Induction of alkaline phosphatase in cultured human fibroblasts: Comparison of normal cells and those from patients with cystic fibrosis

The membrane glycoprotein enzyme, alkaline phosphatase was induced in cultured human fibroblasts by dibutyryl cyclic AMP, sodium butyrate, the serum glycoprotein fetuin, the Tamm-Horsfall urinary glycoprotein, and by a number of inhibitors of DNA synthesis. The uninduced basal enzyme activity increased at later stages of growth when the cells became confluent. Induction by dibutyryl cyclic AMP or fetuin was most effective when the agents were added after the cells had reached stationary phase and was maximal after at least two days of exposure. The levels of induction resulting from the addition of pairs of the agents, dibutyryl cyclic AMP, n-butyrate and fetuin were additive indicating that these have different modes of action. The inhibitors of DNA synthesis, cytosine arabinoside, hydroxyurea, and methothrexate were less effective inducers. Bromodeoxyuridine which also has non-DNA mediated effects induced to the same extent as dibutyryl cyclic AMP.Similar experiments with sex- and age-matched cell strains derived from patients with cystic fibrosis failed to detect differences in the levels of induction from those observed in normal cells. In addition, the combined inductive effects of Tamm-Horsfall glycoprotein, isoproterenol and theophylline, were similar with normal and cystic fibrosis cells.     

Surface enzymes in cultured fibroblasts from cystic fibrosis patients.

Membrane function was examined in cultured cells from cystic fibrosis patients by assaying several enzymes on intact skin fibroblasts attached to culture dishes. This technique required few cells and minimized disruption of cellular organization. Comparison of enzyme activities of intact and broken cells showed that 12% of total glucose-6-phosphate dehydrogenase, a cytoplasmic enzyme, was measurable using intact cells, while all adenosine monophosphatase was measurable using intact cells. Alkaline paranitrophenylphosphatase activity was divided between the cell surface and interior. Substrate competition experiments indicated that substrate specificities for adenosine monophosphatase and paranitrophenylphosphatase activities were different. Adenosine monophosphatase activities of 2 control and 2 cystic fibrosis strains fluctuated similarly during the cell culture cycle. The apparent Km values relative to adenosine monophosphate were similar in all strains. A chromatographic fraction of serum from a cystic fibrosis patient that was inhibitory to oyster ciliary activity had no effect on adenosine monophosphatase activity of normal fibroblasts. Furthermore, fractions of media from cystic fibrosis homozygote and heterozygote fibroblast cultures were not inhibitory to adenosine monophosphatase activities of intact normal fibroblasts or of part iculate fractions prepared from them. In light of previous studies that showed that factors from cystic fibrosis serum of culture medium disrupted specific membrane activities, it is proposed that the cystic fibrosis factor interacts with the plasma membrane, interfering most conspicuously with the protein functions that are sensitive to changes in their membrane environment.     

Inhibition of Tamm-Horsfall glycoprotein induction of alkaline phosphatase in cystic fibrosis fibroblasts by medium conditioned by normal cells.

It is confirmed that the level of alkaline phosphatase in fibroblasts derived from cystic fibrosis patients can be induced many-fold by growing the cells in the presence of Tamm-Horsfall glycoprotein. It is further shown that normal fibroblasts produce a "CF corrective factor" which markedly inhibits this phenomenon. These observations support a previous hypothesis on the nature of the metabolic defect in cystic fibrosis.     

Plasma membrane lipids of human diploid fibroblasts from normal individuals and patients with cystic fibrosis.

The lipid composition of isolated plasma membranes of human skin fibroblasts is described for the first time. Plasma membranes from a number of strains of fibroblasts from patients with cystic fibrosis and matched normals were isolated by a recently described procedure and analysed for major phospholipid classes, cholesterol and fatty acids. No differences in the quantities of these compounds were detected between cells of the two different origins. The fetal calf serum used to supplement the growth medium contained relatively more palmitoleate and oleate but less stearate than the membranes. There were also no consistent differences between cystic fibrosis and normal membranes in terms of the fatty acid compositions of their individual phospholipid classes. Consistent with this lack of chemical change in the lipids of membranes of cystic fibrosis cells, the degree of fluorescence polarization of diphenylhexatriene, an index of fluidity, was also unchanged.     

Pericellular glycoconjugates of cultured fibroblasts from control and cystic fibrosis patients

1. Labeled glycoconjugates released by trypsin from cell surfaces of control and cystic fibrosis (CF) skin fibroblasts were purified and fractionated by column chromatography on Sephadex G-50 and Concanavalin A Sepharose. Based on chemical analysis and specific enzymatic digestions: (1) Glycoconjugates were characterized as O-linked glycopeptides consisting predominantly of glycosaminoglycan type and N-linked glycopeptides with glycans of complex type. Their relative proportions were similar between the two groups. (2) The N-linked glycopeptides exhibited an increased molar ratio of fucose to galactose in CF fibroblasts. (3) When pericellular glycoconjugates were metabolically labeled with [14C]glucosamine and [3H]fucose, incorporation and degradation kinetics were similar between the two groups.     

