Lateral diffusion of concanavalin A receptors in the plasma membrane of mouse fibroblasts.

Lateral diffusion of receptors binding fluorescein labeled concanavalin A and its succinylated derivative has been measured by bleaching portions of the labeled surface and following return of fluorescence to the bleached spot. Binding of either concanavalin A or its succinylated derivative causes restriction of mobility of the surface receptors for this lectin. The degree of restriction is a function of time after binding the lectin.     

Lateral diffusion of concanavalin a receptors in the plasma membrane of mouse fibroblasts

Lateral diffusion of receptors binding fluorescein labeled concanavalin A and its succinylated derivative has been measured by bleaching portions of the labeled surface and following return of fluorescence to the bleached spot. Binding of either concanavalin A or its succinylated derivative causes restriction of mobility of the surface receptors for this lectin. The degree of restriction is a function of time after binding the lectin.     

Concanavalin A surface receptors and cytoplasmic actin in cell adhesion.

A double immunofluorescence staining technique to locate concanavalin A (Con A) surface receptors and cytoplasmic actin in the same cell was applied to monolayer cultures of rat foetal fibroblasts during cell detachment induced by trypsin and during cell attachment to glass substratum. Con A receptors were demonstrated by fluorescein-isothiocyanate-labelled Con A (FITC-Con A) and actin by specific anti-actin antibody (AAA) traced with rhodamine-labelled goat anti-human globulin (R-AHG). Untreated, control cells had an elongated shape, Con A receptors restricted to cell margins and prominent actin filaments. After 2 min treatment with 0.001% trypsin the cells became angular with Con A receptors in clusters and actin in a diffuse or aggreagate staining pattern. Progressive cell rounding followed and this was accompanied by the development of long, thin, arborized cell processes, studded with Con A receptors and containing fine actin filaments. Complete cell rounding preceded cell detachment. The sites of detached cells were marked by fine aggregates containing Con A receptors and actin. In cells attaching to a glass substratum, actin was present in a diffusely stained or aggregate pattern in round cells, in filaments restricted to cell margins in partially spread cells and in numerous filaments in fully spread cells. Con A receptors were present in clusters in round cells, in clusters or caps in partially spread cells and in cell margins in fully spread cells. Binding of FITC-Con A to partially spread cells resulted in dissolution of the few, newly formed, actin filaments. We believe our observations are consistent with the idea that actin filaments, formed during cell attachment, contribute towards the maintenance of cell adhesion by helping in the preservation of cell shape and by anchorage of Con A receptors at points of cell attachment to the substratum.     

Lateral diffusion in the plasma membrane of maize protoplasts with implications for cell culture

Plasma-membrane dynamics in live protoplasts from maize (Zea mays L.) roots were characterized and examined for relationships as to the ability of the protoplasts to synthesize new cell walls and develop to cells capable of division. The lateral diffusion-coefficients and mobile fractions of fluorescence-labeled plasma-membrane proteins and lipids were measured by fluorescence photobleaching recovery. Small but significant effects on the diffusion of membrane proteins were observed after treatments with oryzalin or amiprophosmethyl, microtubule-disrupting drugs that increased the mobile fraction, and after treatments with cytochalasins B or D, microfilament-disrupting drugs that decreased the diffusion coefficient. A number of parameters were tested for correlative effects on membrane dynamics and protoplast performance in culture. Protoplasts isolated with a cellulase preparation from Trichoderma viride showed faster membrane-protein diffusion and a lower frequency of development to cells capable of division than did protoplasts isolated with a cellulase preparation from T. reesei. Membrane proteins in maize A632, a line less capable of plant regeneration from callus, diffused with a smaller diffusion coefficient but a greater mobile fraction than did membrane proteins in maize A634, a line with greater regeneration capacity. The plasma membranes of A632 and A634 protoplasts also differed with regard to lateral-diffusion characteristics of phospholipid and sterol probes, although the presence of both rapidly and slowly diffusing lipid components indicated the apparent existence of lipid domains in both A632 and A634. The protoplasts of the two lines did not differ significantly, however, in either wall regeneration or frequency of development to cells capable of division.Abbreviations and symbols D lateral diffusion coefficient - FITC fluorescein-5-isothiocyanate - FPR fluorescence photobleaching recovery - LY Lucifer yellow - LY-Chol dilithium 4-amino-N-[(-(carbo(5-cholesten-3-yl)oxy)hydrazinocarbonyl)aminol]-1,8-naphthalimide-3,6-disulfonate - LY-DC_16:0PE dilithium 4-amino-N-[3-(-(dipalmitoyl-sn-glycero-3-phosphoethanol-amino)ethylsulfonyl)phenyl]-1,8-naphthalimide-3,6-disulfonate     

