Calcium ion-flux across phosphatidylcholine membranes mediated by ionophore A23187

The antibiotic A23187 carries Ca²⁺ across Müller-Rudin membranes made from $\text{1,2-}\text{dierucoyl}\text{-sn-}\text{glycero}\text{-3-}\text{phosphocholine}$ and $\text{n-}\text{decane}$. The conductance of the membranes is not increased by the Ca²⁺-transport. The flux depends linearly on Ca²⁺ concentration and ionophore concentration (above pH 6). It increases with increasing pH, approximately by a factor of 4–5 between pH 6 and pH 8. Maximal Ca²⁺-fluxes of about $\text{10}{}^{\mathrm{?10}}\text{mol}\text{·}\text{cm}{}^{\mathrm{?2}}\text{·}\text{s}{}^{\mathrm{?1}}$ were found. A counter transport of H⁺ could not be detected.The complex formation between A23187 and Ca²⁺ in egg phosphatidylcholine vesicles was studied spectroscopically. The results are consistent with the formation of a 2 : 1 complex. Optical absorption measurements on single phosphatidylcholine membranes were used to calculate the concentration of membrane-bound ionophore A23187.     

Oxygen dependence of nuclear DNA replication in Ehrlich ascites cells

Oxygen was excluded from cultured Ehrlich ascites cells for 5-7 h and then readmitted. During the anaerobic period and for about 1 h following reoxygenation the DNA synthesis of the cells was studied by determining the DNA synthesis rate from [3H] thymidine incorporation data, by evaluation of the thymidine (pulse labelling) index, by DNA fibre autoradiography, and by alkaline sucrose gradients in order to follow the maturation of the daughter chains. The DNA synthesis rate was found to decay to a few percent of the initial value within 5-7 h after deoxygenation. Immediately after reoxygenation it increased to exceed the control level within 0.5-1 h. The only partial process of the genome replication definitely responding to deoxygenation/reoxygenation was the initiation of new replicon units, while progress of the replication forks and maturation of the new daughter chains were not significantly affected. The coordination of replicon initiation within groups or clusters was maintained throughout. The interruption of replication at the level of initiation of clusters upon deoxygenation was interpreted as a regulatory response of the cells to ensure basic viability under unfavourable conditions.     

Effects of freezing on the structure of chloroplast membranes

Electron spin resonance (ESR) spectra of stearic acid spin labels incorporated into spinach thylakoids can be used to monitor membrane changes during freezing. Changes in the ESR parameters can be directly correlated to the extent of functional freeze damage. Freeze-induced changes in the ESR parameters strongly depend on the osmotic conditions of the incubation medium. Similar changes as on freezing can be observed by transferring thylakoids from an isotonic to a hypotonic medium, i.e., by swelling osmotically flattened thylakoids. This and computer simulations of spin label ESR spectra, which allow for variation of vesicle shape, lead to the conclusion that freeze-induced ESR spectral changes are due to swelling of the thylakoids. Indeed, van't Hoff plots of thylakoid packed volume indicate a freeze-induced increase in the apparent number of osmotically active molecules within the intrathylakoid lumen. During freezing, salt and/or sugar leak into the lumen. Simultaneously, proton channels are irreversibly opened. As the structural alterations obtained upon freezing are not accompanied by a change in bulk fluidity, these data are interpreted in terms of a local action of cryotoxic agents on critical microstructures, possibly at the rims of the thylakoid membranes.     

Testicular testosterone concentration and in vitro response to HCG in normal and in testosterone immunized rabbits.

The testosterone concentration, the in vitro response to HCG and the percentage Leydig cells in testes of normal and of testosterone-3-BSA immunized rabbits were determined. Following immunization all three parameters increased in the same order of magnitude (1.8-2.6fold). The results indicate that active immunization with testosterone has no deleterious effects on the endocrine capacity of the Leydig cells. The observed functional and morpholigical alterations of the testes are due solely to increased trophic hormone secretion from the pituitary caused by antibody binding of circulating androgens. The basic testosterone concentration in the testes of the control rabbits were in the range of values reported for other species.     

The stacking of chloroplast thylakoids: Quantitative analysis of the balance of forces between thylakoid membranes of chloroplasts,and the role of divalent cations

An analysis is made of the van der Waals dispersion attractive forces and electrostatic repulsive forces between the grana thylakoid membranes of chloroplasts. These forces are determined for negatively charged surfaces with a pK_a value of 4.7 for a bulk pH of 7.0 with a range of mono- and divalent cation concentrations and intermembrane spacing in the range 10 to 80 Å. For equilibrium under dark conditions, it is concluded that either there is extensive electrostatic binding of divalent cations (Mg²⁺) to the negatively charged membrane groups (phospholipid, sulfolipid, and protein carboxyl), or a redistribution of these groups between stacked and unstacked regions must be invoked.     

