Inhibition of the NADH oxidase activity of plasma membranes isolated from xenografts and cell lines by the antitumor sulfonylurea,N-(4-methylphenylsulfonyl)-N′-(4-chlorophenyl)urea (LY 181984) correlates with drug susceptibility of growth

Summary Inhibition of NADH oxidase activity of plasma membranes isolated from a series of human xenografts and cell lines by the antitumor sulfonylurea, N-(4-methylphenylsulfonyl)-N-(4-chlorophenyl) urea (LY 181984), correlated with the ability of the sulfonylurea to inhibit cell growth. Growth of rat kidney cells either untransformed or transformed with Kirsten-ras (K-ras) were unaffected by the sulfonylurea. Similarly, the NADH oxidase activity of isolated plasma membranes from K-ras transformed cells was unaffected by LY 181984. In contrast, when transformed with Harvey-ras (H-ras), both growth and NADH oxidase activity were inhibited. With the inactive but structurally related LY 181985 (N-4-methylphenyl-sulfonyl)-N-(phenyl)urea), neither growth nor plasma membrane NADH oxidase activity of either sulfonylurea-susceptible or -resistant tissues or cell lines was inhibited. Both sulfonylureas were inactive with rat liver plasma membranes but NADH oxidase activity of plasma membranes and growth with HeLa cells was inhibited by the active (LY 181984) but not by the inactive (LY 181985) sulfonylurea. The findings suggest a possible correlation between inhibition of plasma membrane NADH oxidase activity by the antitumor sulfonylureas and their oncolytic action.     

Die Fraktionierung des Membransystems von Rhodopseudomonas capsulata und seine Morphogenese

Zusammenfassung Das Membransystem von Rps. capsulata setzt sich aus Cytoplasmamembran und intracytoplasmatischen Membranen zusammen. In anaeroben Lichtzellen und in Dunkelzellen unter geringen Sauerstoffpartialdrucken bestehen die intracytoplasmatischen Membranen aus Vesikeln, bei Anzucht unter hohen Sauerstoffspannungen sind sie tubulär. Auch nach einer 8stündigen Kultur bei 400 mm (Hg) Sauerstoffpartialdruck, d.h. unter Bedingungen, die eine BChl-Synthese vollständig hemmen, enthalten die Zellen noch intracytoplasmatische Tubuli an einem Zellpol.Nach Zellaufschluß mit der French pressure cell gelang es durch anschließende fraktionierte Zentrifugation und Reinigung der Partialfraktionen über Ficoll-Gradienten 3 membranhaltige Banden zu isolieren. Die leichte Bande besteht vorwiegend aus Membranfragmenten der Cytoplasmamembran. Die mittlere Bande enthält die intracytoplasmatischen Tubuli aerob angezogener Zellen. Die schwere Bande, die den höchsten Reinheitsgrad aufweist, setzt sich aus den intracytoplasmatischen Vesikeln der Licht-bzw. der semiaeroben Dunkelzellen zusammen. ¹⁴C-Markierungsexperimente und elektronenmikroskopische Beobachtungen sprechen für morphologische und morphogenetische Zusammenhänge zwischen den Membranfraktionen und stützen damit die Hypothese, daß alle Membrantypen in einer Zelle Teile eines zusammenhängenden Membransystems sind. Die einzelnen Membrantypen können reversibel ineinander überführt werden.

