scholarly journals Monoclonal antibodies directed against protoplasts of soybean cells: analysis of the lateral mobility of plasma membrane-bound antibody MVS-1.

1986 ◽  
Vol 102 (4) ◽  
pp. 1350-1357 ◽  
Author(s):  
T N Metcalf ◽  
M A Villanueva ◽  
M Schindler ◽  
J L Wang
Keyword(s):  
Monoclonal Antibody ◽  
Plasma Membrane ◽  
Cytochalasin B ◽  
Previous Analysis ◽  
Lateral Diffusion ◽  
Soybean Agglutinin ◽  
Modulation Effect ◽  
Lateral Mobility ◽  
Fold Reduction ◽  
Membrane Bound

A monoclonal antibody (MVS-1) was used to monitor the lateral mobility of a defined component (Mr approximately 400,000) of the plasma membrane of soybean protoplasts prepared from suspension cultures of Glycine max (SB-1 cell line). The diffusion coefficient (D) of antibody MVS-1 bound to its target was determined (D = 3.2 X 10(-10) cm2/s) by fluorescence redistribution after photobleaching. Pretreatment of the protoplasts with soybean agglutinin (SBA) resulted in a 10-fold reduction of the lateral mobility of antibody MVS-1 (D = 4.1 X 10(-11) cm2/s). This lectin-induced modulation could be partially reversed by prior treatment of the protoplasts with either colchicine or cytochalasin B. When used together, these drugs completely reversed the modulation effect induced by SBA. These results have refined our previous analysis of the effect of SBA on receptor mobility to the level of a defined receptor and suggest that the binding of SBA to the plasma membrane results in alterations in the plasma membrane such that the lateral diffusion of other receptors is restricted. These effects are most likely mediated by the cytoskeletal components of the plant cell.

scholarly journals Lateral diffusion of an 80,000-dalton glycoprotein in the plasma membrane of murine fibroblasts: relationships to cell structure and function.

1984 ◽  
Vol 99 (5) ◽  
pp. 1624-1633 ◽  
Author(s):  
K Jacobson ◽  
D O'Dell ◽  
J T August
Keyword(s):  
Plasma Membrane ◽  
Diffusion Coefficients ◽  
Lateral Diffusion ◽  
Leading Edge ◽  
Fluorescence Recovery ◽  
Lateral Mobility ◽  
Cell Surface Glycoprotein ◽  
Murine Fibroblasts ◽  
Interphase Cells ◽  
Cell Fragments

The lateral diffusion of an 80,000-dalton major cell surface glycoprotein of murine fibroblasts has been measured. This antigen, identified through the use of monoclonal antibodies, is an integral glycoprotein distributed through the plasma membrane as judged by immunofluorescence and immunoelectron microscopy (see preceding paper). Measurements of fluorescence recovery after photobleaching were performed on the antigen-antibody complex within the plasma membrane of C3H/10T1/2 and NIH/3T3 cells after labeling the monoclonal antibody with fluorescein. Measurements were performed as a function of temperature, for interphase, mitotic, and G0 C3H/10T1/2 cells. The mean lateral diffusion coefficients (D) for the antibody-protein complex in interphase cells were in the range of 0.7-3.5 X 10(-10) cm2/s between 9 degrees and 37 degrees C, while that for the lipid analog probe, dihexadecylindocarbocyanine was about two orders of magnitude greater. This comparison indicates that peripheral interactions other than bilayer fluidity limit the lateral mobility of the antigen. The mobile fraction of mitotic, G0, and interphase cells showed a monotonic increase with temperature with most of the antibody-antigen complexes being free to move about 25 degrees C. Semi-quantitative interpretations of both the slow glycoprotein diffusion and the immobile fraction are offered. Comparison of diffusion coefficients for cells in different phases of the cell cycle does not reveal striking differences. Mobile fractions for G0 cells at 25 degrees C or less are substantially lower than in interphase cells. In all cases, there was a remarkably broad range of the fluorescence recovery data between different cells, resulting in up to a 10-fold variation in diffusion coefficients, which is far greater than the precision limits of the experiment. Diffusion values and mobile fractions were generally well within a factor of two when measured at several arbitrary points on a single cell. The origins of this cellular heterogenity remain to be elucidated. Lateral mobility in cell fragments and specific regions of single cells was also examined. The glycoprotein was mobile in ventral surface cell fragments. Its mobility was not altered in regions of cell-cell underlapping. However, the diffusion coefficient was threefold higher near the leading edge of motile cells compared to the trailing region. This difference may reflect weaker coupling of the glycoprotein to the underlying cytoskeleton in the dynamic leading edge region.

scholarly journals Evidence from lateral mobility studies for dynamic interactions of a mutant influenza hemagglutinin with coated pits.

