GLYCOLYSIS IN RAT PERITONEAL MAST CELLS

Glycolytic activity of rat peritoneal mast cells has been measured by the Cartesian ampulla diver technique. The rates of anaerobic glycolysis, expressed as CO₂ expelled from a bicarbonate medium, are 1.70 x 10^-6 µl and 1.43 x 10^-6 µl per cell per hour with and without glucose, respectively. The aerobic glycolysis rate in the presence of glucose, assuming the respiratory quotient to be 1, is 0.93 x 10^-6 µl CO₂ per cell per hour. It is pointed out that the anaerobic and non-respiratory aerobic carbon dioxide production by mast cells is much higher than the respiratory oxygen uptake reported previously. These values have been interpreted in terms of glucose utilization.     

Cholinesterase activity per unit surface area of conducting membranes

According to theory, the action of acetylcholine (ACh) and ACh-esterase is essential for the permeability changes of excitable membranes during activity. It is, therefore, pertinent to know the activity of ACh-esterase per unit axonal surface area instead of per gram nerve, as it has been measured in the past. Such information has now been obtained with the newly developed microgasometric technique using a magnetic diver. (1) The cholinesterase (Ch-esterase) activity per mm² surface of sensory axons of the walking leg of lobster is 1.2 x 10^-3 µM/hr. (σ = ± 0.3 x 10^-3; SE = 0.17 x 10^-3); the corresponding value for the motor axons isslightly higher: 1.93 x 10^-3 µM/hr. (σ = ± 0.41 x 10^-3; SE = ± 0.14 x 10^-3). Referred to gram nerve, the Ch-esterase activity of the sensory axons is much higher than that of the motor axons: 741 µM/hr. (σ = ± 73.5; SE = ± 32.6) versus 111.6 µM/hr. (σ = ± 28.3; SE = ± 10). (2) The enzyme activity in the small fibers of the stellar nerve of squid is 3.2 x 10^-4 µM/mm²/hr. (σ = ± 0.96 x 10^-4; SE = ± 0.4 x 10^-4). (3) The Ch-esterase activity per mm² surface of squid giant axon is 9.5 x 10^-5 µM/hr. (σ = ± 1.55 x 10^-5; SE = ± 0.38 x 10^-5). The value was obtained with small pieces of carefully cleaned axons after removal of the axoplasm and exposure to sonic disintegration. Without the latter treatment the figurewas 3.85 x 10^-5 µM/mm²/hr. (σ = ± 3.24 x 10^-5; SE = ± 0.93 x 10^-5). The experiments indicate the existence of permeability barriers in the cell wall surrounding part of the enzyme, since the substrate cannot reach all the enzyme even when small fragments of the cell wall are used without disintegration. (4) On the basis of the data obtained, some tentative approximations are made of the ratio of ACh released to Na ions entering the squid giant axon per cm² per impulse.     

PRODUCTION AND CHARACTERIZATION OF MULTIPLE-LAYERED POPULATIONS OF ANIMAL CELLS

Dense populations containing 129 x 10⁶ Jensen sarcoma, 134 x 10⁶ DON Chinese hamster, 28.9 x 10⁶ WI-38 human diploid, 61.8 x 10⁶ HEp-2 human carcinoma, and 67.4 x 10⁶ WISH human amnion cells were produced from dilute inocula, 0.85 to 5.33 x 10⁶, in 7 to 8 days in a perfusion system using replicate T-60 flasks. Perfusion rates as high as 560 ml medium/day/T-60 were required to maintain pH (to ca ±0.1 unit) and adequate nutrient supplies. The cell densities encountered are described by the term "monolayer equivalents" (M.E.), defined as number of cells per culture divided by number of cells in a monolayer. The M.E.'s for T-60 cultures containing unusually dense populations of 40 x 10⁶ WI-38 and 250 x 10⁶ DON cells (9-day perfusion) were 5 and 17, respectively, and numbers of cells in illustrations of stained cross-sections of membranes from these cultures were in excellent agreement. Threshold M.E.'s exist below which proliferation is the chief cellular activity and above which one or more cell functions may predominate even though proliferation persists. Cellular nutrition and metabolism may change with changes in M.E., as illustrated in different patterns of glutamic acid, proline, and glycine utilization or production in dense vs. dilute WI-38 cell populations. The results indicated that the role of contact inhibition phenomena in arresting cellular proliferation was diminished in perfusion system environments.     

