The cytoskeleton and rat granulosa cell steroidogenesis: possible involvement of microtubules and microfilaments

The participation of both microtubules and microfilaments in granulosa cell steroidogenesis was assessed by monitoring the effects of colchicine (0-250 microM) and/or cytochalasin B (0-10 micrograms/ml) or dihydrocytochalasin B (0-2.0 micrograms/ml) on cellular morphology and production of progestins during 24 h of culture. Both colchicine and the cytochalasins increased granulosa cell production of progesterone and of 20 alpha-hydroxy-pregn-4-en-3-one (20 alpha-OH-progesterone) in a dose-dependent manner. The largest increase in steroidogenesis (about 2- to 3-fold) was observed at 4-250 microM colchicine and at 2-10 micrograms/ml cytochalasin. Those concentrations of the inhibitors of microtubule or microfilament polymerization that stimulated basal progestin production also markedly influenced cell spreading. Whereas cells cultured for 24 h in medium alone became very flattened with numerous cytoplasmic extensions, those cultured with colchicine (0.2-250 microM) or cytochalasin (0.4-2 micrograms/ml) were much less spread and progressively became more rounded and regular in outline. These changes in cell morphology were reflected by decreases in the mean area occupied by the cells on the culture surface of up to 60-65% and reductions in mean contour index values from 5.7 +/- 0.1 (control) to 3.9 +/- 0.1 (250 microM colchicine), 4.2 +/- 0.1 (2 micrograms/ml cytochalasin B), or 4.1 +/- 0.1 (2 micrograms/ml dihydrocytochalasin B). Cultures containing both colchicine and cytochalasin B exhibited a greater steroidogenic response than that elicited by either inhibitor alone. For example, granulosa cell progesterone production was stimulated almost 2-fold by 4 microM colchicine or 2 microM/ml cytochalasin B, but 5.5-fold by 4 microM colchicine plus 2 micrograms/ml cytochalasin B.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of protamine, heparinase, and hyaluronidase on endothelial permeability and surface charge

We undertook studies in the isolated perfused rat lung to determine 1) the effects of endothelial charge neutralization with the polycation protamine sulfate on microvascular permeability, lung water, and anionic ferritin binding to the endothelium and 2) the role of heparan sulfate and hyaluronate, negatively charged cell surface glycosaminoglycans, on permeability. Capillary permeability was determined by tissue 125I-albumin accumulation in isolated perfused rat lungs. In control lungs the 5-min albumin uptake was 0.50 +/- 0.05 cm3.s-1.g dry tissue-1 X 10(-3). It was increased by 132 +/- 7.8% (P less than 0.001) by protamine (0.08 mg/ml) and 65 +/- 12% (P less than 0.01) by heparinase (5 U/ml), whereas hyaluronidase (25 NFU/ml) was without effect. In control lungs total water was 4.83 +/- 0.15 ml g/dry tissue. Protamine increased lung water 12 +/- 2% (P less than 0.05). Heparinase caused a 9 +/- 3% increase (P less than 0.05), and hyaluronidase had no effect. Electron microscopy demonstrated that protamine increased anionic ferritin binding to the surface of endothelial cells. We conclude that protamine sulfate neutralization of negative charge in the pulmonary microcirculation leads to increased microvascular permeability. Heparin sulfate may be responsible for this charge effect.     

Effect of ethmozine on action potentials and myocardial contraction in guinea pigs

