Modification of the surface ATPase activity in cultured hepatoma cells by lipid-depleted media

Several compounds have been described which elute fibronectin from a gelatin-Sepharose affinity support. In the present study, it has been found that the potent chaotrophic agent, lithium di-iodosalicylic acid, is 20-fold more effective in eluting fibronectin from collagen than any other presently described fibronectin elution agent. Lithium di-iodosalicylic acid and certain other fibronectin elution agents have been characterized in regard to several parameters involved in the elution of fibronectin from collagen and plastic substrata. By assaying for retention of the cell adhesive activity of fibronectin, it has been demonstrated that 8 M urea + 0.1 M citric acid, pH 4.7, is the most effective condition for preservation of biological activity following elution of fibronectin from the gelatin-Sepharose affinity support.     

Studies on the heat-precipitated phosphoenzyme complex of eel electric organ (Na + K).ATPase.

When the hydrolytic reaction between eel electric organ (Na + K) · ATPase and [γ-³²P]ATP is terminated at neutral pH by heat precipitation, a phosphoenzyme complex is formed which reaches maximal levels in the simultaneous presence of Mg, Na, and K. After formation of a steady-state level of phosphoenzyme in the presence of Mg and Na, a pulse of K increases the level of the heat-precipitated phosphoenzyme (while decreasing the level of the acid-precipitated phosphoenzyme). The formation of the heat-precipitated phosphoenzyme is clearly inhibited by ouabain only when the phosphoenzyme is formed in the presence of Mg, Na, and K. Inorganic phosphate decreases the level of the heat-precipitated phosphoenzyme, but not that of the acid-precipitated phosphoenzyme (in the presence of Mg and Na or in the presence of Mg, Na, and K). Moreover, a heat-precipitated, ouabain-sensitive phosphoenzyme forms in the reaction between the eel (Na + K) · ATPase and ³²P_i with or without ATP. The pH stability of the heat-precipitated phosphoenzyme complex is maximal at pH 6 to 8, and this complex shows little or no reactivity with neutral hydroxylamine, suggesting that the phosphate is not bound to an acyl residue of the protein. These experiments indicate that both heat-resistant and acid-resistant phosphoenzymes are formed during the (Na + K) · ATPase reaction at pH 7.4.     

Inhibition of hamster sperm Na+, K+-ATPase activity by taurine and hypotaurine

Taurine, hypotaurine and the structural analogue, beta-alanine, were tested for their effects on Na+, K+-ATPase activity of crude homogenates prepared from washed cauda epididymal hamster sperm. Preincubation with 0.1-10 mM taurine or hypotaurine inhibited Na+, K+-ATPase in a dose-dependent manner, while beta-alanine had an inhibitory effect only at 10 mM. The results of this study are the first evidence to demonstrate inhibition of Na+, K+-ATPase activity by taurine and hypotaurine and are discussed in relation to the ability of these compounds to sustain hamster sperm motility and fertility.     

Elevation of nucleotide pyrophosphatase activity in skin fibroblasts from patients with Lowe's syndrome

Undersulfation observed in the glycosaminoglycans synthesized by cultured skin fibroblasts from a Lowe's syndrome patient[Fukui, S. etal. (1981) J. Biol. Chem. 256, 10313–10318] was found to be caused by elevated degradation of 3′-phosphoadenosine 5′-phosphosulfate (PAPS). The enzyme involved in this degradation was then identified as an enzyme of nucleotide pyrophosphatase (EC 3.6.1.9) nature, cleaving the phosphosulfate linkage. The specific activities were 8 – 24 (mU/mg protein) in patients' fibroblasts, in contrast to 3 in normal and 5 – 14 in heterozygote cells. A possibility is discussed that the elevation of nucleotide pyrophosphatase activity is the primary genetic defect in Lowe's syndrome.     

Defective phosphorylation and processing of beta-hexosaminidase by intact cultured fibroblasts from patients with mucolipidosis III

