Rapid isolation of nucleoli from detergent purified nuclei of various tumor and tissue culture cells

A rapid isolation procedure of nucleoli from detergent purified nuclei of some tumor and tissue culture cells is described. The procedure makes use of a non-ionic detergent, Nonidet P40 and sodium deoxycholate to purify nuclei followed by the addition of Ca²⁺ or Mg²⁺ to strengthen the nucleoli against sonication. Enzymatically active (with respect to nucleolar RNA polymerase) nucleoli containing undegraded nucleolar RNAs may be isolated from a mouse hepatoma MH134, Ehrlich ascites tumor, HeLa cells, L cells and C3H2K cells with this procedure.     

Phosphorylation of a nucleolus-specific phosphoprotein in vitro.

The cellular site and characteristics of the phosphorylation of a nucleolus-specific phosphoprotein (molecular weight, 120 000) in mouse ascites tumor cells were studied. The phosphoprotein was strongly labeled with ³²P when the isolated nucleoli were incubated with [γ-³²P]ATP in vitro. This phosphoprotein, and protein kinase for the protein phosphorylation were both purified from 0.3 M KCl soluble protein fraction of the nucleoli by hydroxylapatite and phosphocellulose column chromatographies. It was found that phosphorylation of the nucleolus-specific phosphoprotein was catalyzed selectively by a guanosine 3:5-monophosphate-dependent protein kinase in the nucleoli and the reaction product was the same phosphoprotein as the substrate used.     

DNA polymerase in nucleoli isolated from Ehrlich ascites tumor cells

DNA replication was investigated in nucleoli isolated from Ehrlich ascites tumor cells. DNA synthesis was dependent on the presence of the four deoxynucleoside triphosphates and magnesium, but was reduced in the presence of ATP. The pH optimum for DNA replication was 8.5 to 9.0 N-Ethyl-maleimide reduced the reaction significantly. DNA synthesis occurred on nucleolar chromatin and was stimulated by treatment of the nucleoli with a small amount of DNase I. Addition of exogenous DNA to the reaction mixture significantly stimulated [³H]dTMP incorporation.     

Stimulation of RNA synthesis in nucleoli by inorganic phosphate in vitro

The biological function of a phosphoprotein with a molecular weight of 120 000 daltons localized in the nucleoli of mouse ascites sarcoma cells was studied by examining the effect of the phosphoprotein on RNA synthesis in the nucleoli in vitro. The phosphoprotein did not stimulate ribosomal RNA synthesis in vitro. During this study, it was observed that inorganic phosphate enhanced RNA synthesis in the nucleoli in vitro in the presence of either Mn²⁺ or Mn²⁺ plus Mg²⁺ as divalent cations. Inorganic phosphate stimulated the rate of the chain elongation reaction in RNA synthesis.     

Isolation and characterization of different-sized nucleoli from Ehrlich ascites tumor cells : Evidence of different nucleolar ribosomal cistrons