Ethmozine decreased the maximum rate of action potential rise (Vmax) in a dose-dependent manner. Using the Scatchard plot the apparent dissociation constant was calculated to be 1.52 X 10(-5) g/ml. Ethmozine also decreased the force of contraction in the concentration range between 1 X 10(-6) and 1 X 10(-4) g/ml with the apparent dissociation constant obtained from the Scatchard plot being equal to 1.48 X 10(-5) g/ml. The linear correlation coefficient between the decrease in Vmax and the decrease in the force of contraction was found to be equal to 0.998. Negative inotropic action of ethmozine was less pronounced when the stimulation frequency had been switched from 0.8 to 0.1 Hz. The decrease in Vmax under the action of ethmozine (3 X 10(-5) g/ml) was diminished from 56 +/- 7% (0.8 Hz) to only 3 +/- 8% (0.1 Hz). This was accompanied by the decrease in the negative inotropic effect: from 58 +/- 9% (0.8 Hz) to 16 +/- 15% (0.1 Hz). It was assumed that the negative inotropic action of ethmozine was mediated by the Na--Ca exchange, which was inhibited by the decrease of the intracellular Na+ concentration due to the blockade of sodium channels by ethmozine.     

Effects of lysolecithin on the surface properties of human erythrocytes

Human red blood cells (RBCs), transformed by incubation with the amphiphatic compound lysolecithin from their normal discocyte shape into echinocytes, have increased rates of agglutination in the presence of either poly- -lysine (PLL) or soybean agglutinin (SBA). Removal of lysolecithin by washing caused a reversal of shape back to the discocyte configuration and a lowering of agglutination rates. Methochlorpromazine, another amphiphatic echinocytogenic substance produced a similar increase in agglutination rates, suggesting that increased agglutinability may be a general property of echinocytes. Lysolecithin treatment of RBCs caused a decrease in the binding of cationized ferritin (CF) particles/μm² of RBC surface. The decrease in CF binding is due to a rearrangement of negative charge bearing molecules on the RBC surface rather than shedding of charged groups. These observations support the hypothesis that integral membrane proteins which bear negative charges and receptors are associated with a cytoskeleton within the red cell. Alterations in cell shape which result in distortion of the cytoskeleton may cause a redistribution of integral membrane proteins which bear charged groups at the RBC surface.     

Effect of colchicine on histamine secretion and calcium uptake in mast cells

The function of contractile system of microtubules on the mechanism of mast cell exocytosis by using colchicine, a depolymerizing alkaloid of the microtubular system, has been studied. The response of histamine release and 45Ca-uptake in isolated rat mast cells treated with colchicine has been determined. The incubation of mast cells in the presence of 10(-8)-10(-3) M colchicine slightly inhibits histamine secretion induced by the stimulant concentration 50 micrograms/ml of compound 48/80 (35 +/- 5%). Similarly colchicine does not significantly affect histamine values spontaneously elicited in unstimulated mast cells; the percentages of secretion are never greater than 10%. However, high doses of this alkaloid are found to markedly inhibit entry of calcium ions into the cell. These results suggest that microtubules do not participate in the secretory process of mast cells, although they significantly decrease calcium uptake. The microtubules might be connected to the membrane, so that the depolymerization of this contractile system could damage the membrane structures through which Ca2+ is transported.     

Differential involvement of the integrin-linked kinase (ILK) in RhoA-dependent rearrangement of F-actin fibers and induction of connective tissue growth factor (CTGF)

The integrin-linked kinase (ILK) serves as an adapter protein to link the cytoplasmic domains of integrins with cytoskeletal components. Organization of the actin cytoskeleton is strongly influenced by the small GTPase RhoA, which also regulates gene expression. To investigate the impact of ILK deficiency on RhoA-mediated signaling we used ILK-deficient fibroblasts. The cytoskeleton of ILK (-/-) cells was characterized by less organized F-actin fibers, compared to wild type mouse fibroblasts. Stimulation of the cells with lysophosphatidic acid (LPA) or the microtubule disrupting agent colchicine increased polymerization of F-actin stress fibers in ILK (+/+) cells, whereas ILK (-/-) cells showed a network of short thin cortical actin fibers, cell rounding and finally detachment from the surface of the culture plates. The structural changes were primarily attributable to the activation of RhoA in both cell types. ILK deficiency also affected gene expression. The basal levels of several proteins related to fibroblast differentiation, such as connective tissue growth factor (CTGF), thrombospondin 1 and alpha smooth muscle actin, were reduced in ILK (-/-) cells. However, induction of CTGF expression by LPA or colchicine was comparable in ILK (+/+) and ILK (-/-) cells. Furthermore, stimulation of CTGF or thrombospondin by TGFbeta was not reduced by ILK deficiency. Inhibition of the RhoA-associated kinase or overexpression of dominant negative RhoA reduced the stimulated CTGF expression indicative of a role for RhoA signaling in CTGF expression. Taken together, ILK is involved in RhoA-dependent reorganization of the actin cytoskeleton, whereas activation of RhoA and RhoA-mediated gene expression is independent of ILK.     