Concanavalin A increases spontaneous beat rate of embryonic chick heart cell aggregates

The plant lectin concanavalin A (Con A), at concentrations of 5–200 μg/ml, induced a twofold to fivefold increase in spontaneous beat rate of cultured aggregates of ventricular cells from seven-day chick embryos. This response was time, dose, and temperature dependent and was accompanied by a decrease in transmembrane potential. It could be blocked or reversed by α-methyl-D-mannoside but was not reversed by dilution alone. Binding of the lectin occurred in the cold, but a temperature-dependent process was also necessary to produce the response. Divalent (succinyl) Con A did not cause a beat rate increase. Whole heart aggregates responded similarly but less intensely than ventricular aggregates. Atrial aggregates, and whole heart aggregates treated with 5 μg/ml of Con A, produced a biphasic chronotropic response, first decreasing then increasing their beat rates. These results suggest that saccharide-bearing macromolecules on the heart cell surface play a role in regulating spontaneous beat rate.     

Lateral diffusion of lectin receptors in fibroblast membranes as a function of cell shape

Anchorage-dependent fibroblasts respond to biochemical growth signals only when attached to and spread on a suitable substrate surface. Attachment of fibroblasts initiates a cytoskeletal assembly process that results in the organization of long actin stress fibers and microtubules which may be required for transmembrane signal transduction. Fibroblasts maintained in suspension, however, remain spherical with no apparent stress fibers or lengthy microtubules. Because of the significant differences in cytoskeletal organisation induced by shape modification, and the resulting possible changes in organization and dynamics of membrane receptors, the technique of fluorescence redistribution after photobleaching (FRAP) was employed to examine the lateral mobility of wheat germ agglutinin (WGA) and succinylated concanavalin A (sCon A) receptors in the plasma membrane of untransformed and Kirsten murine sarcoma virus-transformed Balb/c 3T3 fibroblasts in the spread and spherical state. An examination of FITC-WGA and FITC-sCon A binding to the plasma membrane for both cell lines in a spread or spherical state demonstrated no significant differences in the number of WGA or Con A receptors as a function of shape or transformation. The primary observations from this study are (a) membrane WGA and sCon A receptors in spherical Balb/c 3T3 fibroblasts display mobility 12 times faster than in the spread state, while phospholipid mobility is similar and apparently shape independent, (b) transformed cells in the spread state have WGA and sCon A receptor mobilities similar to those of untransformed cells in the spread state, (c) flat adherent, but not unattached spherical, Balb/c 3T3 fibroblasts are subject to Con A-induced global modulation and (d) transformed cells in the spherical state contain a significant population of cells (approximately 30%) with WGA receptor mobilities faster than those observed in spherical untransformed cells. These observations are discussed in terms of a linked matrix model for membrane protein diffusion.     

Lateral diffusion of proteins and lipids in the plasma membrane of rose protoplast

Summary Lateral diffusion measurements have been made on lipids and proteins in the plasma membrane of live protoplasts derived from rose (Rosa sp. Paul's Scarlet) suspension-cultured cells. Two different fluorescent lipid probes exhibited markedly different diffusion rates, indicating possible heterogeneity in the lipid domain of the membrane. Membrane proteins were labeled directly with covalently-reactive fluorophores, and factors that might perturb the lateral diffusion of these labeled proteins were investigated. Treatment of the protoplasts with various cytoskeleton-disrupting drugs generally had little effect on protein diffusion, although treatment with oryzalin, a microtubule-disrupting drug, did slightly reduce the mobile fraction of membrane proteins. Elevation of the CaCl₂ concentration in the medium from 1 mM to 10 mM significantly reduced the mobile fraction of membrane proteins and also increased the fraction of protoplasts that were able to regenerate cell walls and divide in culture. These results are discussed in relation to reported evidence of lipid domains in the plasma membranes of other cells and protoplasts. The relative importance of lipid domains and membrane-cytoskeleton interaction in governing protein diffusion is considered.Abbreviations D lateral diffusion coefficient - RCA Ricinus communis agglutinin - BPA Bauhinia purpurea agglutinin - DTAF dichlorotriazinylaminofluorescein - FTSC fluorescein-5-thiosemicarbazide - C₁₈-Fl 5-(N-octadecanoyl)aminofluorescein - LY-Chol Lucifer yellow conjugate of cholesterol, i.e., dilithium 4-amino-N-[(-(carbo(5-cho-lesten-3-yl)oxy)hydrazinocarbonyl)amino]-1,8-naphthalimide-3,6-disulfonate - APM amiprophosmethyl - DMSO dimethylsulfoxide - FPR fluorescence photobleaching recovery - sd standard deviation - FRAF fluorescence redistribution after fusion - M mobile fraction     