STUDIES IN HISTOCHEMISTRY : LVII. Determination of the Total Dry Mass of Human Erythrocytes by Interference Microscopy and X-ray Microradiography

The total dry mass of human erythrocytes was determined by both interference microscopy and x-ray microradiography. The determination of mass per unit area, and calculation of total dry mass per cell were simplified by changing the shape of the cells to spheres which were then flattened to discs of constant thickness when smeared on glass slides for measurement of fixed cells by interferometry, and to oblate spheroids when smeared on parlodion-coated slides for measurement of fixed cells by x-ray absorption. From x-ray measurements of 100 smeared and alcohol-fixed cells a mean dry mass per cell of 33.7 x 10^-12 g was obtained. Interference measurements of 100 fresh cells suspended in isotonic saline gave a mean value of 32.4 x 10^-12 g while interference measurement of 100 smeared and alcohol-fixed cells gave a mean value of 30.8 x 10^-12 g. The first two values compare well with a mean corpuscular hemoglobin of 31.2 x 10^-12 g, obtained from determinations of erythrocyte count and hemoglobin, since 95 per cent of the dry mass of the cell is hemoglobin. The difference in interference values between the fixed and fresh cells is possibly due to a difference between the specific refractive increment of alcohol-denatured hemoglobin and that of the unmodified substance. The value for the latter was used since that of the former is unknown.     

MITOTIC AND NONMITOTIC MULTIPLE-LAYERED PERFUSION CULTURES

Cell types in addition to those previously described (Kruse et al. 1963. J. Nat. Cancer Inst. 31:109; Kruse and Miedema. 1965. J. Cell Biol. 27:273) were found to form multiple-layered cultures by perfusion-culture technique. Dense populations containing 43 x 10⁶ embryonic rat muscle (NF-ER) cells, 23 x 10⁶ diploid human tonsillar (NF-JAM) cells, 77 x 10⁶ human pleural effusion isolate (RPMI 2650) cells, 35 x 10⁶ embryonic diploid human lung (Flow 2000) cells, 21 x 10⁶ bovine lung (FB4BM) cells, 108 x 10⁶ bat lung (Tb1Lu) cells, and 81 x 10⁶ SV-40 virus-transformed embryonic diploid human lung (WI-38VA13A) cells were obtained in 6–14 days from dilute inocula in T-60 or T-75 flasks; these were equivalent to about 4, 3, 3, 4, 2, 4, and eight monolayers, respectively. Perfusion of an NF-ER culture for 6 wk with medium plus 10% whole calf serum yielded a cell density equivalent to 12 monolayers (140 x 10⁶ cells per T-75 flask). This culture exhibited random labeling of nuclei from bottom to top after pulsing for 90 min with thymidine-³H. Medium plus 0.1% serum maintained NF-JAM cultures at constant viable cell numbers with virtual absence of thymidine-³H labeling. Similar results were obtained with WI-38 cultures, but WI-38VA13A cells continued active DNA synthesis and mitosis in medium with 0.1% serum to form 16–20 layers of cells (191–239 x 10⁶ cells per T-75 flask) in 27 days. WI-38VA13A cells ceased proliferation and became nonviable rapidly in serumless medium.     

CORRELATED MORPHOMETRIC AND BIOCHEMICAL STUDIES ON THE LIVER CELL : I. Morphometric Model, Stereologic Methods, and Normal Morphometric Data for Rat Liver