Effect of tetracycline group antibiotics on the barrier properties of the small intestine epithelium]

The effect of 5 tetracyclines on the barrier and transport properties of the small intestine epithelium was studied. The barrier properties were estimated by a change in the ionic selectivity and conductivity of the epithelium, as well as by enterocyte linkage. The current of the short circuit served the characteristics of the Na transport system state. Dimethylchlortetracycline, methacycline and oxytetracycline in concentrations of 10(-7) g/ml decreased the epithelium conductivity and increased the cell linkage. Tetracycline and methacycline in concentrations of 10(-9) g/ml had an analogous effect. The effect was observed 10--20 minutes after the start of incubation with the substance. No effect on the current of the short circuit was observed within the concentrations of 10(-4) to 10(-9) g/ml. It is suggested that the decreased conductivity and increased linkage are due to adsorption of the tetracycline molecules in the region of close cell contacts.     

Chromosome Preparatons of Bone Marrow Cells without Prior In Vitro Culture or In Vivo Colchicine Administration

Bone marrow (about 0.5 ml) from au erythropoietic region is freed of blood clots by washing 1-3 min in 1 μg/ml colchicine solution (2-3 ml) and then soaking 1-2 hr at 20-30° C in a second change. For mammalian or avian marrows, the colchicine is made up in phosphate-buffered (pH 7) physiological NaCl solution; for amphibian, Ringer's A solution. Next the specimens are soaked about 20 min in a hypotonic solution as follows: for mammalian, 1% Na-citrate; for avian, a 1:4 dilution of the buffered NaCl solution by distilled water; and for amphibian, Ringer's A-distilled water, 1:1. Then they are heated in a mixture of 2% orcein in 45% acetic acid and 1 N HCl, 9:1. Immediately after heating, squash preparations are made with 2% acetic-orcein in the usual manner. An alternative method is to dissociate the marrow cells by agitating after colchicine treatment. Then, recovering the cells between changes by low-speed centrifugation, to carry out the hypotonic treatment and subsequent fixation in Carnoy's solution I (alcohol acetic, 3:1) before drying the cells onto slides from the fixative. After thorough drying the slides may be stained 10-20 min in acetic orcein, or by other suitable technics.     

Prolactin regulation of cryptic prolactin receptors in cultured rat mammary tumor cells

Rat mammary tumors contain a unique class of cryptic cell-surface prolactin receptors that can be unmasked by depleting the cells of energy. These cryptic receptors, which are found in mammary tumors and nonlactating normal mammary cells but not in differentiated mammary tissue, are continuously inserted and rapidly removed from the cell surface. In this report we demonstrate that prolactin regulates the level of cryptic receptors. Treatment of primary cultures of rat mammary tumor cells with prolactin at concentrations between 0.1 and 0.5 ng/ml caused cryptic receptor levels to increase within 24 h, and this increase was maintained for up to 6 days. At prolactin concentrations of 10-50 ng/ml, receptor levels were the same as in cells incubated without hormone, while a decrease in the steady-state level of cryptic receptors was induced within 24 h by 100-500 ng prolactin/ml. Concentrations of 1,000-5,000 ng prolactin/ml caused a rapid, dose-dependent down regulation of cryptic receptor sites. Down regulation at 5,000 ng prolactin/ml was (1) complete (84 +/- 5% reduction) in 1 h; (2) specific for lactogenic hormones; (3) completely reversed within 10 h after prolactin removal; (4) energy dependent; and (5) not blocked by the cytoskeleton active agents cytochalasin B and colchicine or by NH4Cl, which inhibits hormone degradation. We conclude that rat mammary tumor cells have the capacity to auto-regulate cryptic prolactin receptors, a property that supports our notion that such receptors play a role in regulating prolactin responsiveness. The observed pattern of cryptic receptor autoregulation in response to prolactin concentration and time of exposure suggests that a pool of cryptic sites provides these cells with the capacity to respond to prolactin concentrations from pg to microgram/ml, a range well beyond the Kd for the receptor itself. Since prolactin receptors in mammary tumors are not down regulated unless prolactin concentrations are well beyond the saturation point, these cells may have a selective growth advantage over cells in normal mammary tissue.     