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The fractionation and morphogenesis of the membrane system of Rhodopseudomonas capsulata

Summary The membrane system of Rhodopseudomonas capsulata, strain 37b4 is investigated in cells cultivated anaerobically in the light and in the dark, respectively, at different oxygen partial pressures (pO₂). The intracytoplasmic membrane vesicles of anaerobically light grown and semiaerobically [5 mm (Hg) pO₂] dark grown cells show similar diameters (30–50 nm). Growing aerobically in darkness the cells contain tubular intracytoplasmic membranes with comparable diameters. An increase of the pO₂ up to 400 mm (Hg) results in a slightly decreased growth rate and in a complete inhibition of bacteriochlorophyll synthesis and intracytoplasmic membrane formation. After 8 h of cultivation under these conditions tubular membranes are still found. However, they are restricted to one cell pole only.In order to isolate the membranes, cells were broken by means of a French pressure cell. The crude, membrane fractions (sedimented at 104000-314000xg, 60 min) are purified by centrifugation on a Ficoll density gradient. This results in the formation of three membrane fractions. The light fraction consists of small vesicular particles derived from the cytoplasmic membrane. Crude membrane fractions of all cells sedimented at 314 000xg contain a relative high percentage of these particles. Intracytoplasmic membranes of aerobically grown cells are found in a middle band. Their tubular structure remains unaffected if the cells are treated by lower pressures during homogenization. The heavy band contains the intracytoplasmic membrane vesicles from light grown and from semiaerobically dark grown cells in a highly purified form.After treatment with butanol or NaCl and subsequently with lysozyme plus EDTA cells release flat membrane fragments which still exhibit invaginations. This shows once more that the membranes are connected to each other.Pulse chase experiments with (2-¹⁴C)-acetate support the hypothesis that the cytoplasmic membrane and intracytoplasmic membranes are transformable into each other. So they should be looked at as a morphogenetical unit.

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Abkürzungen BChl Bacteriochlorophyll - CM Cytoplasmamembran - ICM intracytoplasmatische Membran - pO₂ Sauerstoffpartialdruck     

Intracellular location of cytochrome oxidase active in vivo in the cyanophytes,Synechocystis sp. PCC6714 andAnacystis nidulans Tx20 and R2, grown under various conditions

Summary Intracellular location of cytochrome oxidase (cytoxidase) active in vivo was studied cytochemically with four strains of cyanophytes, using 3,3-diaminobenzidine (DAB) oxidation. DAB was oxidized in the dark bySynechocystis sp. PCC6714 and two strains ofAnacystis nidulans (Tx20 and R2) grown under photoautotrophic, heterotrophic and salt-stressed conditions, respectively. Electron microscopic observations showed that DAB-oxidation in the dark occurred in the thylakoids, but was insignificant on or around the cytoplasmic membrane. However, deposition of DAB-oxidation product around the cytoplasmic membrane was observed with cells of the thylakoid-less cyanophyteGlaeobacter violaceus ATCC29082. All DAB oxidations observed with the four strains were inhibited completely by cyanide, the inhibitor of cyt-oxidase, but not by 3-amino-1,2,4-triazole, the inhibitor of peroxidase. The results show that (1) DAB was oxidized by the cyt-oxidase functioning in the respiratory system, and that (2) cyt-oxidase in thylakoids was active in vivo.Abbreviations AT 3-amino-1,2,4-triazole - Cyt oxidase cytochrome oxidase - ETS electron transport system - DAB 3,3-diaminobenzidine     

Inhibition of oxidative stress produced by plasma membrane NADH oxidase delays low-potassium-induced apoptosis of cerebellar granule cells

From 1 to 3 h after the onset of cerebellar granule cells (CGC) apoptosis in a low-K+(5 mm KCl) medium there was a large decay of NADH and a 2.5-fold increase of the rate of reactive oxygen species (ROS) production (measured using CGC loaded with dichlorodihydrofluorescein). During the same time period, the ascorbate-dependent NADH oxidase activity, which accounted for more than 90% of both total NADH oxidase activity and NADH-dependent *O2- production of CGC lysates, increased 2.5- to threefold. The stimulation of the ascorbate-dependent NADH oxidase activity by oxidized cytochrome c, 2.5-fold at saturation with a K(0.5) of 4-5 microm cytochrome c, can at least partially explain this activation. The plasma membrane ascorbate-dependent NADH oxidase activity accounted for more than 70% of the total activity (both in terms of NADH oxidase and *O2- release) of CGC lysates. 4-Hydroxyquinazoline (4-HQ), which was found to block this apoptotic process, prevented the increase of ROS production. 4-HQ protection against cell viability loss and DNA fragmentation correlated with the inhibition by 4-HQ of the ascorbate-dependent NADH oxidase activity of CGC lysates, showing the same K(0.5)-value (4-5 mm 4-HQ). The efficient blockade of CGC apoptosis by addition of superoxide dismutase to the medium further supports the neurotoxic role of *O2- overproduction by the plasma membrane ascorbate-dependent NADH oxidase.     