1991 ◽  
Vol 115 (6) ◽  
pp. 1585-1594 ◽  
Author(s):  
E Fire ◽  
D E Zwart ◽  
M G Roth ◽  
Y I Henis
Keyword(s):  
Plasma Membrane ◽  
Lattice Structure ◽  
Lateral Diffusion ◽  
Live Cells ◽  
Lateral Mobility ◽  
Coated Pits ◽  
Dynamic Interactions ◽  
Intact Cells ◽  
Hypertonic Medium ◽  
Mobility Measurement

Replacement of cysteine at position 543 by tyrosine in the influenza virus hemagglutinin (HA) protein enables the endocytosis of the mutant protein (Tyr 543) through coated pits (Lazarovits, J., and M. G. Roth. 1988. Cell. 53:743-752). To investigate the interactions between Tyr 543 and the clathrin coats in the plasma membrane of live cells, we performed fluorescence photobleaching recovery measurements comparing the lateral mobilities of Tyr 543 (which enters coated pits) and wild-type HA (HA wt, which is excluded from coated pits), following their expression in CV-1 cells by SV-40 vectors. While both proteins exhibited the same high mobile fractions, the lateral diffusion rate of Tyr 543 was significantly slower than that of HA wt. Incubation of the cells in a sucrose-containing hypertonic medium, a treatment that disperses the membrane-associated coated pits, resulted in similar lateral mobilities for Tyr 543 and HA wt. These findings indicate that the lateral motion of Tyr 543 (but not of HA wt) is inhibited by transient interactions with coated pits (which are essentially immobile on the time scale of the lateral mobility measurements). Acidification of the cytoplasm by prepulsing the cells with NH4Cl (a treatment that arrests the pinching-off of coated vesicles from the plasma membrane and alters the clathrin lattice morphology) led to immobilization of a significant part of the Tyr 543 molecules, presumably due to their entrapment in coated pits for the entire duration of the lateral mobility measurement. Furthermore, in both untreated and cytosol-acidified cells, the restrictions on Tyr 543 mobility were less pronounced in the cold, suggesting that the mobility-restricting interactions are temperature dependent and become weaker at low temperatures. From these studies we conclude the following. (a) Lateral mobility measurements are capable of detecting interactions of transmembrane proteins with coated pits in intact cells. (b) The interactions of Tyr 543 with coated pits are dynamic, involving multiple entries of Tyr 543 molecules into and out of coated pits. (c) Alterations in the clathrin lattice structure can modulate the above interactions.

Exterior and Interior Events in Early Stage of Thrombin-induced Platelet Aggregation

1977 ◽  
Vol 38 (03) ◽  
pp. 0630-0639 ◽  
Author(s):  
Shuichi Hashimoto ◽  
Sachiko Shibata ◽  
Bonro Kobayashi
Keyword(s):  
Molecular Weight ◽  
Enzyme Activity ◽  
Plasma Membrane ◽  
Platelet Aggregation ◽  
Early Stage ◽  
Adenyl Cyclase ◽  
Cellular Component ◽  
Primary Event ◽  
Rabbit Platelets ◽  
Membrane Bound

SummaryTreatment of washed rabbit platelets with 1 u/ml of thrombin at 37° C resulted in a disappearance from platelets of a protein with 250,000 dalton molecular weight which was shown to be originated from plasma membrane. Parallel loss of adenyl cyclase was noted, and both reactions were complete within 30 sec. From the patterns of disc electrophoretograms, the importance of quick suppression of thrombin action in demonstrating the primary event was stressed.Thrombin induced an apparent activation of membrane bound phosphodiesterase. This reaction was also complete within 30 sec. The cellular component which contained the enzyme activity was distinct from plasma membrane. Soluble phosphodiesterase was not influenced by thrombin at all.These reactions required intact platelet cells to react with thrombin, and no reaction was detected when subcellular preparations were treated with thrombin.Possibility of collaboration of changes in externally located synthetic enzyme with those in internally located degrading enzyme in the early phase of thrombin action on platelets was suggested.

