low as 1 X 10(-4), resulted in increased short term proliferation, but decreased long term maintenance by causing a loss of stratification of the urothelium. Even a slight increase in Ca++ concentration from 1.0 to 1.5 X 10(-3) resulted in an inhibition of proliferation and an increase in the number of large flat cells which subsequently sloughed off in sheets. The deletion of either insulin, hydrocortisone or both, inhibited growth. The addition of epidermal growth factor (EGF) or its homologue, transforming growth factor (TGF-alpha), increased cell proliferation markedly and caused a variable increase in stratification. However, epithelium induced to rapid growth and proliferation with EGF, eventually exhausted its growth potential and died. TGF-beta 1, alone or in combination with either EGF or alpha-TGF, had no additional effect upon urothelial growth. Repeated transfers of urothelium by enzymatic dissociation led to decreased growth and maintenance potential. The data indicates that long term maintenance of stratified urothelium in culture requires a porous collagen substrate and fetal bovine serum together with hormonal requirements and concentrations of Ca++ that neither greatly stimulate nor inhibit growth.

Activation of adenylate cyclase in Acanthamoeba palestinensis.

Preincubation of Acanthamoeba palestinensis homogenates in 0.25M sucrose-TM (2mM MgSO4 and 5mM Tris-HCl, pH 7.4) at 0 degree C for increasing periods of time up to 3 h, leads to a progressive increase in the activity of adenylated cyclase. In contrast, preincubation of isolated membrane fractions enriched in enzyme activity in the same medium results in no activation. However, preincubation of membrane fractions in medium containing a high density of sugars (sucrose, glucose or fructose) mimics the activation obtained with homogenates. The high density sugar activation is time and temperature dependent, and reversible upon return to a low density medium. The high osmotic pressure of the sugars utilized may be a factor, since high concentrations of the sucrose polymer, Ficoll, which has low osmotic activity, causes not activation. Soluble activators, protein synthesis and changes in cyclic nucleotide phosphodiesterase activity were all eliminated as possible effectors of the apparent activation of adenylate cyclase. In contrast to mammalian adenylate cyclase, the endoplasmic reticulum localized enzyme of Acanthamoeba is inhibited by NaF and is unaffected by GTP, adenosine, epinephrine, prostaglandin E1, propranolol, and meclofenamic acid. These data indicate that the adenylate cyclase of Acanthamoeba is structurally different from that of most mammalian cells.

Effect of ATP inhibitors on the translocation of luminal membrane between cytoplasm and cell surface of transitional epithelial cells during the expansion-contraction cycle of the rat urinary bladder.

Movement of asymmetric membrane plaques between the cytoplasm and surface of luminal urothelial cells was investigated during artificially induced contraction and expansion of untreated and ATP-depleted urinary bladders of the rat. Estimations of surface area, volume, and number of discoidal vesicles per unit volume of cytoplasm were determined by morphometric examination of electron micrographs. These values were compared in luminal cells from bladders incubated in control media or in media containing 0.15 mM 2,4-dinitrophenol and 0.02 mM sodium arsenate. The ATP inhibitors had no apparent effect upon the contraction of apical cells that had been incubated in an expanded state. In contrast, after distension of poisoned, contracted bladders, the orientation of intermediate filaments and the densities of discoidal vesicles were similar to the condition characterized by contracted cells. The results indicated that the normal reorientation of filaments, coincident with cell distension, had been suppressed by ATP inhibitors. This, in effect, impeded the filament-mediated translocation of membrane plaques to the surface. The reduction of surface area along the luminal border forced many cells to compensate by separating at their lateral margins.

Aberrant cyclic adenosine 3':5'-monophosphate metabolism in cultures of tumorigenic rat urothelium.

The cyclic adenosine 3':5'-monophosphate (cyclic AMP) metabolism of stratified normal rat urothelium propagated in vitro on a floating collagen matrix was characterized and used as a basis for identifying potential biochemical lesions in tumorigenic cell lines. The four neoplastic urothelial cell types studied (AY-27, AY-32, AY-33, and AY-34) were derived from Fischer 344 rats fed the carcinogen N-[4-(5-nitro-2-furyl)-2-thiazolyl]formamide. Epinephrine or prostaglandin E1 caused a rise in the cyclic AMP content of normal cultures which was potentiated in the presence of the cyclic nucleotide phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine or by forskolin, a diterpene activator of adenylate cyclase in intact cells. The expected, normal profile of cyclic AMP accumulation in response to beta-adrenergic receptor agonists was epinephrine greater than norepinephrine greater than phenylephrine. By every measure, the tumorigenic AY-27 cells demonstrated an overall decrease of functional adenylate cyclase activity. This was evidenced most by the low accumulation of cyclic AMP observed in response to forskolin. While prostaglandin E1 elicited a heightened cyclic AMP level in these cells, their vanishingly low response to catecholamines also suggested a potential lack of functional beta-adrenergic receptors. Cyclic AMP phosphodiesterase activity was elevated in soluble enzyme preparations obtained from cultures of AY-27 cells. Observations of AY-32 cells were diametrically opposite to the findings with AY-27 cells. In AY-32 cells, prostaglandin E1 receptors appeared to be functionally absent. The beta-adrenergic receptor agonist response profile was abnormal in AY-32 cells. Norepinephrine produced a greater accumulation of cyclic AMP than epinephrine, and phenylephrine stimulated a much greater than normal response. Forskolin stimulation indicated an average level of adenylate cyclase activity in AY-32 cultures. Soluble preparations from AY-32 cells demonstrated a normal amount of cyclic AMP phosphodiesterase activity. AY-33 cells were comparable to normal urothelial cells in all respects save one. These tumorigenic cells had elevated levels of cyclic AMP phosphodiesterase activity. AY-34 cells, like AY-32 cells, were deficient in their responsiveness to prostaglandin E1. However, unlike the other tumorigenic lines, AY-34 cells had an excess of adenylate cyclase as demonstrated by their extraordinary responsiveness to forskolin. In addition, the accumulation of cyclic AMP in AY-34 cells in response to stimulation by epinephrine and norepinephrine, but not phenylephrine, was unusually great.(ABSTRACT TRUNCATED AT 400 WORDS)