Properties and subcellular distribution of delta4-steroid (progesterone) 5alpha-reductase in rat anterior pituitary.

The properties and subcellular distribution of anterior pituitary delta4-steroid (progesterone) 5alpha-reductase, which stimulates the conversion of progesterone to 5alpha-pregnane-3,20-dione, have been investigated utilizing 3H-substrate and a reverse isotopic dilution assay system. The enzymic activity was stimulated by NADPH but not NADH and exhibited a Km of 2.7+/-0.9 times 10(-7) M for progesterone. The substrate specificity of the enzyme for other delta4-3-ketosteroids and the effect of estradiol-17beta were also studied. 20alpha-hydroxy-4-pregnen-3-one was more reactive than progesterone, while testosterone was less reactive. Estradiol-17beta in vitro had an inhibitory effect on the 5alpha-reduction of progesterone. Studies on the subcellular distribution of the 5alpha-reductase activity indicate that the bulk of the activity was widely distributed amongst particulates sedimenting at 1,000, 15,000 and 100,000xg; with the 15,000xg pellet containing the most enzymic activity. The 100,000xg supernatant possessed only a small fraction of the total activity. After further fractionation of the 1,000xg pellet, the activity was distributed equally between the purified nuclear and cell debris-membranes fractions.     

Effects of ionophores and TPMP+ on light-induced responses in Dictyostelium discoideum

In spite of previous reports, the activities of respiratory oxygen uptake by whole cells are higher with chemotrophically than with phototrophically grown cells of Rhodospirillum rubrum and Rhodospirillum tenue. The same applies to NADH dependent respiratory reactions as determined with isolated crede membrane preparations. This is largely, but not only, due to an outstandingly high increase in activity of cytochrome c-oxidase measurable upon adaptation of phototrophically grown cells to chemotrophic conditions. In R. rubrum the dependency of the total respiratory chain on the activities of different sections of this chain becomes confused by the presence of differently composed membranes (i.e. cytoplasmic and intracytoplasmic membranes) which under the experimental conditions become functionally differentiated to different extents. But in R. tenue, which does not produce intracytoplasmic membranes, respiration at low activities parallels clearly cytochrome c oxidase activities while high respiratory activities parallel the activities of NADH dehydrogenase. The data are interpreted to indicate that, in cells of facultative phototrophic bacteria, the formation of the respiratory chain, up to certain stages, depends on the formation of the terminal oxidase. At least in R. tenue this is comparable to the role of bacteriochlorophyll in the formation of the photosynthetic apparatus.Abbreviation Bchl bacteriochlorophyll     

Enzymatic activities in cell fractions of mycoplasmalike organisms purified from aster yellows-infected plants.

Mycoplasmalike organisms (MLOs), purified from aster yellows-infected plants were osmotically lysed, and the membranes were separated from the cytoplasmic fraction through differential centrifugation. Electron microscopic examinations of sections of the purified MLOs and the isolated membranes showed pleomorphic bodies and unit membranous empty vesicles, respectively. Cell fractions were tested for NADH oxidase, NADPH oxidase, ATPase, RNase, DNase, and p-nitrophenyl phosphatase activity. NADH oxidase and ATPase were confined to the membrane fraction and NADPH oxidase to the cytoplasmic fraction of the MLOs. para-Nitrophenyl phosphatase, RNase, and DNase activities were detected in both membrane and cytoplasmic fractions, but p-nitrophenyl phosphatase and RNase appeared to be associated with membranes and DNase with the cytoplasmic fraction. Glucose-6-phosphate dehydrogenase was found in the cytoplasmic fraction of the MLO cells. Our findings on the distribution of enzymes in MLO cells and cell fractions are the first basic documentation on nonhelical, nonculturable microbes parasitic to plants.     