Previous studies of the synthesis, phosphorylation, and processing of β-hexosaminidase in cultured fibroblasts from normal individuals and from patients with mucolipidosis II (I-cell disease) (A. Hasilik and E. F. Neufeld, 1980, J. Biol. Chem.225, 4937–4946) have been extended to fibroblasts derived from patients with a related genetic disorder, mucolipidosis III (pseudo-Hurler polydystrophy). The enzyme was biosynthetically labeled in pulse-chase experiments with [³H]leucine and ³³P_i, and isolated from cells and medium by immunoprecipitation. The constitutent α and β chains of the enzyme were separated by polyacrylamide gel electrophoresis under reducing and denaturing conditions, visualized by autoradiography and fluorography, extracted from the gel, and quantitated by liquid scintillation spectrometry. Enzyme produced by fibroblasts from mucolipidosis III patients had a very low but detectable phosphate content; a high proportion of newly made enzyme was secreted, though some remained within the cells and was processed to mature enzyme; the presence of NH₄Cl during the labeling and chase did not significantly increase the amount of enzyme secreted. The β-hexosaminidase produced by mucolipidosis III fibroblasts thus resembled more closely that produced by fibroblasts from patients with mucolipidosis II than the normal enzyme. β-Hexosaminidase made by fibroblasts from mucolipidosis II heterozygotes was similar to the normal enzyme with respect to phosphorylation, processing, and secretion. Mucolipidosis II and III fibroblasts could endocytose normal precursor β-hexosaminidase and process it to the mature form. The deficiency of mature enzyme in the patients' cells may therefore be attributed to failure of the unphosphorylated enzyme to be incorporated into lysosomes, where processing would normally occur.     

The effects of insulin and tunicamycin on insulin receptors of cultured fibroblasts

The effect of down-regulation on the intracellular pool of insulin receptors and the role of glycosylation in recovery from down-regulation have been studied in fibroblastic cultures from the skin of non-diabetic mice. In control cultures, 55% of the total specific [¹²⁵I]insulin-binding activity was in the intracellular compartment. Insulin caused a time- and concentration-dependent decrease in the number of cell surface insulin receptors, with no significant change in total insulin receptors. This decrease in surface receptors was accompanied by an increase in the specific binding of [¹²⁵I]insulin in the intracellular compartment. Removal of insulin from down-regulated cells resulted in a time-dependent increase in the binding of [¹²⁵I]insulin to surface receptors, reaching 90% of that in controls by 12 h. The recovery of surface insulin receptors after removal of insulin was blocked by incubation of cultures with tunicamycin, but not by cycloheximide. These results indicate that down-regulation of surface insulin receptors by insulin is associated with translocation of receptors into the intracellular pool and suggest that protein glycosylation is important in insulin receptor recycling and externalization.     

In vitro and in vivo effects on brain GABA metabolism of (S)-4-amino-5-fluoropentanoic acid,a mechanism-based inactivator of γ-aminobutyric acid transaminase

The effects of intraperitoneal administration of (S)-4-amino-5-fluoropentanoic acid, a mechanism-based covalent inactivator of γ-aminobutyric acid transaminase (GABA-T), on whole brain GABA metabolism in mice were investigated. A dose-dependent and time-dependent irreversible inactivation of GABA-T was observed with a concomitant increase in whole brain GABA levels. The compound exhibited no $\text{in vitro}$ nor $\text{in vivo}$ time-dependent inhibition of glutamate decarboxylase (GAD), alanine transaminase, or aspartate transaminase (Asp-T). It was, however, a potent competitive reversible inhibitor of GAD and a weak competitive inhibitor of Asp-T. The chloro analogue, (S)-4-amino-5-chloropentanoic acid, was ineffective.     

Lectin-like activity from Persea americana

An extract from the seeds of Persea americana possessed an erythro-agglutinating activity. The agglutinin was devoid of specificity for carbohydrates, but interacted readily with basic proteins or basic polyamino acids. The interaction between the agglutinin and egg-white lysozyme was not inhibited by chaotropic salts, but was sensitive to relatively low concentrations of urea. An affinity chromatographic procedure was developed in an effort to purify the agglutinin. Products from the chromatographic procedure were found not to contain higher specific agglutinating activities than the crude extract. Amino acid acid analyses of the extract showed the presence of relatively high proportions of glutamic and aspartic acids. In addition, the extract contained phosphorus and a visible chromophore. The agglutinin was resistant to detergents and denaturants, and proteases, nucleases, and other enzymes. The results suggest that, as opposed to other plant agglutinins, the active component from Persea is not a protein. Similarly, in contrast to many lectins, the agglutinin from Persea was not mitogenic for mouse lymphocytes. The agglutinin partially inhibited the mitogenesis of lymphocytes when the cells were treated with concanavalin A, or with bacterial lipopolysaccharide.     