COVID-19: Update on Pathogenesis and Treatment Strategies

2020 ◽  
Vol 16 (1) ◽  
pp. 1-5
Author(s):  
Rakesh K. Chauhan ◽  
Pramod K. Sharma ◽  
Shikha Srivastava
Keyword(s):  
Monoclonal Antibody ◽  
Plasma Membrane ◽  
Human Monoclonal Antibody ◽  
Cardiac Injury ◽  
Treatment Strategies ◽  
Severe Pneumonia ◽  
Ground Glass Opacity ◽  
Golgi Membrane ◽  
Virus Particles ◽  
Global Pandemic

COVID-19 (Coronavirus disease) is the most contagious virus, which has been characterized as a global pandemic by WHO. The pathological cycle of COVID-19 virus can be specified as RNAaemia, severe pneumonia, along with the Ground-glass opacity (GGO), and acute cardiac injury. The S protein of Coronavirus has been reported to be involved in the entry of the virus into the host cell, which can be accomplished by direct membrane fusion between the virus and plasma membrane. In the endoplasmic reticulum or Golgi membrane, the newly formed enveloped glycoproteins are introduced. The spread of disease occurs due to contact and droplets unleashed by the vesicles holding the virus particles combined with the plasma membrane to the virus released by the host. The present manuscript describes the pathogenesis of COVID-19 and various treatment strategies that include drugs such as chloroquine and hydroxychloroquine, an anti-malarial drug, antibodies: SARS-CoV-specific human monoclonal antibody CR3022 and plasma treatment facilitate the therapeutic effect.

scholarly journals Monoclonal antibody detection of plasma membrane cholesterol microdomains responsive to cholesterol trafficking

2001 ◽  
Vol 42 (9) ◽  
pp. 1492-1500 ◽  
Author(s):  
Howard S. Kruth ◽  
Ina Ifrim ◽  
Janet Chang ◽  
Lia Addadi ◽  
Daniele Perl-Treves ◽  
...  
Keyword(s):  
Monoclonal Antibody ◽  
Plasma Membrane ◽  
Antibody Detection ◽  
Membrane Cholesterol ◽  
Cholesterol Trafficking ◽  
Plasma Membrane Cholesterol

Glycoconjugates on the surface of spores of the pathogenic fungus Phytophthora cinnamomi studied using fluorescence and electron microscopy and flow cytometry

1990 ◽  
Vol 36 (3) ◽  
pp. 183-192 ◽  
Author(s):  
A. R. Hardham ◽  
E. Suzaki
Keyword(s):  
Flow Cytometry ◽  
Plasma Membrane ◽  
Cell Surface ◽  
Phytophthora Cinnamomi ◽  
Pathogenic Fungus ◽  
Fluorescein Isothiocyanate ◽  
Pathogenic Fungi ◽  
Surface Flow ◽  
Soybean Agglutinin ◽  
Binding Material

Glycoconjugates on the surface of zoospores and cysts of the pathogenic fungus Phytophthora cinnamomi have been studied using fluorescein isothiocyanate labelled lectins for fluorescence microscopy and flow cytometry, and ferritin- and gold-labelled lectins for ultrastructural analysis. Of the five lectins used, only concanavalin A (ConA) binds to the surface of the zoospores, including the flagella and water expulsion vacuole. This suggests that of accessible saccharides, glucosyl or mannosyl residues predominate on the outer surface of the zoospore plasma membrane. Early in encystment, a system of flat disc-like cisternae, which underlie the zoospore plasma membrane, vesiculate. These and other small peripheral vesicles quickly disappear. After the induction of encystment, ConA is no longer localised close to the plasma membrane but binds to material loosely associated with the cell surface. Quantitative measurements by flow cytometry indicate that the ConA-binding material is gradually lost from the cell surface. The cyst wall is weakly labelled, but the site of germ tube emergence stains intensely. During the first 2 min after the induction of encystment, material that binds soybean agglutinin, Helix pommatia agglutinin, and peanut agglutinin appears on the surface of the fungal cells. The distribution of this material, rich in galactosyl or N-acetyl-D-galactosaminosyl residues, is initially patchy, but by 5 min the material evenly coats most of the cell surface. Labelling of zoospores in which intracellular sites are accessible indicates that the soybean agglutinin binding material is stored in vesicles that lie beneath the plasma membrane. Quantitation of soybean agglutinin labelling shows that maximum binding occurs 2–3 min after the induction of encystment. Key words: cell surface, flow cytometry, lectins, pathogenic fungi, Phytophthora cinnamomi.