The basic morphological properties of liver cells are defined in the form of a morphometric model to permit integrated quantitative characterization of functionally important parameters. Stereologic methods which allow efficient and reliable quantitative evaluation of sectioned liver tissue are presented. Material, obtained by a rigorous three-stage sampling procedure from five normal rat livers, is systematically subjected to this analysis at four levels of magnification. This yields quantitative data which are expressed as "densities," i.e. content per 1 ml of tissue, as "specific dimensions" related to 100 g body weight, and as absolute dimensions per average "mononuclear" hepatocyte. Base line data relating to the normal rat liver are presented for the entire spectrum of parameters. As examples, 1 ml of liver tissue contains 169 x 10⁶ hepatocyte nuclei, some 90 x 10⁶ nuclei of other cells, and 280 x 10⁹ mitochondria. Hepatocyte cytoplasm accounts for 77% of liver volume, and the mitochondria for 18%. The surface area of endoplasmic reticulum membranes in 1 ml of liver tissue measures 11 m² of which are ⅔ of the rough form carrying some 2 x 10¹³ ribosomes. The surface area of mitochondrial cristae in the unit volume is estimated at 6 m². The validity and applicability of the method are discussed, and the data are compared with available information from other studies.     

NUCLEAR GENE DOSAGE EFFECTS ON MITOCHONDRIAL MASS AND DNA

In order to assess the effect of nuclear gene dosage on the regulation of mitochondria we have studied serial sections of a set of isogenic haploid and diploid cells of Saccharomyces cerevisiae, growing exponentially in the absence of catabolite repression, and determined the amount of mitochondrial DNA per cell. Mitochondria accounted for 14% of the cytoplasmic and 12% of the total cellular volume in all cells examined regardless of their ploidy or their apparent stage in the cell cycle. The mean number of mitochondria per cell was 22 in the diploid and 10 in the haploids. The volume distribution appeared unimodal and identical in haploids and diploids. The mitochondrial DNA accounted for 12.6 ± 1.2% and 13.5 ± 1.3% of the total cellular DNA in the diploid and haploid populations, respectively. These values correspond to 3.6 x 10^-15 g, 2.2 x 10⁹ daltons, or 44 genomes (50 x 10⁶ daltons each) per haploid and twice that per diploid cell. On this basis, the average mitochondrion in these cells contains four mitochondrial genomes in both the haploid and the diploid.     

Titration of Photophosphorylation in Spinach Chloroplasts with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU)

The kinetics of the inhibition of photophosphorylation in chloroplasts from spinach (Spinacia oleracea) was investigated with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) in small concentration intervals, starting at 10^-7M. Plots of the reciprocal of photophosphorylation against concentration of DCMU gave essentially the same straight line with 2 mM nicotinamide adenine dinucleotide phosphate (NADP) together with saturating amounts of ferredoxin or with 4 mM K₃Fe(CN)₆ as the final acceptors for electrons. Practically complete inhibition was obtained at 3 x 10^-6M DCMU. With 0.1 mM flavin mononucleotide (FMN) and ferredoxin, the inhibition between 10^-7M and 10^-6M DCMU was a little slower than in the other two cases. At 10^-6M DCMU a break occurred to a new straight line in the plots, indicating that another reaction was inhibited. Total photophosphorylation without DCMU was about 77 μmol ATP per mg chlorophyll and hour. At the breaking point 20% remained, and inhibition was not complete even at 8 x 10^-6M DCMU. The inhibitor constant for the high-DCMU reaction was in the order of 2 x 10^-5M; for the low-DCMU reaction some complication made the “constant” appear negative. With phenazine methosulfate (PMS) added, DCMU was without effect on photophosphorylation. – As earlier shown by us, titration curves for intact cells of the microalga Scenedesmus show the break at 10^-6M DCMU; and above 6 x 10^-6M photophosphorylation in the algae is not further decreased by DCMU. The data are compared and their possible significance is discussed.     

Concentrative accumulation of choline by human erythrocytes

Influx and efflux of choline in human erythrocytes were studied using ¹⁴C-choline. When incubated at 37°C with physiological concentrations of choline erythrocytes concentrate choline; the steady-state ratio is 2.08 ± 0.23 when the external choline is 2.5 µM and falls to 0.94 ± 0.13 as the external concentration is raised to 50 µM. During the steady state the influx of choline is consistent with a carrier system with an apparent Michaelis constant of 30 x 10^-6 and a maximum flux of 1.1 µmoles per liter cells per min. For the influx into cells preequilibrated with a choline-free buffer the apparent Michaelis constant is about 6.5 x 10^-6 M and the maximum flux is 0.22 µmole per liter cells per min. At intracellular concentrations below 50 µmole per liter cells the efflux in the steady state approximates first order kinetics; however, it is not flux through a leak because it is inhibited by hemicholinium. Influx and efflux show a pronounced exchange flux phenomenon. The ability to concentrate choline is lost when external sodium is replaced by lithium or potassium. However, the uphill movement of choline is probably not coupled directly to the Na⁺ electrochemical gradient.     