Studies of (Na+ + K+)-sensitive ATPase activity in pig lymphocytes. Effects of concanavalin A

(Na⁺ + K⁺)-ATPase activity is demonstrated in plasma membranes from pig mesenteric lymph nodes. After dodecyl sulfate treatment plasma membranes have an 18-fold higher (Na⁺ + K⁺)-ATPase activity, while their ouabain-insensitive Mg²⁺-ATPase is markedly lowered. A solubilized (Na⁺ + K⁺)-ATPase fraction, obtained by Lubrol WX treatment of the membranes, has very high specific activity (21μmol P_i/h per mg protein). Concanavalin A has no effect on these partially purified (Na⁺ + K⁺)-ATPase, while it inhibits (40%) this activity in less purified fractions which still contain Mg²⁺-ATPase activity.     

Monensin inhibits the conversion of proalbumin to serum albumin in cultured rat hepatocytes

Effects of monensin, a carboxylic ionophore, on intracellular transport of albumin were studied in primary cultured rat hepatocytes. The lag time after which newly synthesized albumin first appeared in medium was 10 min in the control cells, while it was prolonged to 40 min in the monensin-treated cells. In addition, this inhibition of secretion by monensin was accompanied by an intracellular accumulation of proalbumin. The results strongly suggest that monensin arrests the intracellular transport of proalbumin before the site where its conversion takes place.     

Properties of a bicarbonate-stimulated ATPase from rat uterus

Crude subcellular fractions from rat uterus contain a HCO₃⁻-stimulated Mg²⁺-ATPase with properties analogous to those previously reported for the enzyme in gastric mucosa, pancreas, salivary gland and liver lysosome. Estradiol-17β treatment of ovariectomized rats resulted in an increase in uterine mitochondrial (HCO₃⁻ + Mg²⁺)-ATPase and Mg²⁺-ATPase activity. In an early response (105 min) to estradiol-17β treatment of ovariectomized rats, the lysosomal enzyme, β-N-acetylglucosaminidase increased in the nuclear and mitochondrial fractions and decreased in the microsomal and supernatant fractions.     

Initial evidence for the modification of hamster sperm Na+, K+-ATPase activity by cyclic nucleotide-mediated processes

Na+, K+-ATPase activity of homogenates prepared from cauda epididymal golden hamster sperm increased after the addition of cGMP (50 microM), monobutyryl cGMP (0.5 microM) or cGMP-dependent protein kinase (0.94 micrograms/ml). Addition of monobutyryl cAMP (0.5 microM) or purified catalytic subunit of cAMP-dependent protein kinase (1.26 micrograms/ml) inhibited the activity of the Na+, K+-ATPase. Preincubation with a partially purified preparation of cAMP-dependent protein kinase inhibitor (75 micrograms/ml) stimulated the activity of the Na+, K+-ATPase, and this stimulation was decreased by the addition of 5 microM monobutyryl cAMP. It is not yet known whether direct and/or indirect mechanisms are involved, but these results are the first to describe such opposing effects by cyclic nucleotide-mediated processes on a Na+, K+-ATPase activity.     

Inhibition of ATPase activity of the recA protein by ATP ribose-modified analogs

The single-stranded, DNA-dependent ATPase activity of purified recA protein was found to be inhibited competitively by ribose-modified analogs of ATP, 3'-O-anthraniloyl-ATP (Ant-ATP), and 3'-O-(N-methylanthraniloyl)-ATP (Mant-ATP). The Ki values for Ant-ATP and Mant-ATP were around 7 and 3 microM at pH 7.5, respectively. The inhibitions by these analogs were much stronger than that by ADP, which is also a competitive inhibitor for the ATPase activity of the recA protein. The Ki value for ADP is 76 microM. Ant-ATP and Mant-ATP reduced the Hill coefficient for ATP hydrolysis and thus contributed to the cooperative effect of ATP.     

Variations in myocardial CPK and Na+-K+ ATPase following long-term freezing.

The activity of the soluble enzyme CPK and the membrane bound enzyme Na⁺-K⁺ ATPase as a function of storage temperature, time of storage and cryoprotectant type and concentration in canine myocardial tissue was invesigated. Activity of CPK is well preserved at ?196 °C and ?79 °C and falls off during one month storage at ?40 °, ?20 °, and 0 °C. Na⁺-K⁺ ATPase demonstrates a greater liability. After an initial cryoprotectant “activation,” activity drops. In all cases, however, addition of the cryoprotectant preserved activity better than in samples stored only in buffer.     