The role of the lipoprotein sorting signal (aspartate +2) in pullulanase secretion

The analyses of hybrid proteins and of deletion and insertion mutations reveal that the only amino acid at the amino-proximal end of the cell surface lipoprotein pullulanase that is specifically required for its extracellular secretion is an aspartate at position +2, immediately after the fatty acylated amino-terminal cysteine. To see whether the requirement for this amino acid is related to its proposed role as a cyto-plasmic membrane lipoprotein sorting signal, we used sucrose gradient floatation analysis to determine the subcellular location of pullulanase variants (with or without the aspartate residue) that accumulated in cells lacking the pullulanase-specific secretion genes. A non-secretable pullulanase variant with a serine at position +2 cofractionated mainly with the major peak of outer membrane porin. In contrast, most (55%) of a pullulanase variant with an aspartate at position +2 cofractionated with slightty lighter fractions that contained small proportions of both outer membrane porin and the cytoplasmic membrane marker NADH oxidase. Only 5% of this pullulanase variant cofractionated with the major NADH oxidase peak, while the rest (c. 40%) remained at the bottom of the gradient in fractions totally devoid of porin and NADH oxidase. When analysed by sedimentation through sucrose gradients, however, a large proportion of this variant was recovered from fractions near the top of the gradient that also contained the major NADH oxidase peak. When this peak fraction was applied to a floatation gradient, the pullulanase activity remained at the bottom while the NADH oxidase floated to the top. Thus, there is no evidence that lipoproteins that cofractionate with the cytoplasmic membrane under certain conditions are actually associated with the membrane. Instead, the results support our previous proposal that lipoproteins with an aspartate +2 residue are specifically enriched in a distinct domain of the cell envelope that contains material from both the cytoplasmic and the outer membranes. Possible explanations for the requirement for the aspartate residue in pullulanase secretion are discussed.     

Comparison of plasma membranes and endoplasmic reticulum fractions obtained from whole white adipose tissue and isolated adipocytes.

The influence of the mode of preparation upon some of the characteristics of white adipose tissue plasma membranes and microsomes has been reported. Plasma membrane fractions prepared from mitochondrial pellet were shown to have higher specific activities of (Mg2+ + Na+ + K+)-ATPase than plasma membranes originating in crude microsomes. Isolation of fat cells by collagenase treatment was found to result in a decrease in specific activity of the plasma membrane enzymes; in plasma membranes prepared from isolated fat cells, the specific activity values obtained for (Mg2+ + Na+ +k+)-ATPase and 5'-nucleotidase were only 42% and 6.3% respectively of those obtained in plasma membranes prepared from whole adipose tissue. Purification of whole adipose tissue crude microsomes by hypotonic treatment caused extensive solubilization of the endoplasmic reticulum marker enzymes, NADH oxidase and NADPH cytochrome c reductase. The lability of endoplasmic reticulum marker enzymes, however, was found to be greatly diminished in the preparations from isolated fat cells. The possibility that NADH oxidase and NADPH cytochrome c reductase activities found in the plasma membranes are microsomal enzymes adsorbed by the plasma membranes is discussed. The peptide patterns as well as the NADH oxidase and NADPH cytochrome c reductase activity patterns of plasma membranes and purified microsomes were compared by means of sodium dodecyl sulfate or Triton X-100 polyacrylamide gel electrophoresis.     

Fractionation of membrane vesicles from coliphage M13-infected Escherichia coli.