The role of phospholipase C in platelet responses

Degradation of inositides induced by phospholipase C in activated platelets leads to the formation of 1,2-diacylglycerol (1,2-DG) and its phosphorylated product, phosphatidic acid (PA). We have studied the relationship between activation of phospholipase C and the appearance of specific platelet responses, such as phosphorylation of proteins, shape change, release reaction and aggregation induced by different stimuli such as thrombin, platelet-activating factor, collagen, arachidonic acid (AA) and dihomogamma linolenic acid. A low degree of platelet activation induces only shape change which is associated with partial activation of phospholipase C (formation of phosphatidic acid), and phosphorylation of both a 40K molecular weight protein (protein kinase C activation) and a 20K molecular weight protein (myosin light chain). A higher degree of platelet activation induces aggregation, release of serotonin and a higher level of phospholipase C and protein kinase C activities. Metabolism of AA occurs concomitantly to aggregation and serotonin release, but AA metabolites are not related to the shape change of human platelets. Platelet shape change and the initial activation of phospholipase C induced by thrombin or platelet-activating factor is independent of the metabolites derived from cyclo-oxygenase activity. Further activation of phospholipase C which occurs during platelet aggregation and release reaction is, however, partly dependent on cyclo-oxygenase metabolites.     

Cellular recognition by rat liver cells of neuraminidase-treated erythrocytes : Demonstration and analysis of cell contacts

Freshly isolated rat liver cells adhere firmly to neuraminidase-treated rat or mouse erythrocytes but not to untreated erythrocytes. Binding between cells occurs only in the presence of calcium and is specially inhibited by D-galactose. We therefore suggest that cell adherence is mediated by a galactose-specific hepatic membrane receptor. Ultrastructural analysis of contact regions revealed point-like interactions between hepatic microvilli and erythrocytes and no broad areas of membrane contact. When liver cells are cultivated in vitro they lose their ability to bind erythrocytes within 24 h.     

Light inhibition of respiration is due to a dual function of the cytochrome b6-f complex and the plastocyanin/cytochrome c-553 pool in Aphanocapsa

Studies of the respiratory electron transport pathway in the blue-green alga, Aphanocapsa, demonstrated the presence of cytochrome oxidase and a cytochrome complex. The use of antimycin A showed only the occurrence of a plastidal type of cytochrome complex (the cytochrome b6-f complex), which is insensitive to this inhibitor. Determination of the extent of photooxidation of cytochromes c-553 and f-556 under conditions of high and low cytochrome oxidase activities indicated an electron flow through both cytochromes to cytochrome oxidase. Direct evidence for a common segment of photosynthetic and respiratory electron transport from plastoquinone via the cytochrome b6-f complex to the soluble plastocyanin/cytochrome c-553 pool, as well as a competition between cytochrome oxidase and Photosystem I for reductants in this pool in the light, was obtained by measurements of electron transport with suitable electron donors in this alga.     

Influence of different types of narcosis and of neck fracture on the concentration of glycolytic intermediates and related compounds in rat liver

The consequences of some often-used methods of producing unconsciousness in experimental animals were investigated by comparing the concentrations of nine glycolytic intermediates and eight related compounds in the liver of normal, well-fed rats, anaesthetized with ether, halothane, urethan, evipan, nembutal, luminal, or killed by neck fracture, with the physiological values, obtained from unanaesthetized, unstressed animals by our double hatchet method. All types of narcosis as well as neck fracture severely disturbed the physiological metabolite pattern. It is concluded that, in experiments in which the physiological metabolite state of a tissue shall be determined, narcosis or neck fracture must be avoided.     

Induction of acute phase proteins by dexamethasone in rat hepatocyte primary cultures

The effect of dexamethasone on the synthesis of acute phase proteins has been studied in primary cultures of rat hepatocytes. In the absence of dexamethasone no detectable amounts of alpha 2-macroglobulin were synthesized by hepatocytes cultured for 1 day. alpha 2-Macroglobulin synthesis was induced by dexamethasone concentrations of 10(-8) M or higher with a maximum at a concentration of 10(-7) M. alpha 1-Acid glycoprotein was synthesized in the absence of dexamethasone; however, its synthesis was also greatly stimulated by dexamethasone concentrations of 10(-8)-10(-6) M. Synthesis of alpha 1-proteinase inhibitor was stimulated only 1.4-fold at a dexamethasone concentration of 10(-7) M. The kinetics of induction of alpha 2-macroglobulin and alpha 1-acid glycoprotein were studied at a dexamethasone concentration of 10(-7) M. After an initial lag phase of 3 h the synthesis of both proteins showed a steady increase during 2 days. Synthesis of albumin remained unchanged under these experimental conditions. Unlike alpha 2-macroglobulin and alpha 1-acid glycoprotein tyrosine aminotransferase activity increased already during the first 3 h of induction by dexamethasone with a maximum at 12 h followed by a slight decrease.     