Negative second virial coefficients as predictors of protein crystal growth: evidence from sedimentation equilibrium studies that refutes the designation of those light scattering parameters as osmotic virial coefficients

The effects of ammonium sulphate concentration on the osmotic second virial coefficient (BAA/MA) for equine serum albumin (pH 5.6, 20 degrees C) have been examined by sedimentation equilibrium. After an initial steep decrease with increasing ammonium sulphate concentration, BAA/MA assumes an essentially concentration-independent magnitude of 8-9 ml/g. Such behaviour conforms with the statistical-mechanical prediction that a sufficient increase in ionic strength should effectively eliminate the contributions of charge interactions to BAA/MA but have no effect on the covolume contribution (8.4 ml/g for serum albumin). A similar situation is shown to apply to published sedimentation equilibrium data for lysozyme (pH 4.5). Although termed osmotic second virial coefficients and designated as such (B22), the negative values obtained in published light scattering studies of both systems have been described incorrectly because of the concomitant inclusion of the protein-salt contribution to thermodynamic nonideality of the protein. Those negative values are still valid predictors of conditions conducive to crystal growth inasmuch as they do reflect situations in which there is net attraction between protein molecules. However, the source of attraction responsible for the negative virial coefficient stems from the protein-salt rather than the protein-protein contribution, which is necessarily positive.     

Effect of various antimicrotubular drugs on the osmotic water flow through the wall of frog's urinary bladder]

The action of antimicrotubular drugs (colchicine, vinblastine and copper) on the osmotic water flow through the wall of the urinary bladder of Rana temporaria has been studied. The osmotic gradient was made by five- or tenfold dilution of the internal Ringer solution. The water flow was estimated gravimetrically. The water flow was induced by pituitrin (50 milliunits/ml), cyclic AMP (cAMP, 0.5-10(-3) M) and nystatine (3.5-10(-5) M). Pituitrin and cAMP and all the antimicrotubular drugs were added from the serosal surface of the bladder. Nystatine was introduced with the help of a fixed polyethylene tube. Preincubation with colchicine lasted 4 hours and that with vinblastine and copper (CuSO4), 1 hour. The drug concentrations varied between 10(-5)--10(-4) M. All the drugs studied showed a significant inhibitory effect toward pituitrin. The action of cAMP on the water flow was seen inhibited in the presence of colchicine and copper. The nystatine induced water flow was supressed by copper, colchicine being in this case inactive. A conclusion is drawn that the inhibition of cAMP formation does not cause a decreased pituitrine effect in the presence of antimicrotubular drugs. It has been assumed that the microtubules may be involved in the directed water flow within the cell.     

Intact Cytoskeleton Is Required for Small G Protein Dependent Activation of the Epithelial Na+ Channel

Background

The Epithelial Na⁺ Channel (ENaC) plays a central role in control of epithelial surface hydration and vascular volume. Similar to other ion channels, ENaC activity is regulated, in part, by cortical cytoskeleton. Besides, the cytoskeleton is an established target for small G proteins signaling. Here we studied whether ENaC activity is modulated by changes in the state of the cytoskeleton and whether cytoskeletal elements are involved in small G protein mediated increase of ENaC activity.