Effect of a collagen substrate on the growth and development of normal and tumorigenic rat urothelial cells.

The growth and morphology of 4 tumorigenic rat urothelial cell lines grown on collagen-coated nylon discs was characterized and compared to normal cells. In contrast to cells cultured on a plastic substrate with or without a thin "nonporous" collagen coating, tumor cells grown on porous collagen-coated nylon discs: 1) grew to greater protein densities; 2) formed tissue structures characteristic for the type of tumor they developed upon back-transplantation; and 3) could be grown and cultured indefinitely without subculturing. Thus, similarly to normal urothelial stratification and differentiation in vitro, tumorigenic cells apparently require a "porous" collagen substrate to allow differentiation analogous to that observed in vivo.

The relationship of microvesicles to the plasmalemma of rat adipocytes.

Ruthenium red binding demonstrates that the extensive microvesicle system of isolated rat adipocytes is, for the most part, open to and continuous with the plasmalemma proper. Morphometric estimates indicate that insulin treatment has no effect on the relationship between microvesicles and the cell surface. Neither does insulin affect the apparent lack of pinocytotic activity of these vesicles as judged by a time course analysis of cells incubated with horseradish peroxidase, which is bound to the membrane of the vesicles, but is not internalized. Insulin does produce a small but repeatable and measurable increase in average diameter of the microvesicles from 73 to 78 nm. Unlike the positively charged ruthenium red, which binds to both plasmalemmal as well as microvesicular surfaces, cationic ferritin did not readily bind to microvesicle membranes, a result indicating some distinction between the two membrane surfaces. The implications of the lack of dramatic visible morphological effects of insulin upon the adipocyte plasmalemma and it's associated microvesicles are discussed in light of the proposed role of insulin as a mediater of translocation of membrane-associated transporters to and from the cytoplasm.

The growth and differentiation of transitional epithelium in vitro.

The development of rat transitional epithelial cells grown on conventional non-permeable surfaces was compared with development on permeable collagen supports. On glass or plastic surfaces, cells grew as expanding nomolayer sheets. Once confluent, growth continued with a bilayer being formed in most areas and apical cells being continuously sloughed off. Although most cells were interconnected by desmosomes, and junctional complexes were formed, no other indications of differentiation were observed. After 2-3 wk of growth, division stopped and cel death ensued. In contrast, single-cell suspensions plated on collagen-coated nylon disks reassociated into multicellular islands and commenced growth. Mitoses were confined to the basal cells in contact with the permeable substrate. The islands developed into epithelial trilayers, tapering to monolayers along spreading edges. Once the islands were confluent, stratification was completed and appeared similar to that observed in vivo. Germinal cells formed a basal lamina, and the upper layer was composed of large, flattened cells with an unusually thick asymmetrical plasma membrane on the apical surface. Electron microscopic and radioactive tracers demonstrated "leaky" zonulae occludentes with a restricted permeability to small molecules. The movement of urea was retarded in comparison to water. Unlike the slow turnover of adult epithelium in vivo, maturation and sloughing of apical cells were measurable. Transfer of cells could be effected and growth maintained for up to 4 mo. These results may indicate the necessity of a nutrient-permeable growth surface for the polarized differentiation of adult transitional epithelium.

Prolonged prostaglandin E1 stimulation of cyclic AMP production in transformed and normal WI-38 fibroblasts.