Enhanced insulin stimulation of sugar transport and DNA synthesis by glucocorticoids in cultured human skin fibroblasts

Glucocorticoids will enhance the growth of cultured human skin fibroblasts in serum-containing medium. In serum-free cultures hydrocortisone (5 X 10(-6) M) will enhance insulin stimulation of sugar transport and DNA synthesis (as measured by thymidine incorporation into trichloroacetic acid-precipitable material). The optimal concentration for the glucocorticoid effect on DNA synthesis was 5 X 10(-8) M for dexamethasone and 5 X 10(-7) M for hydrocortisone. In dexamethasone-treated cells, concentrations of insulin as low as 250 microU/ml (10 ng/ml) were effective in stimulating DNA synthesis. Further, hydrocortisone and dexamethasone (both at 5 X 10(-6) M) exhibited potentiating effects on insulin-stimulated sugar transport. These effects appeared to be mediated via inhibitory actions on the hexose transport system with the preservation of a functional insulin-receptor interaction resulting in insulin stimulation of deoxy-D-glucose transport at physiological insulin concentrations, 250 microU/ml (10 ng/ml). Hydrocortisone also enhanced specific [125I]insulin binding in these cells. The data indicate that the mechanism(s) of glucocorticoid enhancement of two actions of insulin may be different.     

Cytochalasin B-induced alterations of insulin binding and microfilament organization in cultured fibroblasts

The effect of cytochalasin B (CB) on insulin binding has been investigated in confluent cultures of chick embryo fibroblasts. Time- and dose-dependent increases in binding of [¹²⁵I]insulin was observed after incubation of fibroblasts with CB. At 10 μg/ml, CB caused a 2-fold increase in binding, due to an increase in the number of binding sites from 9.3 × 10³ to 2.0 × 10⁴ per cell. Removal of CB from the growth medium was accompanied by a decrease in [¹²⁵I]insulin binding to control values in 24 h. Increase in the binding of insulin in CB-treated CEF was also accompanied by enhancement of insulin to stimulation of [³H]thymidine incorporation into acid-insoluble material. CB treatment also caused disorganization and disappearance of microfilament bundles and changes in cell shape from flat, with a few blebs and folds on the cell surface, to round with numerous blebs and folds. The data from this study suggest that changes in the number of surface insulin-binding sites may be related to the state of organization of cytoskeletal structures in chick embryo fibroblasts.     

Polar redistribution of Na+K+ATPase in aggregating MDCK cells

The distribution of Na+K+ATPase was examined immunoelectronmicroscopically along the plasma membranes of aggregating MDCK cells grown in tissue culture. Na+K+ATPase was localized with the use of affinity-purified antibodies employing the double-antibody immunoperoxidase technique. Na+K+ATPase-like immunoreactivity was uniformly distributed along the plasmalemma of cells grown in suspension. Once attached to the substratum, individual MDCK cells exhibited Na+K+ATPase immunoreactivity limited to the microvilli-laden mucosal surface. This exclusive mucosal distribution of Na+K+ATPase disappeared and a basolateral immunoreactivity became apparent once intercellular contacts and the formation of tight junctions occurred between neighboring cells. Thus, both cellular attachment to the substratum, and tight junction formation between aggregating MDCK cells are essential to the genesis of Na+K+ATPase polar distribution. These two events, however, appear to induce opposing distribution patterns for Na+K+ATPase.     

Alpha 2-macroglobulin binding to cultured fibroblasts: identification by affinity chromatography of high-affinity binding sites

Binding sites having the properties of high-affinity receptors for activated alpha 2-macroglobulin (alpha 2M) have been purified over 100-fold from membranes of spontaneously transformed NIH-3T3 cells (J. A. Hanover, S.-y. Cheng, M. C. Willingham, and I. H. Pastan [1983] J. Biol. Chem. 258, 370-377). To identify the molecular species involved in high-affinity binding, the solubilized receptor has been purified 500-fold by conventional procedures and further purified by affinity chromatography. After radioiodination of the 500-fold-purified preparation, the detergent-solubilized extract was applied to alpha 2M-Sepharose and an 85,000 +/- 5000 Mr species was selectively retained by the column. Binding of the 85,000 +/- 5000 Mr species to the affinity resin was inhibited by EDTA and by excess alpha 2M. Elution from the affinity column could be accomplished with bacitracin, a competitive inhibitor of alpha 2M binding, or with EDTA. Consistent with the previously reported characteristics of the high-affinity alpha 2M receptor, the 85,000 Mr species bound much more efficiently to methylamine-activated alpha 2M-Affigel than to alpha 2M-Affigel which had not been amine-activated. The present data suggest that a protein with a subunit Mr of 85,000 +/- 5000 may represent a component of the high-affinity alpha 2M receptor present on cultured fibroblasts.