Methods and Findings

First, the functional importance of the cytoskeleton was established with whole-cell patch clamp experiments recording ENaC reconstituted in CHO cells. Pretreatment with Cytochalasin D (CytD; 10 µg/ml; 1–2 h) or colchicine (500 µM; 1–3 h) to disassembly F-actin and destroy microtubules, respectively, significantly decreased amiloride sensitive current. However, acute application of CytD induced rapid increase in macroscopic current. Single channel measurements under cell-attached conditions revealed similar observations. CytD rapidly increased ENaC activity in freshly isolated rat collecting duct, polarized epithelial mouse mpkCCD_c14 cells and HEK293 cells transiently transfected with ENaC subunits. In contrast, colchicine did not have an acute effect on ENaC activity. Small G proteins RhoA, Rac1 and Rab11a markedly increase ENaC activity. 1–2 h treatment with colchicine or CytD abolished effects of these GTPases. Interestingly, when cells were coexpressed with ENaC and RhoA, short-term treatment with CytD decreased ENaC activity.

Conclusions

We conclude that cytoskeleton is involved in regulation of ENaC and is necessary for small G protein mediated increase of ENaC activity.     

The binding of acetic anhydride- and citraconic anhydride-modified human low-density lipoprotein to mouse peritoneal macrophages. The evidence for separate binding sites

Human plasma low-density lipoprotein (LDL) was modified chemically with either the monocarboxylic acid derivative, acetic anhydride, or the dicarboxylic acid derivative, citraconic anhydride, reagents which react principally with the lysine residues of protein. The modifications increased the net negative charge on the LDL particles, with citraconyl-LDL displaying a greater negative charge than acetylated LDL. Neither the antigenic reactivity nor the overall gross protein/lipid composition of the LDL were affected by the modification procedures, although a small reduction in the total cholesterol content was observed. The altered LDL species lost the ability to bind to the high-affinity cell surface B/E receptor but both bound to mouse peritoneal macrophages with saturable high-affinity kinetics. At 4 degrees C, the macrophages bound 125I-labelled citraconyl-LDL more avidly (K = 21 X 10(-3) ml/ng) than they bound labelled acetyl-LDL (K = 2 X 10(-3) ml/ng). Competitive inhibition studies indicated that acetyl-LDL and citraconyl-LDL were bound to non-identical sites on the macrophage monolayer surface and that the binding site for citraconyl-LDL was also different from that recognized by hypercholesterolaemic rabbit plasma VLDL (beta VLDL).     

Cytochalasin D and cationized ferritin as probes for the morphological investigation of blebbing in two human cell lines

Summary The potent fungal metabolite cytochalasin D (CD) and cationized ferritin (CF) are used in combination to test for negative charge distribution on blebs (knobs). Two established human epithelial cell lines, WISH and HeLa, that display blebs in various phases of the cell cycle or under certain culture conditions (37,46) are investigated. CD alone, applied at a low concentration (1.0 μg/ml) and for a short time period (3 min), causes blebs to appear as the prevalent surface feature. These are filled mainly with free ribosomes. Additionally, feltlike mats, presumed to be disorganized, compacted microfilaments, are formed directly beneath the cell membrane. These are especially evident in the cortical cytoplasm below the blebs or bleb clusters. CF (0.345 mg/ml), applied for a 5-min period after CD administration (1.0 μg/ml) for 3 min, appears along the surface of microvilli, at the base of blebs, and in vesicles beneath the bleb clusters. In some cases, microfilaments (6 nm in diameter) are closely related to the vesicles. CF does not preferentially bind to the apical cell membrane of blebs. Above areas of the subplasmalemmal microfilaments, CF membrane binding is apparent, even under circumstances where the filaments are disorganized by cytochalasin treatment. These results seem to show the following: (a) bleb membranes are different from the remainder of the cell and do exhibit a loss of negative charge and (b) surface charge may be dependent on the presence or structural integrity of membrane-related 6-nm microfilaments. The support of this research by a grant from the Baylor College of Dentistry and The Oklahoma College of Osteopathic Medicine and Surgery is gratefully acknowledged. The assistance of Dr. J. H. Martin, Department of Pathology, Baylor University Medical Center, is also greatly appreciated.     