Long-term (48-hr) incubations of either the fibroblast strain WI-38 or its SV40-transformed counterpart, WI-38-VA13-2RA, in growth medium containing 1 micron prostaglandin E1 (PGE1) resulted in a sustained production and release of cyclic AMP from the cells into the medium. Despite the steady production, intracellular levels of the nucleotide decreased, reaching steady-state values within 4 hr of the initial exposure to PGE1. These values were maintained for the remainder of the 48-hr experimental period. The steady-state levels of intracellular cyclic AMP were higher than those observed in unstimulated cells, and cyclic AMP-dependent protein phosphokinase was in a highly activated state as compared to controls. Under these conditions little change in the growth or morphology of either the normal or transformed cells was observed. In contrast, inhibition of growth, apparent cell death, and unusual morphological changes were observed in both normal and transformed cells when high concentrations of either PGE1 (10 micron) or the phosphodiesterase inhibitor 1-methyl, 3-isobutylxanthine (0.5 mM to 2 mM) were used, which was indicative of toxic effects of the drugs. It was concluded that cyclic AMP-mediated activation of protein phosphokinase does not completely inhibit growth in WI-38 cells or restore normal growth and morphology to the SV40-transformed cells.

Morphometric analysis of the translocation of lumenal membrane between cytoplasm and cell surface of transitional epithelial cells during the expansion-contraction cycles of mammalian urinary bladder.

The flow of membrane between the cytoplasm and the lumenal surface during the expansion-contraction cycle of urinary bladder was estimated by stereological examination of electron micrographs of urothelial cells from guinea pigs, gerbils, hamsters, rabbits, and rats. The quantitative data obtained allowed an approximation of the surface area, volume, and numbers of lumenal membranelike vesicles and infoldings per unit volume of cytoplasm. Depending upon the species, approximately 85 to approximately 94% of the membrane surface area translocated into and out of the cytoplasm was in the form of discoidal vesicles. The remainder was accounted for by infoldings of the lumenal plasma membrane. The density of vesicles involved in transfer of membrane was quite similar in all the species examined, except guinea pigs which yielded lower values. In contrast, the densities of the total cytoplasmic pools of discoidal vesicles potentially available for translocation varied greatly among the different species. In general, species of animals with a highly concentrated urine had a greater density of discoidal vesicles than species with a less concentrated urine. This correlation may indicate an authentic relationship between lumenal membranes and the tonicity of urine, such as increased membrane recycling or turnover with increasingly hypertonic urine; or it may signify the existence of some other, more obscure relationship.

The effects of hormones on cyclic adenosine 3':5'-monophosphate accumulation in transitional epithelium of the urinary bladder.

Transitional epithelium lining rabbit urinary bladders was isolated and studied in vitro. The homogeneity of the isolated epithelium was demonstrated by light and electron microscopical monitoring as well as cell culture studies. Transitional epithelium responded to epinephrine and prostaglandin E1 (PGE1) in the presence of 2mM 1-methyl, 3-isobutylxanthine (MIX) with increases in intracellular levels of cyclic adenosine 3':5'-monophosphate (cyclic AMP). Corticotropin, aldosterone, insulin, parathyroid hormone and vasopressin were slightly but significantly stimulatory under similar conditions. Glucagon and oxytocin were not stimulatory at the concentrations tested. The effects of epinephrine and PGE1 were potentiated by 2mM MIX 20-fold or greater. The cells were slightly more sensitive to PGE1 then to epinephrine. The prostaglandin produced a noticeable response at about 10nM, while effects of epinephrine were discernible at 0.1muM. Maximal responses to both effectors were seen at about 10muM. The action of 10muM epinephrine, but not 10muM PGE1, was completely abolished by 0.1mM propranolol. Responses to combinations of epinephrine and PGE1 were additive. Cyclic AMP accumulated in the incubation medium of transitional epithelial cells exposed to epinephrine, PGE1, MIX, or combinations of the agonists. The appearance of cyclic AMP in the medium was slow compared to the rate of intracellular accumulation, but reached significant levels following prolonged stimulation.

Lumenal plasma membrane of the urinary bladder. II. Isolation and structure of membrane components.

A technique has been devised for isolation of lumenal plasma membranes from transitional epithelial cells lining the urinary bladder in rabbits and for subsequent separation of particle-bearing plaque regions from particle-free areas of the membranes. The success of the procedures employed and their effects on the isolates were assessed by electron microscopy of conventional plastic sections, negatively stained preparations, and freeze-etch replicas. When bladders are distended with a solution of 0.01 M thioglycolic acid, which reduces sulfhydryl bridges, cytoplasmic filaments are disrupted, and large segments of the lumenal membranes rupture and float free into the lumen. A centrifugation procedure was developed for isolating a fraction enriched with the large fragments. A comparison of membranes isolated in the presence of thioglycolate with those isolated from epithelial cells homogenized in sucrose medium indicates that thioglycolate has little effect on their fine structure except for the removal of filaments which are normally associated with their cytoplasmic surface. The curved plaques of hexagonally arrayed particles and the particle-free interplaque regions, both characteristic of membranes before exposure to thioglycolate, are well preserved. Subsequent treatment of thioglycolate-isolated lumenal membranes with 1% sodium desoxycholate (DOC) severs many of the interplaque regions, releasing individual plaques in which the particles are more clearly visible than before exposure to desoxycholate. Presumably, DOC acts by disrupting the hydrophobic bonds within the membrane; therefore, this type of cohesive force probably is a major factor maintaining the structural integrity of interplaque regions. This conclusion is consistent with the observation that interplaque regions undergo freeze-cleaving like simple bilayers with a plane of hydrophobic bonding.