Membrane vesicles were prepared by osmotic lysis of spheroplasts from M13-infected Escherichia coli. Reduced nicotinamide adenine dinucleotide (NADH) oxidase (reduced NAD: oxidoreductase, EC 1.6.99.3) and Mg2+-Ca2+-activated adenosine triphosphatase (ATP phosphohydrolase, EC 3.6.1.3), which are normally localized to the inner surface of the cytoplasmic membrane, were 50% acceesible to their polar substrates in these vesicles. The major coat protein of coliphage M13 is also bound to the cytoplasmic membrane (prior to phage assembly) but with its antigenic sites exposed to the exterior of the cell. Antibody to M13 coat protein was used to fractionate membrane vesicles. Neither agglutinated nor unagglutinated vesicles had altered NADH oxidase and adenosine triphosphatase specific activities. This is inconsistent with such vesicles being a mixture of correctly oriented and completely inverted membrane sacs and suggests that NADH oxidase, adenosine triphosphatase, M13 coat protein, or all three proteins rearrange during vesicle preparation.     

A Circulating Form of NADH Oxidase Activity Responsive to the Antitumor Sulfonylurea N-4-(methylphenylsulfonyl)-N′-(4-chlorophenyl)urea (LY181984) Specific to Sera from Cancer Patients

Our laboratory has described a drug-responsive NADH oxidase activity of the external surface of the plasma membrane of HeLa and other cancer cells, but not from normal cells, that was shed into media conditioned by the growth of cancer cells such as HeLa. The shed form of the activity exhibited the same drug responsiveness as the plasma membrane-associated form. In this study, sera from tumor-bearing and control rats, cancer patients, normal volunteers, and patients with diseases other than cancer were collected and assayed for a cancer-specific form of NADH oxidase responsive to the antitumor sulfonylurea N-(4-methylphenylsulfonyl)-N-(4-chlorophenyl)urea (LY181984). With sera from tumor-bearing rats and cancer patients, LY181984 added at a final concentration of 1 M either inhibited or stimulated the activity. With sera from control rats, normal volunteers, or patients with disorders other than cancer, the drug was without effect on the NADH oxidase activity of the sera. The activity altered by the antitumor sulfonylurea was present both in freshly collected sera and in sera stored frozen. Inhibition was half maximal at about 30 nM LY181984. The sulfonylurea-altered activity was found in sera of nearly 200 cancer patients including patients with solid cancers (e.g., breast, prostate, lung, ovarian) and with leukemias and lymphomas. We postulate that the serum presence of the antitumor sulfonylurea-responsive NADH oxidase represents an origin due to shedding from the patient's cancer. If so, the antitumor-responsive NADH oxidase would represent the first reported cell surface change universally associated with all forms of human cancer.     

Localization of Membrane Proteins in the Cyanobacterium Synechococcus sp. PCC7942 (Radial Asymmetry in the Photosynthetic Complexes)

Localization of membrane proteins in the cyanobacterium Synechococcus sp. PCC7942 was determined by transmission electron microscopy utilizing immunocytochemistry with cells prepared by freeze-substitution. This preparation procedure maintained cellular morphology and permitted detection of cellular antigens with high sensitivity and low background. Synechococcus sp. PCC7942 is a unicellular cyanobacterium with thylakoids organized in concentric layers toward the periphery of the cell. Cytochrome oxidase was localized almost entirely in the cytoplasmic membrane, whereas a carotenoprotein (P35) was shown to be a cell wall component. The major photosystem II (PSII) proteins (D1, D2 CP43, and CP47) were localized throughout the thylakoids. Proteins of the Cyt b6/f complex were found to have a similar distribution. Thylakoid luminal proteins, such as the Mn-stabilizing protein, were located primarily in the thylakoid, but a small, reproducible fraction was found in the outer compartment. The photosystem I (PSI) reaction center proteins and the ATP synthase proteins were found associated mostly with the outermost thylakoid and with the cytoplasmic membrane. These results indicated that the photosynthetic apparatus is not evenly distributed throughout the thylakoids. Rather, there is a radial asymmetry such that much of the PSI and the ATPase synthase is located in the outermost thylakoid. The relationship of this structure to the photosynthetic mechanism is discussed. It is suggested that the photosystems are separated because of kinetic differences between PSII and PSI, as hypothesized by H.-W. Trissl and C. Wilhelm (Trends Biochem Sci [1993] 18:415-419).     