Effect of colchicine and lumicolchicine on the ultrastructure of non-myelinated axons in autonomic nerves in cat in vitro]

The effects of colchicine and lumicolchicine on the ultrastructure of non-myelinated axons in cat autonomic nerves were studied using in vitro preparations of inferior mesenteric ganglion/hypogastric nerves. After 24 hrs of in vitro incubation with colchicine added to the medium (10 microng/ml) a significant decrease in number of neurotubules per 1 axon was observed. In the presence of a solution of alpha-beta and gamma-lumicolchicine (10 microng/ml) severe degenerative changes occured in axons and Schwann cells. At a lower dose of lumicolchicine (3 microng/ml) these changes were less frequent and the number of neurotubules per 1 axon did not differ from that in control nerves.     

Effects of cytochalasin D on occluding junctions of intestinal absorptive cells: further evidence that the cytoskeleton may influence paracellular permeability and junctional charge selectivity

Intestinal absorptive cells may modulate both the structure and function of occluding junctions by a cytoskeleton dependent mechanism (Madara, J. L., 1983, J. Cell Biol., 97:125-136). To further examine the putative relationship between absorptive cell occluding junctions and the cytoskeleton, we assessed the effects of cytochalasin D (CD) on occluding junction function and structure in guinea pig ileum using ultrastructural and Ussing chamber techniques. Maximal decrements in transepithelial resistance and junctional charge selectivity were obtained with 10 micrograms/ml CD and the dose-response curves for these two functional parameters were highly similar. Analysis of simultaneous flux studies of sodium and the nonabsorbable extracellular tracer mannitol suggested that CD opened a transjunctional shunt and that this shunt could fully account for the increase in sodium permeability and thus the decrease in resistance. Structural studies including electron microscopy of detergent-extracted cytoskeletal preparations revealed that 10 micrograms/ml CD produced condensation of filamentous elements of the peri-junctional contractile ring and that this was associated with brush border contraction as assessed by scanning electron microscopy. Quantitative freeze-fracture studies revealed marked aberrations in absorptive cell occluding junction structure including diminished strand number, reduced strand-strand cross-linking, and failure of strands to impede the movement of intramembrane particles across them. In aggregate these studies show that CD-induced perturbation of the absorptive cell cytoskeleton results in production of a transepithelial shunt which is fully explained by a defect in the transjunctional pathway. Furthermore, substantial structural abnormalities in occluding junction structure accompany this response. Lastly, the abnormalities in occluding junction structure and function coincide with structural changes in and contraction of the peri-junctional actin-myosin ring. These data suggest that a functionally relevant association may exist between the cytoskeleton and the occluding junction of absorptive cells. We speculate that such an association may serve as a mechanism by which absorptive cells regulate paracellular transport.     

Effect of the pH of culture medium on the alkalophilicity of a species of Bacillus

The amino acid incorporation and -aminoisobutyric acid (AIB) uptake of an alkalophilic Bacillus grown at pH 8.2 (the pH 8-bacteria) were much less pH dependent (less alkalophilic) than those of the organisms grown at pH 10.0 (the pH 10-bacteria), respectively. The rate of AIB uptake of the pH 10-bacteria was almost the same as that of the pH 8-bacteria, while the rate of amino acid incorporation of the pH 10-bacteria was higher than that of the pH 8-bacteria in alkaline environments. The colloidal titration with clupein showed that the amount of negative charge on the pH 10-bacteria was greater than that of the pH 8-bacteria in alkaline environments. Considerable difference in protein composition was observed between the membranes of the pH 8-and 10-bacteria, while no difference was observed in phospholipid composition.Abbreviations AIB Amino-isobutyric acid     