A procedure was developed for isolation of variously sized nucleoli in order to study the mechanism of nucleolar formation from multiple nucleolar organizers and to compare the compositions of different-sized nucleoli from Ehrlich ascites tumor cells. Relatively small nucleoli and large nucleoli from Ehrlich ascites tumor cells were separated by centrifugation at 400 g for 5 min in a layer of 0.34 M sucrose over 0.88 M sucrose. Small nucleoli remained in the 0.34 M sucrose layer while the large nucleoli accumulated in the 0.88 M sucrose.Three fractions, provisionally named small, intermediate and large nucleoli, containing 0.33, 0.41 and 0.84 pg DNA/nucleolus, respectively, were separated. Unfractionated nucleoli contained 0.59 pg DNA/nucleolus. The RNA content also increased with the size of the nucleolus and no significant difference was observed in the RNA/DNA ratios in the three fractions. Large nucleoli incorporated more [³H]uridine and [³²P]orthophosphate into RNA than did small nucleoli, but the base compositions of the RNAs extracted from the different-sized nucleoli were similar. No significant fragmentation occurred on sonication of large nucleoli for 3 min, so the observed difference in the DNA contents was not due to mechanical damage of the nucleoli.The DNAs of these different-sized nucleoli were analysed on CsCl gradients. The nucleoli contained similar percentages of satellite DNA (20–22%) which were also similar to those of total, unfractionated nucleoli. Approx. 10% of the extranucleolar DNA is satellite DNA—thus the nucleolar fractions were probably not appreciably contaminated with extranucleolar DNA. The DNA of small nucleoli contained a slightly lower percentage (0.058%) of ribosomal cistrons than large nucleoli (0.081%). This means that the higher content of DNA in the large nucleoli is not merely due to longer sized chromatin with extra regions of the vicinity of nucleolar organizers. Thus these results suggest that the total content of ribosomal cistrons/nucleolus is roughly proportional to the DNA content of the nucleoli, at least in Ehrlich ascites tumor cells. Namely, the number of ribosomal cistrons per nucleolus for small, intermediate and large nucleoli is 40, 60 and 130, respectively.     

Two-dimensional electrophoresis of proteins of citric acid nuclei prepared with aid of a Tissumizer

Nuclei prepared from normal rat liver and Novikoff hepatoma ascites cells with the aid of a Tissumizer® in media containing 0.5 and 5 % citric acid were compared on the basis of electron microscopic appearance, DNA, RNA and protein content. Electron microscopy revealed better preservation of the nucleolar and nuclear morphology in the nuclei isolated in 0.5 % citric acid than in nuclei isolated in 5 % citric acid. Moreover, losses of protein and DNA from liver nuclei prepared by the sucrose-Ca²⁺ procedure were significantly less in nuclei treated with 0.5 % citric acid than in nuclei treated with 5 % citric acid. The preservation of nuclear morphology and the retention of the majority of types of nuclear protein were significantly better with the procedure using 0.5 % citric acid than with the procedure using 5 % citric acid. The 5 % citric acid treatment was found to alter nuclear morphology and extract specific nuclear proteins, as demonstrated by two-dimensional polyacrylamide gel electrophoresis of the proteins.     

Calcium transport by ehrlich ascites cell mitochondria in vitro and in situ

The rate, maximum extent of accumulation, and passive release of Ca²⁺ by mitochondria within Ehrlich ascites tumor cells treated with digitonin and by isolated tumor mitochondria have been compared. The mitochondrial protein content of Ehrlich cells was determined by cytochrome and cytochrome oxidase analyses. The Ca²⁺ uptake rate in situ is approximately one-half the rate in vitro whereas maximum Ca²⁺ accumulation by mitochondria within the cell is about twice the value for isolated mitochondria. When isolated tumor mitochondria were supplemented with exogenous ATP the maximum uptake (approximately 3.0 μeq Ca²⁺/mg protein) was about the same as in situ. Adenine nucleotides retained in digitonized cells may account for the observed differences. The rate of uncoupler stimulated Ca²⁺ release from mitochondria within the cell (ca. 10 neq Ca²⁺/min · mg mitochondrial protein for Ca²⁺ loads up to 800 neq Ca²⁺/mg protein) agrees exceptionally well with previous estimates for isolated tumor mitochondria. Therefore the capacity for extensive Ca²⁺ accumulation without uncoupling and attenuation of Ca²⁺ efflux are virtually the same in the cell as in vitro.     

Efficient degradationin vitro of all intermediate filament subunit proteins by the Ca2+-activated neutral thiol proteinase from Ehrlich ascites tumor cells and porcine kidney

Vimentin, desmin, glial fibrillary acidic protein, neurofilament triplet proteins, and a mixture of cytokeratins were digested with Ca²⁺-activated neutral thiol proteinase isolated from Ehrlich ascites tumor (EAT) cells and porcine kidney. All intermediate filament proteins were degraded by the proteinase, although with different rates and Ca²⁺ optima. These results are in part at variance with our previous statement that the Ca²⁺-activated proteinase from EAT cells is specific for vimentin and desmin.     