The murine bone marrow macrophage,a sensitive indicator cell for murine migration inhibitory factor and a new method for their harvest

Murine bone marrow macrophages grown on Teflon-coated petri dishes for a period of 8–16 days can be removed with a yield of 90–95% and a viability greater than 95% following incubation in 1 mM EDTA. Bone marrow cells cultured on Teflon-coated dishes did not differ in their replication rate, peroxidase and nonspecific esterase content, pinocytosis, secretion of lysozyme and neutral proteinases from bone marrow cells cultured on plastic dishes. Murine bone marrow macrophages were found to be sensitive indicator cells for mouse migration inhibitory factor (MIF). Large numbers of cells for the MIF assay can be obtained, since their yield is 10–15 times higher than the yield of oil-induced peritoneal exudate macrophages from the same number of mice.     

Activation of wheat chloroplast sedoheptulose bisphosphatase: a continuous spectrophotometric assay

A new continuous spectrophotometric assay for sedoheptulose 1,7-bisphosphatase, applied to studies of the activation and steady-state kinetics of the wheat enzyme, is described. The assay enzyme sequence couples the formation of sedoheptulose 7-phosphate to the oxidation of NADH. The recycling of the reaction substrate enables measurements to be made at essentially constant substrate concentrations. Activation of wheat chloroplast sedoheptulose 1,7-bisphosphatase required a reducing agent and could be described by a first-order rate constant. The rate of activation was greatly increased in the presence of Mg²⁺ and sedoheptulose 1,7-bisphosphate. The K_m of the activated enzyme for sedoheptulose 1,7-bisphosphate. and its S_0.5 for Mg²⁺ were found to be 13.3 μm and 1.6 mm respectively. A high recovery method for purifying wheat chloroplast sedoheptulose 1,7-bisphosphatase is also detailed.     

Ecto-adenosine triphosphatase activity at the cholinergic nerve endings of the Torpedo electric organ

Synaptosomes isolated from the electric organ of Torpedo marmorata contain activity of an ATPase which is located at the extracellular face of the plasma membrane. Ecto-ATPase activity can be stimulated independently and to a similar extent by either Ca-2+ or Mg-2+. Apparent Km-values for ATP are 79 microM and 53 microM for Ca-2+ and Mg-2+ respectively. Apparent Km-values for Ca-2+ and Mg-2+ at 1 mM ATP are 0.71 mM and 0.61 mM respectively. The enzyme is also activated by Mn-2+ and GTP can replace ATP as a substrate. Presence of 5'- nucleotidase activity suggests that adenosine is the final hydrolysis product. Thus hydrolysis of nucleotides released during exocytosis of synaptic vesicle contents and purine salvage must be a major role of this ecto-enzyme. We furthermore suggest that the ecto-ATPase may provide the key to understanding the storage of the high energy compound ATP in cholinergic synaptic vesicles. On depolarization of the nerve terminal and exocytosis, ATP represents the signal for activating the ATPase whereby concentrations of Ca-2+ and Mg-2+ are already saturating. Following depolarization induced Ca-2+ influx, a possible function of the ATPase may be the outward transport of Ca-2+ from the nerve terminal.     

A study of metabolic cooperation with established myoblast cell lines.

The present study was undertaken to test the action of ConA on the distribution of intramembranous particles (IMPs) and on the reassembly of junctional contacts in isolated and reaggregated embryonic neuronal and glial cells. The lectin ConA causes all embryonic cells to aggregate in unorganized cell patterns. ConA does not alter the distribution of IMPs but it inhibits the formation of the zonula occludens (ZO) by preventing the alignment and fusion of IMPs or by inducing them to become arranged in bizarre arrays. The possible relationship between ConA receptor sites and the IMPs is discussed. From a morphological viewpoint the aggregation of embryonic cells influenced by lectin is distinctly different from the normal processes of cell adhesion, cell sorting and establishment of intercellular contacts.     