Inhibitory Effect of Ellagitannin Metabolites on IgE-Mediated Allergic Responses in RBL-2H3 Cells

A flavoprotein functional as an NADH oxidase has NADH peroxidase activity in the presence of free-FAD. The NADH peroxidase activity was observed in cell free extracts from aerobically grown cells in the presence of free FAD. The enzyme that has this NADH peroxidase activity was purified to homogeneity, and had exactly the same properties as the NADH oxidase.     

The intramitochondrial location of cytochrome c peroxidase in wild-type and petite Saccharomyces cerevisiae

Cytochemical and ultrastructural analysis of wild-type cells of Saccharomyces cerevisiac, grown aerobically in a glucose-limited chemostat, shows that cytochrome c peroxidase is localized between the membranes of the cristae, that is, in the intracristal space. This enzyme is thus positioned appropriately within the organelle to act as an alternate terminal oxidase for the respiratory chain. The proximity of the peroxidase to major sites of generation of its two substrates may account for the small leakage of hydrogen peroxide from yeast mitochondria, as compared with the larger outflow from mammalian mitochondria.In the cytoplasmic petite mutant, gross distortion of promitochondrial membrane arrangement is evident. Nevertheless, cytochrome c peroxidase activity is present in the same amounts as is found in wildtype cell, and is localized predominantly within annuli of membrane which constitute the promitochondria in these cells.No unequivocal evidence was obtained for the localization of catalase in microbodies or other organelles in either wild-type or petite cells.     

Analysis of the respiratory chain in Ethanologenic Zymomonas mobilis with a cyanide-resistant bd-type ubiquinol oxidase as the only terminal oxidase and its possible physiological roles

The respiratory chain of the ethanologenic bacterium Zymomonas mobilis was investigated, in which the pyruvate-to-ethanol pathway has been demonstrated to be mainly responsible for NADH oxidation and the tricarboxylic acid cycle is incomplete. Membranes from cells cultivated under aerobic or anaerobic growth conditions showed dehydrogenase and oxidase activities for NADH, D-lactate and D-glucose and ubiquinol oxidase activity. Intriguingly, the NADH oxidase activity level of membrane fractions from cells grown aerobically was found to be higher than that of membrane fractions from Escherichia coli or Pseudomonas putida grown aerobically, indicating a crucial role of the respiratory chain in NADH oxidation in the organism. Cyanide-resistant terminal oxidase activity was observed and appeared to be due to a bd-type ubiquinol oxidase as the only terminal oxidase encoded by the entire genome. The terminal oxidase with a relatively strong ubiquinol oxidase activity exhibited remarkably weak signals of cytochrome d. Considering these findings and the presence of a type-II NADH dehydrogenase but not a type-I, a simple respiratory chain that generates less energymay have evolved in Z. mobilis.     