TRPC1 regulates calcium‐activated chloride channels in salivary gland cells

Calcium‐activated chloride channel (CaCC) plays an important role in modulating epithelial secretion. It has been suggested that in salivary tissues, sustained fluid secretion is dependent on Ca²⁺ influx that activates ion channels such as CaCC to initiate Cl^? efflux. However direct evidence as well as the molecular identity of the Ca²⁺ channel responsible for activating CaCC in salivary tissues is not yet identified. Here we provide evidence that in human salivary cells, an outward rectifying Cl^? current was activated by increasing [Ca²⁺]_i, which was inhibited by the addition of pharmacological agents niflumic acid (NFA), an antagonist of CaCC, or T16Ainh‐A01, a specific TMEM16a inhibitor. Addition of thapsigargin (Tg), that induces store‐depletion and activates TRPC1‐mediated Ca²⁺ entry, potentiated the Cl^? current, which was inhibited by the addition of a non‐specific TRPC channel blocker SKF96365 or removal of external Ca²⁺. Stimulation with Tg also increased plasma membrane expression of TMEM16a protein, which was also dependent on Ca²⁺ entry. Importantly, in salivary cells, TRPC1 silencing, but not that of TRPC3, inhibited CaCC especially upon store depletion. Moreover, primary acinar cells isolated from submandibular gland also showed outward rectifying Cl^? currents upon increasing [Ca²⁺]_i. These Cl^? currents were again potentiated with the addition of Tg, but inhibited in the presence of T16Ainh‐A01. Finally, acinar cells isolated from the submandibular glands of TRPC1 knockout mice showed significant inhibition of the outward Cl^? currents without decreasing TMEM16a expression. Together the data suggests that Ca²⁺ entry via the TRPC1 channels is essential for the activation of CaCC. J. Cell. Physiol. 9999: 2848–2856, 2015. © 2015 Wiley Periodicals, Inc.

     

ISOLATION AND PROPERTIES OF LIVER CELL NUCLEOLI

1. The significance of the term nucleolus has been discussed. 2. A detailed method for the isolation of nucleoli from already isolated rat or cat liver nuclei has been presented. 3. The presence of DNA in isolated liver cell nucleoli has been indicated by histochemical methods. 4. The percentages of DNA and RNA in the isolated nucleoli have been determined by chemical analysis. 5. The specific activities of aldolase, arginase, and catalase have been determined for two subnuclear fractions and for the isolated nucleoli of rat and cat liver, and the relative amounts of these enzymes in the same subnuclear fractions and nucleoli of rat liver have been measured. 6. The significance of the above findings has been discussed and consideration has been given to what types of isolated nuclei might best serve as starting material for the isolation of nucleoli. 7. A new hypothesis has been presented that nucleoli of the liver cell type may function primarily in furnishing (directly or indirectly) templates for the synthesis of the particular enzymes that must govern the chemistry of mitosis.     

Studies on the Cellular Pathway Involved in Assembly of the Embryonic Sea Urchin Spicule

Micromeres from the 16-cell stage sea urchin embryo were isolated and cultured in vitro in seawater containing 3% horse serum. Under these conditions these cells differentiate into spicule-forming, primary mesenchyme cells. To obtain insight into the route traveled by Ca²⁺ to form the pseudocrystalline spicule composed of CaCO₃ and matrix proteins, studies with various inhibitors were undertaken. Experiments with members of several different classes of Ca²⁺ channel blockers established that the Ca²⁺ utilized for spiculogenesis must be taken up by the cells. Moreover, studies using two agents that disrupt the endomembrane system, monensin and brefeldin A, showed that both blocked spicule formation. Based on these experiments, we conclude that extracellular Ca²⁺ must enter the primary mesenchyme cells prior to being deposited extracellularly as CaCO₃ and that this ion and/or the matrix proteins found in the spicule are routed through the secretory pathway that has been established to exist in a wide variety of other cell types.     