Analysis of the pinocytic process in rat kidney II. Biochemical composition of pinocytic vesicles compared to brush border microvilli,lysosomes and basolateral plasma membranes

Pinocytic vesicles, brush border microvilli, lysosomes and basolateral plasma membranes were isolated from rat kidney cortex and their biochemical composition and membrane turnover compared. Pinocytic vesicles are devoid of marker enzymes of brush border microvilli, such as alkaline phosphatase and 5′-nucleotidase, and of lysosomes, such as acid phosphatase and β-glucuronidase. The protein pattern as revealed by polyacrylamide gel electrophoresis differs for all four membranes. Analysis of the phospholipid composition shows that pinocytic vesicles are rich in the negatively charged phospholipid phosphatidylserine and have a low content of sphingomyelin and phosphatidylethanolamine.[¹⁴C]guanido-arginine, [³H]fucose and $\text{myo-}\text{[}{}^3\text{H]inositol}$ were preferentially incorporated into the pinocytic vesicles. Using a double label technique with leucine also, evidence of a more rapid turnover of the pinocytic vesicle membrane proteins was obtained.The results suggest that pinocytic vesicles are not derived from the brush border microvillous membrane but are independent entities that are newly synthesized during the pinocytic process.     

Crystal and molecular structure of the sulfhydryl protease calotropin DI at 3·2 Å resolution

The three-dimensional structure of the sulfhydryl protease calotropin DI from the madar plant, Calotropis gigantea, has been determined at 3·2 Å resolution using the multiple isomorphous replacement method with five heavy atom derivatives. A Fourier synthesis based on protein phases with a mean figure of merit of 0·857 was used for model building. The polypeptide backbone of calotropin DI is folded to form two distinct lobes, one of which is comprised mainly of α-helices, while the other is characterized by a system of all antiparallel pleated sheets. The overall molecular architecture closely resembles those found in the sulfhydryl proteases papain and actinidin.Despite the unknown amino acid sequence of calotropin DI a number of residues around its active center could be identified. These amino acid side-chains were found in a similar arrangement as the corresponding ones in papain and actinidin. The polypeptide chain between residues 1 and 18 of calotropin DI folds in a unique manner, providing a possible explanation for the unusual inability of calotropin DI to hydrolyze those synthetic substrates that papain and actinidin act upon.     

Pattern of collagen synthesis and chemotactic response of fibroblasts derived from mucopolysaccharidosis patients

For comparative studies on the migratory potential we screened fibroblast strains derived from mucopolysaccharidosis (MPS) patients regarding their differential response to chemotactic stimuli and analysed their production of extracellular matrix components. Indirect immunofluorescence staining of MPS-fibroblasts showed the same distribution of type I and type III collagen and of fibronectin as in controls. Biochemical quantification of type I and type III collagen demonstrated an unaltered ratio of these collagen types, although the total amount of newly synthesized collagens was slightly reduced in fibroblasts from MPS patients. Whereas the synthesis of major extracellular matrix components was close to normal, the response of the MPS cells to chemotactic stimuli was greatly affected. Chemotactic migration was improved when fibroblasts were pretreated with medium conditioned by normal fibroblasts, although they never reached normal levels.     

Fluctuations in S-adenosyl-L-methionine (AdoMet) during mitotic cycle of the myxomycete Physarum polycephalum

A sensitive radioisotope dilution method was used to measure the S-adenosyl-L-methionine (AdoMet) content in macroplasmodia of the slime mold Physarum polycephalum during the mitotic cycle. The AdoMet pool had two maxima, one during mitosis, the other in the middle of G2 phase.     

Cell patterning in branched and unbranched fruiting bodies of the cellular slime mold Polysphondylium pallidum

Cell patterning, the percentage of spores and stalk cells, was measured in branched and unbranched asexual fruiting bodies of Polysphondylium pallidum. Unlike D. discoideum, where small and large fruiting bodies are more stalky than average-sized fruiting bodies, the overall cell patterning was the same in branched and unbranched fruiting bodies of all sizes in P. pallidum. Light greatly increased the numbers of fruiting bodies in P. pallidum per unit area (or decreased aggregation territory size) so that most fruiting bodies formed in the light were small and unbranched. By contrast, light had little effect on the cell patterning of P. pallidum, although there was a slight increase in the percentage of stalk cells in the light compared to the dark. This indicates that the mechanisms governing light sensitivity of aggregation territory size and cell patterning have different components in P. pallidum. The accuracy of cell patterning of individual branches of branched fruiting bodies was so imprecise as to leave doubt that patterning is occurring at the branch level. Individual whorls of branched fruiting bodies had a greater percentage spores (90%) than whole fruiting bodies (78%) and the cell patterning was relatively imprecise. Only in whole fruiting bodies was the spore:stalk ratio highly correlated. These findings are consistent with cell pattern determination operating at the whole aggregate level, rather than at the individual whorl or branch level in P. pallidum.