Lateral mobility of proteins and lipids in the red cell membrane and the activation of adenylate cyclase by beta-adrenergic receptors

Models of beta-adrenergic signal transduction in red blood cell membranes frequently assume that at least one of the membrane-bound components is laterally mobile and distributes the hormonal signal in the membrane plane. However, direct measurements reveal that protein lateral mobility in the red cell membrane is severely restricted. Furthermore, the spectrin-actin compartmentalizes the cytoplasmic face of the red cell membrane into a regular array of small elementary areas. These considerations support models in which the beta-adrenergic signal is spread in the membrane plane by a molecule which has binding sites on the membrane but diffuses in the aqueous compartment.     

Concanavalin A inhibition of alpha-bungarotoxin binding to a nonfusing muscle cell line.

Incubation of a nonfusing muscle cell line, BC3H1, with concanavalin A (Con A) results in a maximum decrease of 35% in the cell's ability to bind alpha-bungarotoxin (alpha-BuTx). The Con A-induced inhibition of 125I-alpha-BuTx binding is reversible and the degree of inhibition parallels the degree of saturation of Con A binding sites on the cell surface. The maximum level of Con A-induced inhibition of 125I-alpha-BuTx binding is not affected by increasing the time of incubation in Con A, using higher concentrations of Con A or by increasing the time of incubation in the presence of 125I-alpha-BuTx. In addition, all BC3H1 cells in culture are sensitive to the Con A-induced inhibition of 125I-alpha-BuTx binding. A comparison of the pseudo-first order rate constants for 125I-alpha-BuTx binding to untreated (8.6 x 10(4) M-1 S-1) and Con A-treated (5.4 x 10(4) M-1 S-1) BC3H1 cells, however, shows that those acetylcholine receptors in Con A-treated cells which bind 125I-alpha-BuTx do so with a lowered apparent affinity. Partial inhibition of toxin-binding capacity is not a consequence of two classes of acetylcholine receptors on the cell surface. Furthermore, individual receptors experience partial inhibition of their binding capacity by Con A, resulting in receptors with at least one binding site blocked and at least one site available for alpha-BuTx binding.     

Functional membrane diffusion of G-protein coupled receptors

G-protein-coupled receptor function involves interactions between the receptor, G-proteins and effectors in the cell plasma membrane. The main biochemical processes have been individually identified but the mechanisms governing the successive protein–protein interactions of this complex multi-molecular machinery have yet to be established. We discuss advances in understanding the functional dynamics of the receptor resulting from diffusion measurements, and in the context of the plasma membrane organization. Aurélie Baker and Aude Saulière contributed equally to this work. Presented at the joint biannual meeting of the SFB-GEIMM-GRIP, Anglet France, 14–19 October, 2006.     

Mobility and diffusion in the plane of cell membrane

The mobility and diffusion of integral proteins in the plane of the membrane are studied in the light of recently known hydrodynamic equations of liquid crystals. We derive the formulas of mobility and diffusion constant in a two-dimensional liquid crystal, and give the solution of the diffusion equation in a spherical membrane. We then discuss the results of the Frye-Edidin (1970) experiments and compare the data with our theoretical values. We conclude that the (human and mouse cell) membranes of the Frye-Edidin experiments are in a phase transition or critical region at 37 °C. Further experiments are proposed to test our assertion.     

Lateral diffusion of antigen receptors artificially incorporated onto B lymphocytes

In the companion paper, we have shown that palmitate conjugates of a monoclonal anti-DNP IgA (protein 315) incorporated onto B lymphocytes can bind DNP antigens and that this binding causes polyclonal B cell activation. In this study we use fluorescence photobleaching recovery (FPR) techniques to examine the lateral diffusion and mobile fractions of antigen-receptor complexes on receptor-decorated B cells as functions of antigen concentration and epitope density. Antigens used in this study are DNP conjugates of polymerized flagellin (DNP-POL) and linear dextran of 2 X 10(6) m.w. (DNP-DEX). The diffusion coefficient observed for antigen bound to artificial receptors decreases monotonically with increased antigen dose and epitope density. When the artificial receptor-bearing cells are labeled with either relatively high concentrations of medium epitope density antigen or high epitope density antigen, a large fraction of antigen-receptor complexes become immobile in the time scale of the experiment. We attribute this behavior to extensive receptor cross-linking by antigen. In parallel with these FPR experiments, we examined the effects of antigen concentration and epitope density on the polyclonal humoral response of receptor-decorated B cells. We found that the response is a function of both antigen concentration and epitope density similar to that seen in natural B cells. The combined results of these experiments show that cell activation results when the diffusion coefficient of the antigen-receptor complex ranges between 10 X 10(-11) cm2 sec-1 and 5 X 10(-11) cm2 sec-1. These values represent threefold and sixfold decreases from the diffusion coefficient of antigen-free receptors, respectively. However, when either a high antigen concentration or epitope density causes a large fraction of antigen-receptor complexes to become immobile, B cells become unresponsive not only to the bound antigen, but also to LPS. Results obtained in this study are very similar to those obtained in a study performed with natural antigen-specific B cells. Therefore, for the responding population of receptor-decorated B cells, it is possible that antigens activate and paralyze these B cells by mechanisms similar to those by which antigens regulate normal B cell responses.     