Activation of Calcium Signaling in Isolated Rat Hepatocytes Is Accompanied by Shape Changes of Microvilli

Preceding studies using the hamster insulinoma cell line, HIT, and isolated rat hepatocytes have shown that two essential components of the Ca²⁺signaling pathway, the ATP-dependent Ca²⁺store and the store-coupled Ca²⁺influx pathway, are both located in microvilli covering the surface of these cells. Microvilli-derived vesicles from both cell types exhibited anion and cation pathways which could be inhibited by anion and cation channel-specific inhibitors. These findings suggested that the microvillar tip compartment forms a space which is freely accessible for external Ca²⁺, ATP, and IP₃. The entry of Ca²⁺into the cytoplasm, however, is largely restricted by the microvillar core structure, the dense bundle of actin microfilaments acting as a diffusion barrier between the microvillar tip compartment and the cell body. Moreover, evidence has been presented that F-actin may function as ATP-dependent and IP₃-sensitive Ca²⁺store that can be emptied by profilin-induced depolymerization or reorganization [K. Lange and U. Brandt (1996)FEBS Lett.395, 137–142]. Here we demonstrate the tight connection between microvillar shape changes and the activation of the Ca²⁺signaling system in isolated rat hepatocytes. Using a combination of scanning electron microscopy (SEM) and fura-2 fluorescence technique, we confirmed a consequence of the “diffusion barrier” concept of Ca²⁺signaling: Irrespective of the type of the applied stimulus, activation of the Ca²⁺influx pathway is accompanied by changes in the structural organization of microvilli indicative of the loss of their diffusion barrier function. We further show that the cell surfaces of unstimulated hepatocytes isolated by either the collagenase or the EDTA perfusion technique are densely covered with microvilli predominantly of a short and slender type. Beside this rather uniformly shaped type of microvilli, a number of dilated surface protrusions were observed. Under these conditions the cells displayed the well known rather high basal [Ca²⁺]_iof 200–250 nMas repeatedly demonstrated for freshly isolated hepatocytes. However, addition of the serine protease inhibitor, phenylmethanesulfonyl fluoride (PMSF), to the cell suspension immediately after its preparation reduced the basal cytoplasmic Ca²⁺level to about 100 nM.Concomitantly, dilated surface protrusions disappeared, and cell surfaces exclusively displayed short, slender microvilli. Activation of the Ca²⁺signaling pathway by vasopressin, as well as by the IP₃-independent acting Ca²⁺store inhibitor, thapsigargin, was accompanied by a conspicuous shortening and dilation of microvilli following the same time courses as the respective increases of [Ca²⁺]_iinduced by the effectors. Furthermore, the abundance of the large form of surface protrusions on isolated hepatocytes positively correlated with the size of a cellular Ca²⁺/Fura-2 compartment which is rapidly depleted from Ca²⁺by extracellular EGTA. These findings support the postulated localization of the store-coupled Ca²⁺influx pathway in microvilli of HIT cells also for hepatocytes and are in accord with the notion of a cytoskeletal diffusion barrier regulating the flux of external Ca²⁺via the microvillar tip region in the cytoplasm.     

A nucleolus-specific phosphoprotein in mouse ascites tumor cells

Analysis of proteins in nucleoli and chromatin of mouse ascites tumor cells labeled with [³²P]orthophosphate by SDS-polyacrylamide gel electrophoresis showed that a highly radioactive protein was localized in the nucleoli. This protein was purified and the final preparation appeared as a single component on hydroxylapatite column chromatography with or without SDS. This protein was found to be a nucleolus-specific phosphoprotein with a molecular weight of 120 000. The phosphate moiety in this protein turned over very rapidly whereas the protein itself was stable. When the nucleoli were disrupted by EDTA treatment, this unique protein was found as a major protein constituent of the ultracentrifugal supernatant.     