The NADH oxidase activity of the plasma membrane of synaptosomes is a major source of superoxide anion and is inhibited by peroxynitrite

Plasma membrane vesicles from adult rat brain synaptosomes (PMV) have an ascorbate-dependent NADH oxidase activity of 35-40 nmol/min/(mg protein) at saturation by NADH. NADPH is a much less efficient substrate of this oxidase activity, with a Vmax 10-fold lower than that measured for NADH. Ascorbate-dependent NADH oxidase activity accounts for more than 90% of the total NADH oxidase activity of PMV and, in the absence of NADH and in the presence of 1 mm ascorbate, PMV produce ascorbate free radical (AFR) at a rate of 4.0 +/- 0.5 nmol AFR/min/(mg protein). NADH-dependent *O2- production by PMV occurs with a rate of 35 +/- 3 nmol/min/(mg protein), and is a coreaction product of the NADH oxidase activity, because: (i) it is inhibited by more than 90% by addition of ascorbate oxidase, (ii) it is inhibited by 1 micro g/mL wheat germ agglutinin (a potent inhibitor of the plasma membrane AFR reductase activity), and (iii) the KM(NADH) of the plasma membrane NADH oxidase activity and of NADH-dependent *O2- production are identical. Treatment of PMV with repetitive micromolar ONOO- pulses produced almost complete inhibition of the ascorbate-dependent NADH oxidase and *O2- production, and at 50% inhibition addition of coenzyme Q10 almost completely reverts this inhibition. Cytochrome c stimulated 2.5-fold the plasma membrane NADH oxidase, and pretreatment of PMV with repetitive 10 microm ONOO- pulses lowers the K0.5 for cytochrome c stimulation from 6 +/- 1 (control) to 1.5 +/- 0.5 microm. Thus, the ascorbate-dependent plasma membrane NADH oxidase activity can act as a source of neuronal.O2-, which is up-regulated by cytosolic cytochrome c and down-regulated under chronic oxidative stress conditions producing ONOO-.     

Inhibition of plasma membrane NADH oxidase activity and growth of HeLa cells by natural and synthetic retinoids

Several retinoids, both natural and synthetic, were evaluated for their ability to modulate NADH oxidase activity of plasma membranes of cultured HeLa cells and the growth of HeLa cells in culture. Both NADH oxidase activity and the growth of cells were inhibited by the naturally-occurring retinoids all trans-retinoic acid (tretinoin) and retinol as well as by the synthetic retinoids, trans-acitretin, 13-cis-acitretin, etretinate and arotonoid ethylester (Ro 13-6298). For all retinoids tested, inhibition of NADH oxidase activity and inhibition of growth were correlated closely. With tretinoin, etretinate and arotonoid ethylester, NADH oxidase activity and cell growth were inhibited in parallel in proportion to the logarithm of retinoid concentration over the range of concentrations 10-8 to 10-5 M. Approximately 70% inhibition of both NADH oxidase activity and growth was reached at 10 µM. With retinol, trans-acitretin and 13-cis-acitretin, inhibition of NADH oxidase activity and growth also were correlated but maximum inhibition of both was about 40% at 10 µM. The possibility is suggested that inhibition of the plasma membrane NADH oxidase activity by retinoids may be related to their mechanism of inhibition of growth of HeLa cells in culture. (Mol Cell Biochem 166: 101-109, 1997)     

Differential response of the NADH oxidase of plasma membranes of rat liver and hepatoma and HeLa cells to thiol reagents

NADH oxidase activity of plasma membranes from rat hepatoma and HeLa cells responded to thiol reagents in a manner different from that of plasma membranes of liver. Specifically, the NADH oxidase activity of plasma membranes of HeLa cells was inhibited by submicromolar concentrations of the thiol reagentsp-chloromercuribenzoate (PCMB),N-ethylmaleimide (NEM), or 5,5-dithiobis-(2-nitrophenylbenzoic acid) (DTNB), whereas that of the rat liver plasma membranes was unaffected or stimulated over a wide range of concentrations extending into the millimolar range. With some hepatoma preparations, the NADH oxidase activity of hepatoma plasma membranes was stimulated rather than inhibited by PCMB, whereas with all preparations of hepatoma plasma membranes, NEM and DTNB stimulated the activity. In contrast, NADH oxidase activity of rat liver plasma membrane was largely unaffected over the same range of PCMB concentrations that either stimulated or inhibited with rat hepatoma or HeLa cell plasma membranes. Dithiothreitol and glutathione stimulated NADH oxidase activity of plasma membranes of rat liver and hepatoma but inhibited that of HeLa plasma membranes. The findings demonstrate a difference between the NADH oxidase activity of normal rat liver plasma membranes of rat hepatoma and HeLa cell plasma membranes in addition to the differential response to growth factors and hormones reported previously (Brunoet al., 1992). Results are consistent with a structural modification of a NADH oxidase activity involving thiol groups present in plasma membranes of rat hepatoma and HeLa cells but absent or inaccessible with plasma membranes of rat liver.     