Lateral regionalization and diffusion of a maturation-dependent antigen in the ram sperm plasma membrane

We have used a monoclonal antibody ESA 152 in fluorescence recovery after photobleaching (FPR) studies of a maturation-dependent surface antigen of ram sperm. The antibody is an immunoglobulin G secreted by a hybridoma derived from NS1 mouse myeloma cells. The ESA 152 antigen is not detectable in testicular sperm. It is localized on the surface of ejaculated sperm where it is present on all regions of the surface, but tends to be concentrated on the posterior region of the head. The ESA 152 antigen can be extracted by detergents or chloroform-methanol. The extracted antigen is sensitive to proteases and migrates with an apparent Mr approximately 30,000 in SDS-containing 10-20% polyacrylamide gradient gels. FPR measurements of ESA 152 lateral mobility in the membrane yield diffusion coefficients in the range 10(-9)-10(-8) cm2/s, values typical of lipids but observed for proteins only at the fluid dynamic limit where diffusion is controlled by lipid fluidity. Immobile fractions, typical of membrane proteins, are observed on all regions. When the antigen is stained by a fluoresceinated Fab fragment of the ESA 152 antibody, the diffusibility is highly regionalized, with particularly low, but rapid, recovery on the midpiece. Cross-linking of the antigen with the intact ESA 152 antibody induces a redistribution in which the antigen is excluded from the posterior head region. This cross-linking is accompanied by increases in ESA 152 diffusibility on both the anterior head and the midpiece.     

Lateral diffusion of membrane D-galactosyl glycoconjugates of differentiating neuroblastoma cells

Neuroblastoma cells were induced to differentiate either by serum deprivation or addition of dimethylsulfoxide. Using the “fluorescence recovery after photobleaching method” (FRAP), the lateral diffusion properties of D-galactosyl glycoconjugates revealed with fluorescent labelled peanut agglutinin (PNA) was investigated. Statistical significant modifications were found on process-bearing cells only for the characteristic diffusion time. The mobile fractions of PNA binding sites were distributed about a mean value of 60%. Attempt was made to discuss the FRAP results in term of cell-to-cell variation.     

Concanavalin A affects glycosaminoglycans cellular and extracellular accumulation in cultured embryonic fibroblasts

Incorporation of 3H glucosamine and 35SO4 into glycosaminoglycans and proteoglycans produced and secreted by 7, 11 and 14 day chick embryo fibroblasts in vitro after concanavalin A treatment has been determined. Lectin differently affects 3H and 35SO4 incorporation. It enhances 3H labelled GAG accumulation in both cellular and extracellular compartments. Total incorporation of 35SO4 remains unchanged whereas the intracellular one is stimulated and the extracellular is reduced. All the effects are more relevant in the early stages of development. HA and PG cellular and extracellular accumulation seems to be independently regulated.     

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

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.     

Electrophoresis and diffusion in the plane of the cell membrane.

Electrophoretic and diffusional movements of concanavalin A (Con A) receptors and acetylcholine (ACh) receptors in the plane of the plasma membrane of mononucleate, spherical Xenopus myoblasts were studied by microfluorimetry and iontophoresis. We found that (a) a uniform electric field of 10 V/cm applied along the cell surface produces a partial accumulation of both types of receptors toward the cathodal pole of the cell within 30 min: (b) post-field relaxation of the culture results in the complete recovery of the uniform distribution of the Con A receptors within 10 min; and (c) in contrast to the Con A receptor in general, accumulation of ACh receptors by the electric field results in the formation of stable, localized receptor aggregates. Theoretical analyses were carried out for the distribution of charged membrane receptors at equilibrium between electrophoresis and diffusion, and for the rate of back diffusion after the removal of the field. These analyses indicated that, at 22 degrees C, the average electrophoretic mobility of the electrophoretically mobile population of the Con A receptors is about 1.9 X 10(-3) micron/s per V/cm, while their average diffusion coefficient is 5.1 X 10(-9) cm2/s.