Distribution of acetylated forms of nucleosomal histones in fractionated chromatin

Hyperacetylated chromatin was isolated from Ehrlich ascites tumor cells grown in n-butyrate containing medium and fractionated by mild digestion with deoxyribonuclease II and precipitation with MgCl₂. The most highly acetylated forms of histones H4 and H3 as well as the acetylated subspecies of H2B were found almost entirely associated with the putatively active Mg²⁺-soluble chromatin fraction. The Mg²⁺-insoluble fraction contained mainly mono- and diacetylated molecules of H4 and H3.     

The role of cytoplasmic [Ca] in glucose-induced inhibition of respiration and oxidative phosphorylation in Ehrlich ascites tumour cells: a novel mechanism of the Crabtree effect

The effect of Ca²⁺ on energy-coupling parameters of Ehrlich ascites carcinoma was studied in digitonin-permeabilized cells. In nominally Ca-free medium the permeabilized cells respond to the addition of ADP by increased oxygen uptake with externally added respiratory substrates (succinate or pyruvate), decrease of the mitochondrial membrane potential (Δψ) and alkalinization of the medium. This typical behaviour is drastically changed if Ca²⁺ is added. The subsequent addition of ADP induces neither State 3 respiration, nor decrease of Δψ, nor alkalinization of the medium, indicating a complete block of ATP synthesis. These effects are produced by both a single pulse of 100 μM Ca²⁺ and a preincubation for 2 min with 0.4–1.0 μM Ca²⁺. Preincubation of the cells with glucose or deoxyglucose prior to permeabilization makes them sensitive to Ca²⁺ concentrations as low as 0.3 μM. In view of the previous finding that glucose and deoxyglucose produce an increase of cytoplasmic [Ca²⁺] in Ehrlich ascites cells [Teplova VV. Bogucka K. Czyż A. Evtodienko YuV. Duszyński J. Wojtczak L. (1993) Biochem. Biophys. Res. Commun., 196, 1148–1154; Czyż A. Teplova VV. Sabała P. Czarny M. Evtodienko YuV. Wojtczak L. (1993) Acta Biochim. Polon., 40, 539–544], the present results suggest that cytoplasmic Ca²⁺ plays a crucial role in the Crabtree effect.     

Retention of calcium by mitochondria isolated from Ehrlich ascites tumor cells

Tightly coupled mitochondria isolated from Ehrlich ascites tumor cells accumulate and retain high concentrations of Ca²⁺ in the presence of ATP for periods up to at least 20 min at 25 °C. The presence of inorganic phosphate up to 20 mm does not prevent such Ca²⁺ retention. The tumor mitochondria accumulate Ca²⁺ in the presence of succinate as an energy source but lose the Ca²⁺ after 1–2 min. Addition of ATP (K_m approx 1 mm) to the incubation medium after Ca²⁺ release, induces reaccumulation of the ion. Thus, the ability of the tumor mitochondria to retain Ca²⁺ differs markedly from that of rat liver mitochondria and is seen as being of potential biological significance to the unique metabolic behavior of the ascites tumor cells.     

Antigen-Specific Proliferative Response of Peritoneal Exudate Lymphocytes Primed with Antigen and Bacterial Lipopolysaccharide: The Roles of Ia+ Accessory Cells and IL-2