Comparison of polypeptides from cultured human fibroblasts and sarcoma cells.

The proteins in cell layers of cultured normal diploid human skin (ES, ER) and lung (WI-38) fibroblasts were compared to those of SV40-transformed human fibroblasts (WI-38/VA-13), human rhabdomyosarcoma (RD) and fibrosarcoma (HT-1080) cells using metabolic amino acid and sugar labeling and surface labeling with tritiated sodium borohydride after oxidation with galactose oxidase. The labeled proteins were analysed by sodium dodecyl sulfate polyacrylamide gel electrophoresis and autoradiography (fluorography). A transformation-associated decrease in the pericellular glycoprotein fibronectin (subunit molecular weight, 220 000) and in the synthesis of a set of polypeptides in the 130 000--180 000 dalton region was seen. Synthesis of a glycosylated 160 000 dalton polypeptide was markedly reduced. In transformed cells distinct increases of several specific polypeptides was detected in both [35S]methionine and [3H] mannose incorporation experiments but not using the surface labeling method.     

Sulfate transport in normal and cystic fibrosis fibroblasts.

The glycoconjugate component of cystic fibrosis (CF) epithelial secretions is abnormally sulfated. Previous studies have suggested that some but not all CF fibroblasts express this secondary defect. We tested the hypothesis that the major CF mutation (delta F508/delta F508) is correlated with elevated sulfate transport, by measuring the rates of saturable and nonsaturable [35S]SO4(2-) uptake in skin fibroblasts isolated from CF patients of known genotype. No significant differences were apparent between normal and CF fibroblasts.     

Membrane function in cystic fibrosis. I. Putrescine transport in normal and cystic fibrosis fibroblasts

Putrescine transport was examined in normal and cystic fibrosis fibroblasts. No differences were observed in accumulation pattern, kinetics of uptake, or efflux between CF and normal cells. In both growing and growth-arrested CF and normal fibroblasts, exogenously supplied putrescine remained unchanged for at least 60 min. Some differences were observed in the response of CF and normal cells to environmental (media) changes.This research was supported by a grant from the Cystic Fibrosis Foundation and by a grant from the National Institutes of Health, Training Grant (GM01316 11 GNC).     

Membrane function in cystic fibrosis. II. Methionine transport in normal and cystic fibrosis fibroblasts

Initial rate kinetics of methionine transport, time course of accumulation of methionine, and efflux of accumulated methionine were studied in three normal and four CF human diploid fibroblast strains. The range of apparent Km's was 12.7-32.1 micrometer for the CF strains and 18.3-39.2 micrometer for the normal strains. The range of apparent Vmax's was 6.69-9.22 nmole mg-1 min-1 for the CF strains and 5.59-7.87 nmole mg-1 min-1 for the normal strains. The patterns of accumulation and efflux are quite similar in all the strains studied except for WI-38, which showed somewhat higher efflux and lower accumulation than for others. There was no significant difference in the kinetic parameters of methionine transport between CF and normal skin fibroblasts, and methionine transport will not serve as a marker for cystic fibrosis in cultured fibroblasts.     

Intracellular alkaline phosphatase activity in cultured human cancer cells

Summary The effect of saponin treatment in demonstrating intracellular portion of alkaline phosphatase activity in human cancer cell lines was evaluated. Previous reports using standard lead-salt techniques visualized enzyme almost exclusively on the plasma membrane and sometimes in the lysosomes. However, by treating cells with saponin before or during the cytochemical incubation, intracellular alkaline phosphatase became demonstrable at the endoplasmic reticulum, Golgi apparatus, Golgi-derived vesicles and mitochondria as well as lysosomes and plasma membrane. These intracellular catalytic activities were significantly inhibited by the specific amino acid inhibitors characteristic for each cell line, and this suggested that intracellular alkaline phosphatase is the same isoenzyme as that present in the plasma membrane. The results of our current and previous studies therefore indicate that saponin reveals latent intracellular alkaline phosphatase activity by changing the membrane's physical state; thereby increasing the availability of both catalytic and antigenic sites of the enzyme to substrate and to antibody respectively.This work was supported by National Institutes of Health Grant No. CA 21967     

Induction by short-chain fatty acids of alkaline phosphatase activity in cultured mammalian cells.

Short-chain fatty acids, such as propionic, n-butyric, n-butyric, n-valeric, isovaleric, n-caproic, and n-caprylic acids, induce alkaline phosphatase activity in cultured mammalian cells. Long-chain fatty acids have no similar effects. With B-6 cells (mouse X Chinese hamster cell hybrids), n-butyrate at 2 to 5 mM exhibits the greatest activity. Induction begins exponentially about 24 hours after addition of the fatty acid and continues over 48 hours. Studies on the inducing activity-structure relationship revealed the necessity of a carboxyl and an ethyl or longer alkyl group. n-Butyrate shows a marked synergistic action of induction when added along with other types of inducers: adenosine 3':5'-cyclic monophosphate (cAMP) or 5-bromodeoxyuridine (BrdU). Treatment of other cell lines with either n-buryrate, cAMP, or BrdU revealed a cell-type specific response pattern of alkaline phosphatase. The biological significance of this effect of short-chain fatty acids is discussed.     