Population data on benign and severe forms of X-linked muscular dystrophy

Summary Epidemiological data on Becker muscular dystrophy (BMD) and Duchenne muscular dystrophy (DMD) from a large sample of the Italian population are reported. For BMD the incidence rate was found to be 5.5x10^-5 liveborn males (lbm) and the prevalence rate, 13.1x10^-6; the mutation rate was estimated to be about 6.0x10^-6. For DMD the incidence and prevalence rates were found to be respectively 26x10^-5 lbm and 31.6x10^-6. The DMD mutation rate obtained by the Haldane formula was 86.6x10^-6 and by the semi-direct method, 65.6x10^-6. The results are discussed in the light of possible allelism of BMD and DMD.     

Cream fermentation by immobilized lactic acid bacteria

Summary Mesophilic lactic acid bacteria were immobilized in calcium alginate gel and added to pasteurized 15% fat cream at a 1.6x10⁹ bacteria per ml inoculation level. A pH of 5.5 was obtained in only two hours while it took 4 hours under classical conditions. Once the immobilized cells were removed, the cream contained 6.1x10⁶ lactic bacteria per ml which was almost 400 times less than the bacterial population obtained at pH 5.5 under a classical fermentation. The fermented cream obtained from immobilized cells showed much less overacidification under subsequent refrigeration.     

Human Induced Pluripotent Stem Cells Are Targets for Allogeneic and Autologous Natural Killer (NK) Cells and Killing Is Partly Mediated by the Activating NK Receptor DNAM-1

Human induced pluripotent stem cells (hiPSCs) could be used to generate autologous cells for therapeutic purposes, which are expected to be tolerated by the recipient. However, iPSC-derived grafts are at risk of giving rise to teratomas in the host, if residuals of tumorigenic cells are not rejected by the recipient. We have analyzed the susceptibility of hiPSC lines to allogeneic and autologous natural killer (NK) cells. IL-2-activated, in contrast to resting NK cells killed hiPSC lines efficiently (P=1.69x10^-39). Notably, the specific lysis of the individual hiPSC lines by IL-2-activated NK cells was significantly different (P=1.72x10^-6) and ranged between 46 % and 64 % in ⁵¹Cr-release assays when compared to K562 cells. The hiPSC lines were killed by both allogeneic and autologous NK cells although autologous NK cells were less efficient (P=8.63x10^-6). Killing was partly dependent on the activating NK receptor DNAM-1 (P=8.22x10^-7). The DNAM-1 ligands CD112 and CD155 as well as the NKG2D ligands MICA and MICB were expressed on the hiPSC lines. Low amounts of human leukocyte antigen (HLA) class I proteins, which serve as ligands for inhibitory and activating NK receptors were also detected. Thus, the susceptibility to NK cell killing appears to constitute a common feature of hiPSCs. Therefore, NK cells might reduce the risk of teratoma formation even after autologous transplantations of pluripotent stem cell-derived grafts that contain traces of pluripotent cells.     

Kinetic Characterization of [125I] Iodo-Prolactin Binding to Primary Monolayer Cultures of Rabbit Mammary Epithelium