Effect of colchicine, vinblastine, and cytochalasin B on cell surface anionic sites of Tritrichomonas foetus

Drugs that interact with microtubules (colchicine and vinblastine) and microfilaments (cytochalasin B) partially inhibited cell growth and motility of Tritrichomonas foetus. Parasites incubated with these substances became rounded and cell division was blocked. Neither colchicine nor vinblastine disrupted the microtubules that form the peltar-axostylar system. Any one of these drugs interfered with the net negative surface charge of T. foetus as evaluated by determination of the cellular electrophoretic mobility (EPM). The decrease in the EPM of cytochalasin B-treated cells was caused by dimethylsulfoxide, which was used as solvent. Untreated cells as well as cytochalasin B-treated cells showed a uniform distribution of anionic sites on the plasma membrane as seen with cationized ferritin particles. In cells treated with colchicine or vinblastine the anionic sites were distributed in patches. These results are discussed in terms of participation of labile cytoplasmic microtubules and microfilaments in the control of the distribution of anionic site-containing macromolecules located on the cell surface of T. foetus.     

Pollen wall formation in Lilium: The effect of chaotropic agents,and the organisation of the microtubular cytoskeleton during pattern development

Using a combination of electron-microscopic and immunocytochemical techniques the behaviour of the microtubular cytoskeleton has been followed throughout microsporogenesis in Lilium henryi Thunb. Cells treated with colchicine at specific stages and then permitted to develop to near maturity were used to investigate any participation by microtubules in the regulation of pollen wall patterning. The microtubular cytoskeleton assumes four principal forms during the meiotic process; in pre-meiosis it resembles that characteristic of meristematic somatic cells, during meiotic prophase it becomes associated with a nuclear envelope and, perhaps, with the chromosomes and, as the nuclear and cell divisions commence, it takes the form of a normal spindle apparatus. In the young microspores, microtubules assume a radial organisation extending from sites at the nuclear envelope to the inner face of the plasma membrane. No firm evidence was found linking any one of these forms of cytoskeleton with the generation of patterning on the cell surface. Experiments with colchicine revealed that the drug would readily dislocate the colpus, but did not affect the general reticulate patterning. The radial cytoskeleton was present during the deposition of the early primexine, but evidence from these and other studies (J.M. Sheldon and H.G. Dickinson 1983, J. Cell. Sci. 63, 191–208; H.G. Dickinson and J.M. Sheldon, 1984, Planta 161, 86–90) indicates patterning to be imprinted upon the plasma membrane prior to the appearance of this type of cytoskeleton. These results are discussed in terms of a recent model proposed to explain pattern generation on the surface of Lilium pollen grains, based on the self-assembly of patterning determinants within the plasma membrane.Abbreviation MTOC microtubule-organising centre     

The effect of composition of the core region of Escherichia coli K-12 lipopolysaccharides on the surface properties of cells

The pH dependences of electrokinetic potentials (EKP) of the cells of two Escherichia coli K-12 strains (D21 and JM 103) with known lipopolysaccharide (LPS) core composition have been determined by the method of microelectrophoresis. At pH 4.6-5.2, the negative surface charge of the cells with Re core LPS was reliably higher. It was shown that the interaction of bacteria with lysozyme results in a decrease of optical density of suspensions due to higher sensitivity of the cells with complete LPS core to hypotonic shock. LPS release from bacterial cell wall depended also on bacterial LPS core composition and increased with LPS core extension. Electrokinetic measurements and the study of the interaction of cells with lysozyme suggest that higher negative surface charge of E. coli JM 103 cells (Re type LPS) is associated with higher quantity and density of LPS packing in the cell wall as compared with the cells of E. coli D21 (Ra type LPS).