Protein methylation in normal and cystic fibrosis fibroblasts

Human-cultured fibroblasts contain protein methylase activities. These activities were determined and the enzymatic products were identified after acid hydrolysis of the protein substrate for protein methylases I (arginine) and III (lysine) and by organic solvent extraction of the methanol produced by alkaline treatment of the protein substrate (for the protein methylase II). A methylation of histidine residues of proteins occurs in cultured fibroblasts. Protein methylase activities were unmodified in the cystic fibrosis fibroblasts as compared to the control cells.     

Membrane fluidity in normal and cystic fibrosis fibroblasts

We have observed distinct differences in the polarization of fluorescence and temperature dependent emission intensity of the highly fluorescent phospholipid derivative (1-acyl-2-(N-4-nitrobenzo-2-oxa-1,3-diazole)--aminocaproyl phosphatidylcholine (NBD-PC), when incorporated in the plasma membranes of normal and cystic fibrosis fibroblasts. Fluorescence polarization measurements indicate that the fluorochrome has a much higher degree of rotational mobility in cystic fibrosis fibroblasts as compared with normal cells. Temperature dependent transitions in the emission intensity of NBD-PC incorporated in normal fibroblasts are indicated at 17.7 and 21.2° C while the abnormal cell membranes apparently undergo transitions at 8.7 and 13.5° C. These differences might be due to changes in plasma membrane composition and/or organization, in the case of the cystic fibrosis cells.     

Prospects for prenatal diagnosis of cystic fibrosis: Induction of biochemical abnormalities in fibroblasts from patients with cystic fibrosis by a urinary glycoprotein

Alkaline phosphatase activity, assayed on a per cell basis with an ultra micro-method, can be increased up to 7-fold in fibroblast cultures derived from patients with cystic fibrosis by induction with a urinary glycoprotein. Fibroblasts from normal and heterozygous individuals are not significantly induced. There is a suggestion of heterogeneity among cases as reflected in varying baseline alkaline phosphatase and α-glucosidase levels.     

Differential incorporation of 3H-thymidine into DNA in cultured skin fibroblasts derived from patients with cystic fibrosis and controls.

Tritiated thymidine (³H-TdR) incorporation into DNA of the fibroblasts derived from subjects with cystic fibrosis (CF) and their controls was studied with scintillation counting and autoradiography. ³H-TdR incorporation at 24 hours postseeding was significantly less (p<0.005) in CF strains in comparison with cells from controls. The percentage of labeled fibroblasts was not significantly different between the two strains (p>0.1). The cell cycle time and the duration of each phase were studied by a mitotic selection and scintillation counting technique. There was no difference in cell cycle time between CF and control fibroblasts, however, the duration of the synthetic phase was significantly (p<0.005) longer in CF subjects.     

Kinetic analysis of chloride efflux from normal and cystic fibrosis fibroblasts

Chloride permeability in 9 cystic fibrosis- and 11 normal-skin fibroblast lines has been investigated. Chloride efflux, under steady-state conditions, involves two intracellular compartments characterized by slow- and fast-rate constants of efflux. We show here that the fast rate constant in cystic fibrosis cells is reduced by 25% in comparison with controls. The data presented support recent studies indicating that isolated sweat glands and respiratory epithelia of patients suffering from cystic fibrosis have an unusual low permeability to chloride ions compared to control epithelia. It is concluded that variation in chloride transport can successfully be studied in cultured fibroblasts, which are not directly involved in the pathology of the disease.     

Actin and tubulin in normal and cystic fibrosis fibroblasts

Actin and tubulin contents of early passage, confluent human fibroblast cultures have been determined. Actin comprised 5.87 ± 0.81% of the total protein of IMR-90 fibroblasts which was not significantly different than the actin contents of two cystic fibrosis fibroblast cultures GM0142 and GM1348 (5.64 ± 0.90% of total protein). However, a significant difference between the amount of tubulin in IMR-90 fibroblasts (7.17 ± 0.25% of total protein) and the amount of tubulin in cystic fibrosis fibroblasts (4.51 ± 0.64% of total protein) was found.     

Taurine uptake by normal and cystic fibrosis fibroblasts

Taurine deficiency recently has been proposed to be clinically significant in cystic fibrosis (CF). Uptake of [14C]taurine by four cystic fibrosis (CF) and three control fibroblast lines was examined to determine whether a generalized defect in taurine transport could contribute to the deficiency. The time course of uptake was linear up to 20 h and was similar in both CF and control fibroblasts. Taurine was avidly retained after uptake, and the effect of metabolic (chlorpromazine) and competitive (hypotaurine, L-leucine) inhibitors was similar in both CF and control cells. In contrast, while taurine uptake in a calcium-free medium was impaired in both CF and control fibroblasts, the impairment was significantly less in CF cells. The findings suggest that a generalized abnormality in taurine transport is unlikely to be responsible for the taurine deficiency in CF.