Abstract

Monocellular suspensions of epithelial cells from mammary glands of rabbits at 20–22 days of pregnancy were prepared by sequential dissociation with collagenase-hyaluronidase followed by Pronase. Maintenance in D-valine-substituted minimum essential medium (D-valine-MEM) supplemented with 10% dialyzed calf serum yielded monolayers enriched for rabbit mammary epithelial cells (RMEC). RMEC specifically and reversibly bound bovine PRL with K_a = 1.41–1.85 × 10⁹M^-1. Association of lactogen with RMEC receptor followed bimolecular reaction kinetics with rate of 5.17 (±0.75) x 10⁵M^-1 sec^-1 at 24 C, and 1.03 (±0.11) x 10⁶M^-1 sec^-1 at 37 C. Dissociation was first order (k-₁ = 5.97 (±0.70) x 10^-5 sec^-1) and was unaffected by the presence of lactogen. Specific binding determined with an excess of unlabelled bPRL was 66–77% of the total binding, and was optimal at pH 7.4. The binding reaction reached equilibrium in 2 h at 37 C, in 3 h at 24 C, and after 24 h at 4 C. Studies of binding capacity revealed the presence of 4.6–6.3 × 10³ sites per cell, competition for which was limited to hormones demonstrating lacto-genic activity. Recovered lactogen was not degraded by incubation with or dissociation from RMEC. Approximately 25% of the radioactivity remained associated with the cells even upon prolonged incubation. These studies demonstrated several advantages of RMEC for the investigation of hormone-receptor interaction and receptor regulation.     

REGULATION OF INITIATION OF DNA SYNTHESIS IN CHINESE HAMSTER CELLS : II. Induction of DNA Synthesis and Cell Division by Isoleucine and Glutamine in G1-Arrested Cells in Suspension Culture

Suspension cultures of Chinese hamster cells (line CHO), which had stopped dividing and were arrested in G₁ following growth to high cell concentrations in F-10 medium, could be induced to reinitiate DNA synthesis and to divide in synchrony upon addition of the appropriate amounts of isoleucine and glutamine. Both amino acids were required to initiate resumption of cell-cycle traverse. Deficiencies in other amino acids contained in F-10 medium did not result in accumulation of cells in G₁, indicating a specific action produced by limiting quantities of isoleucine and glutamine. In the presence of sufficient glutamine, approximately 2 x 10^-6 M isoleucine was required for all cells to initiate DNA synthesis in a population initially containing 1.5 x 10⁵ cells/ml. Under similar conditions, about 4 x 10^-6 M isoleucine was required for all G₁-arrested cells to progress through cell division. In contrast, 1 x 10^-4 M glutamine was necessary for maximum initiation of DNA synthesis in G₁ cells, along with sufficient isoleucine. A technique for rapid production of G₁-arrested cells is described in which cells from an exponentially growing population placed in F-10 medium deficient in both isoleucine and glutamine or isoleucine alone accumulated in G₁ after 30 hr.     

Auxin requirements of sycamore cells in suspension culture

Sycamore (Acer pseudoplatanus L.) cell suspension cultures (strain OS) require 2,4-dichlorophenoxyacetic acid (2,4-D) in their culture medium for normal growth. If the 2,4-D is omitted, rates of cell division are dramatically reduced and cell lysis may occur. Despite this `auxin requirement,' it has been shown by gas chromatography-mass spectrometry that the cells synthesize indol-3yl-acetic acid (IAA). Changes in free 2,4-D and IAA in the cells during a culture passage have been monitored.

There is a rapid uptake of 2,4-D by the cells during the lag phase leading to a maximum concentration per cell (125 nanograms per 10⁶ cells) on day 2 followed by a decline to 45 nanograms per 10⁶ cells by day 9 (middle of linear phase). The initial concentration of IAA (0.08 nanograms per 10⁶ cells) rises slowly to a peak of 1.4 nanograms per 10⁶ cells by day 9 then decreases rapidly to 0.2 nanograms per 10⁶ cells by day 15 (early declining phase) and 0.08 nanograms per 10⁶ cells by day 23 (early stationary phase).