Lateral Mobility of Integrin αIIbβ3 (Glycoprotein IIb/IIIa) in the Plasma Membrane of a Human Megakaryocyte

1997 ◽  
Vol 77 (01) ◽  
pp. 143-149 ◽  
Author(s):  
Annelies Schootemeijer ◽  
Gijsbert van Willigen ◽  
Hans van der Vuurst ◽  
Leon G J Tertoolen ◽  
Siegfried W De Laat ◽  
...  
Keyword(s):  
Plasma Membrane ◽  
Fluorescence Recovery After Photobleaching ◽  
Cell Activation ◽  
Lateral Diffusion ◽  
Cytochalasin D ◽  
Lag Phase ◽  
Integrin Αiibβ3 ◽  
Cell Matrix ◽  
Cytoplasmic Actin ◽  
Mobile Fraction

SummaryThe migration of integrins to sites of cell-cell and cell-matrix contact is thought to be important for adhesion strengthening. We studied the lateral diffusion of integrin αIIbβ3 (glycoprotein Ilb/IIIa) in the plasma membrane of a cultured human megakaryocyte by fluorescence recovery after photobleaching of FITC-labelled monovalent Fab fragments directed against the P3 subunit. The diffusion of P3 on the unstimulated megakaryocyte showed a lateral diffusion coefficient (D) of 0.37 X10'9 cm2/s and a mobile fraction of about 50%. Stimulation with ADP (20 μM) or α-thrombin (10 U/ml) at 22° C induced transient decreases in both parameters reducing D to 0.21 X 10‘9 cm2/s and the mobile fraction to about 25%. The fall in D was observed within 1 min after stimulation but the fall in mobile fraction showed a lag phase of 5 min. The lag phase was absent in the presence of Calpain I inhibitor, whereas cytochalasin D completely abolished the decrease in mobile fraction. The data are compatible with the concept that cell activation induces anchorage of 50% of the mobile αIIbβ3 (25% of the whole population of receptor) to the cytoplasmic actin filaments, although, as discussed, other rationals are not ruled out.

Hypoxemia regulates effect of lipopolysaccharide on polymorphonuclear leukocyte CD11b/CD18 expression

1994 ◽  
Vol 76 (4) ◽  
pp. 1657-1663 ◽  
Author(s):  
H. H. Simms ◽  
R. D′Amico
Keyword(s):  
Monoclonal Antibody ◽  
Polymorphonuclear Leukocyte ◽  
Whole Blood ◽  
Lipid A ◽  
Cytochalasin B ◽  
Actinomycin D ◽  
H2o2 Production ◽  
Functional Capability ◽  
Receptor Shedding ◽  
Do So

Expression of the receptor CD11b/CD18 on the polymorphonuclear leukocyte (PMN) surface is important for several aspects of PMN function during endotoxemia. The mechanisms underlying regulation of CD11b/CD18 expression during hypoxemia and endotoxemia, however, are less clear. We investigated the effects of exposure of whole blood PMNs to lipopolysaccharide (LPS) during hypoxemia. During hypoxemia (10–30% O2 saturation), LPS reduced CD11b/CD18 expression. Both kinetic assays and experiments with microfilament stabilizers (phalloidin, cytochalasin B) demonstrated that this was most likely due to receptor shedding. Incubation of whole blood PMNs with an anti-CD14 monoclonal antibody (MEM18) largely prevented the LPS-induced reduction of CD11b/CD18 expression. Decreased CD11b/CD18 expression reduced PMN functional capability, as the binding of its ligand (erythrocytes opsonized with the 3rd component of complement Cbi) and intracellular H2O2 production were reduced. After exposure to LPS, N-formyl-methionyl-leucyl-phenylalanine could rapidly induce new CD11b/CD18 receptors to the cell surface, and this was not inhibited by actinomycin D or cycloheximide. After reoxygenation (> 90% O2 saturation), CD11b/CD18 expression was restored, and this was abrogated by exposure to cytochalasin B. Lipid A was able to reproduce the effects of LPS during hypoxemia and hypoxemia-reoxygenation but required a 10-fold greater concentration to do so. These results demonstrate that during hypoxemia an important pathophysiological property of LPS is to reduce CD11b/CD18 expression. This results in diminished PMN functional capability, which would contribute to the pathogenicity of LPS during acute infectious states.

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