Isolation of sea urchin embryo cell surface membranes on polycationic beads

Summary Blastula cell surface membranes of the sea urchin, Strongylocentrotus purpuratus, were isolated on polycationic beads by a method modified from Jacobson and Branton (1977) and Jacobson (1980). This study represents the first application of this procedure to an embryonic system. Embryo cells were attached to polylysine-coated polyacrylamide beads and lysed, leaving the embryo cell surface membranes still attached to the beads, and cytoplasmic particles were washed free of the exposed inner surfaces of the membranes. Cell surface membrane sheets were desorbed from the beads and collected by centrifugation. Approximately 8% and 5% of the cell surface membranes of dissociated embryo cells were recovered on the beads and in the membrane pellet, respectively. Specific activities of [³H]concanavalin A-binding and of the cell surface marker enzymes, alkaline phosphatase and Na⁺/K⁺ ATPase, were 16-, 19-, and 32-fold higher, respectively, in the cell surface membrane fraction than in the embryo cell homogenate. Membranes were relatively free of cytoplasmic contaminants as judged from electron micrographs and enzyme analysis. Activities in the membrane fraction of the cytoplasmic marker enzymes, cytochrome c oxidase, catalase, acid phosphatase, NADP- and NADPH-cytochrome c reductase, and acetylcholinesterase, were substantially less than homogenate levels. The entire procedure can be completed in 4 h. Since this cell surface membrane isolation technique relies only on the tendency of a negatively charged cell to adhere to a positively charged surface, it is less likely than most other methods to exhibit species and developmental stage specificity and should prove useful in the study of the developmental role of embryonic stage-specific membrane components.     

A sodium-stimulated membrane-bound fumarate reductase system in Bacteroides amylophilus

Membrane vesicles derived from whole cells of the strictly anaerobic rumen bacterium Bacteroides amylophilus exhibited fumarate reductase activity with NADH, FADH₂, FMNH₂, or reduced viologens as electron donors. The fumarate reductase system is most likely localized on the cytoplasmic side of the plasma membrane. Cytochromes and menaquinone were not detectable.The NADH-dependent activity was inactivated by oxygen, an endogenous protease, and by irradiation at 254 nm. The electron transport inhibitor HpHOQnO and Zn²⁺ were identified as strong inhibitors of the fumarate reductase reaction. Two types of functional SH-groups might be operative in this system as probed by ClHgSO₃H. The oxidation of NADH by fumarate was stimulated by low concentrations of Na⁺.Concentrations of Na⁺ in the range of 4 to 30 mM had a pronounced influence on growth rate and cell yield of B. amylophilus. In the presence of 1 mM NaCl growth was observed only after a lag-period of 15 h.Abbreviations ClHgSO₃H 4-chloromercuriphenylsulfonate - DTE dithioerythritol - Hepes N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - HpHOQnO 2-n-heptyl-4-hydroxyquinoline-N-oxide - NoHOQnO 2-n-nonyl-4-hydroxyquinoline-N-oxide - PMSF phenylmethylsulfonylfluoride - Tris tris(hydroxymethyl)-aminomethane Dedicated to Prof. N. Pfennig on the occasion of his 60th birthday Present address: Heinz-Georg Wetzstein, Bayer AG, EP-AQ-QL, E39, D-5090 Leverkusen, FRG