     

Bacterial biomass and productivity in sediments,stromatolites, and water of hamelin pool,shark bay,Western Australia

Heterotrophic bacterial biomass and growth rates were examined in stromatolites formed from four different types of benthic cyanobacterial mats. Bacteria in algal mats were counted using direct microscopy and biomass was estimated from the numbers of bacteria. Heterotrophic bacterial growth rates were estimated from the rate of incorporation of tritiated thy‐midine into DNA. Pustular mat, which occurs in the upper in‐tertidal zone, contained relatively few bacteria in the surface layers (0–5 mm), having about 0.2 x 10⁶ cells mm^‐3, or 20 mgC m^‐2 per millimetre depth. Other mats in the lower intertidal and subtidal zones had from 1 x 10⁶ cells mm^‐3 to 8 x 10⁶ cells mm^‐3. Heterotrophic bacterial productivities were 2.1 to 5.0 mgC m^‐2 h^‐1. Turnover times were an average of 1 day in the sandy sediment and 5 days in the colloform mat. Although these results are minimum estimates, they indicate that heterotrophic bacteria contribute substantially to the carbon cycle in stromatolites, by utilizing about 20 to 30% of primary production.     

The role of phospholipase A2 in calcium-induced damage in cardiac and skeletal muscle

Summary This study compares the action of inhibitors of the eicosanoid cascade on calcium-induced myofilament damage in cardiac muscle of the perfused frog heart and incubated frog ventricle slices, and in skeletal muscle of incubated mammalian diaphragm and isolated and saponin-skinned amphibian pectoris cutaneous muscle. Mepacrine (10^-5M) and indomethacin (3×10^-6M) protected completely against myofilament damage induced by entry of calcium in the calcium-paradox in frog heart. However, inhibition of phospholipase A₂ (PLA₂) (with chlorpromazine, 2×10^-4M, or mepacrine, 10^-5M, 5x10^-5M), of cyclo-oxygenase enzymes (with indomethacin, 3x10^-6M to 10^-5M or BW755C, 3.8x10^-4M), or of lipoxygenase enzymes (with BW755C, 3.8x10^-4M or nordihydroguaiaretic acid, 2x10^-6M or 5x10^-6M) all failed in intact cardiac or skeletal muscle cells to prevent the myofilament damage that is rapidly triggered by 10^-2M caffeine, 6x10^-6M ruthenium red, 10^-4M DNP or 5 g ml^-1 A23187. These agents also failed completely to protect against myofilament damage in saponin-skinned amphibian skeletal muscle when [Ca]_i was raised to 8x10^-6M. Thus, inhibition of PLA₂ does not protect the myofilament apparatus against calcium released intracellularly, and it is suggested that mepacrine and indomethacin can block entry of calcium in the calcium-paradox in the amphibian heart. Chlorpromazine (2x10^-4M) and mepacrine (10^-3M) at zero [Ca] caused severe myofilament damage in skinned muscle, possibly due to an effect on membranes. Since inhibitors of PLA₂ and of lipoxygenases prevent efflux of creatine kinase and sarcolemma damage in mammalian skeletal muscle, it is evident that experimentally-induced rises in [Ca]_i (by caffeine or A23187) can trigger two separate pathways: (i) PLA₂ and the arachidonic acid cascade which culminate in membrane damage, and (ii) a different, Ca-activated system that causes rapid damage of myofilaments.     

Chemostatic Concentrated Cultures of Heteroploid Mammalian Cell Suspensions in Dialyzing Fermentors: I. Experimental Evidence and Theoretical Considerations

Concentrated chemostatic cultures of HeLa S3-1, KB, and HEp # 2 cells have been grown in a dialysis fermentor. Stationary cell concentrations of approximately 1.2 × 10⁶ cells per ml have been produced at rates of 15 × 10^-3 to 20 × 10^-3 cells per hour for as long as 40 days. The dialysis fermentor appears to be useful in controlling the effects of nutrients on the growth rate of the cultures. Theoretical considerations are offered.     

Effects of carbon dioxide concentration on anaerobic fermentations of Escherichia coli

Summary The effect of dissolved carbon dioxide concentration in the anaerobic growth of Escherichia coli was investigated. E. coli was grown anaerobically with the dissolved CO₂ concentration controlled over the range from 8x10^-6 M to 3.7x10^-2 M in the liquid phase. The maximum specific growth rate was 0.75h^-1 at 1.3x10^-3 M CO₂ and the maximum yield of cells on glucose was 0.32 at 1.75x10^-4 M CO₂. The maximum specific growth rate occurs close to the concentration of CO₂ prevalent in the mammalian gut where E. coli naturally resides.Alberta Research Council contribution, paper 1364