In vitro antigen-specific proliferation was investigated in a lymphocyte population that had been taken from the peritoneal exudate cells (PEC) of C3H/HeN mice (Ia^k) primed in vivo with both bacterial lipopolysaccharide (LPS) and horse red blood cells (HRBC) and had been purified by passage through a nylon fiber column (Nfc). The proliferative response of the Nfc-passed lymphocytes primed with HRBC and LPS [T(HRBC + LPS) cells] depended on the dose of antigen in the cultures, and the response was higher than that of cells prepared from mice primed with HRBC alone [T(HRBC) cells]. No response was seen in the cells prepared from the LPS-primed mice [T(LPS) cells] or normal mice [T(N) cells]. The response of the T(HRBC) cells was abolished by previous treatment of the cells with anti-Ia^k antibody and complement (C), whereas the response of the T(HRBC + LPS) cells was retained after the same treatment, indicating that the Ia^– T(HRBC + LPS) cells can proliferate in response to antigen in spite of Ia+ accessory cell-depletion. Supernatants from the cultures of Ia^– T(HRBC + LPS) cells in the presence of HRBC showed abundant IL-2 activity, while those of Ia^– T(HRBC) cells did not. The IL-2 should be produced by the L3T4 cell population in T(HRBC + LPS) cells in response to antigen, since the previous treatment of the cells with anti-L3T4 antibody and C abrogated the production. On the other hand, the Ia^– T(HRBC + LPS) cells as well as the Ia^– T(LPS) cells could respond to IL-2 dose-dependently when recombinant IL-2 was added into the cultures, but the response of Ia^– T(HRBC) cells to IL-2 was very weak. The cell population responding to IL-2 in the T(HRBC + LPS) cells as well as T(LPS) cells must be AsGM1-positive or natural killer (NK) cells, since previous treatment of the cells with anti-AsGM1 antibody and C abrogates the response. Together these results suggest that L3T4 lymphocytes capable of producing IL-2 in response to HRBC antigen without Ia⁺ accessory cells are generated in the PEC of the mice after priming with LPS and antigen together, and the IL-2 produced by the L3T4 lymphocytes induces the proliferation of the LPS-primed AsGM1+ cells.     

Characterization of an enzyme from Phaseolus vulgaris seeds which hydroxylates GAi to GA8

Hydroxylation of gibberellin-[³H] A₁ (GA₁-[³H]) to GA₈-[³H] by the 95000 g supernatant fluid from imbibed bean seeds required Fe²⁺ or Fe³⁺ and O₂ but was insensitive to CO. The hydroxylating enzyme has a sedimentation coefficient of 4·5 S, and was precipitated by (NH₄)₂SO₄ at 35–60% saturation. This hydroxylase was specific for GA₁ and did not hydroxylate either pseudo-GA₁-[³H] or 16-ketoGA₁-[³H]. Virtually all hydroxylase activity was localized in the cotyledons.     

Phorbol esters and diacylglycerol inhibit vasopressin-induced increases in cytoplasmic-free Ca and Ca efflux in Swiss 3T3 cells

Vasopressin increased intracellular free calcium concentration [Ca²⁺]_i in quin-2-loaded quiescent Swiss 3T3 cells. This effect of vasopressin was rapidly inhibited by biologically active tumour promoters including phorbol dibutyrate (PBt₂) and by the synthetic diacylglycerol 1-oleoyl-2-acetyl-glycerol (OAG). Prolonged pretreatment of Swiss 3T3 cells with PBt₂ causes a loss of protein kinase C activity (Rodriguez-Pena & Rozengurt, Biochem biophys res commun 120 (1984) 1053) [28]. This pretreatment abolished the inhibition by PBt₂ or OAG of vasopressin-mediated increases in Ca²⁺]_i. Vasopressin also stimulated ⁴⁵Ca²⁺ efflux from cells pre-loaded with the isotope. This effect of the hormone was also inhibited by PBt₂. Prolonged pretreatment with PBt₂ prevented the inhibition of vasopressin-stimulated ⁴⁵Ca²⁺ release by PBt₂. Thus, protein kinase C stimulation inhibits vasopressin-mediated increases in [Ca²⁺]_i and ⁴⁵Ca²⁺ efflux apparently by blocking the increased release of Ca²⁺ from an intracellular store caused by the hormone. These findings suggest that activation of protein kinase C may act as a feedback inhibitor to modulate ligand-mediated increases in [Ca²⁺]_i.