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6. De vernatting van Nederland: het gevolg van een toename van de extreme neerslag?

Author

de Keijzer, S., van Boxel, J., and Computational Geo-Ecology (IBED, FNWI)

Abstract

De laatste jaren wordt er steeds meer aandacht besteed de wereldwijde klimaatverandering die een gevolg zou kunnen zijn van een versterkt broeikaseffect. Er zijn talloze aanwijzingen te vinden die wijzen op een verandering van het klimaat. Verwoestijning in Afrika en grootschalige overstromingen in Europa (Tsjechië, Oost-Duitsland, Noord-Frankrijk, België en ook Nederland kampten in 2002 met ernstige wateroverlast) zijn de sprekende voorbeelden die de wetenschappelijke wereld aan het denken zetten. Ook in Nederland is de afgelopen eeuw de neerslaghoeveelheid toegenomen. Vooral extreme buien worden steeds vaker waargenomen. Dat levert vaak schade op, zoals bij de Ikea waar op 24 augustus 2002 een dak onder het gewicht van het water bezweek tijdens een hevige bui. Op dezelfde dag stortte het dak van de zwembaden in Weesp en Ettenleur in. Dit artikel bespreekt de veranderingen in het neerslagklimaat van Nederland aan de hand van 100 jaar neerslaggegevens. Het blijkt dat de toename van de gemiddelde jaarlijkse neerslag komt doordat het vaker regent en deels doordat de neerslagintensiteit toegenomen is.

Published
2003

7. The Tetraspanin CD37 Orchestrates the alpha4beta1 Integrin-Akt Signaling Axis and Supports Long-Lived Plasma Cell Survival

Author

van Spriel, A.B., de Keijzer, S., van der Schaaf, A., Gartlan, K.H., Sofi, M., Light, A., Linssen, P.C.M., Boezeman, J.B.M., Zuidscherwoude, M., Reinieren-Beeren, I., Cambi, A., Mackay, F., Tarlinton, D.M., Figdor, C.G., Wright, M.D., van Spriel, A.B., de Keijzer, S., van der Schaaf, A., Gartlan, K.H., Sofi, M., Light, A., Linssen, P.C.M., Boezeman, J.B.M., Zuidscherwoude, M., Reinieren-Beeren, I., Cambi, A., Mackay, F., Tarlinton, D.M., Figdor, C.G., and Wright, M.D.

Abstract

Contains fulltext : 109748.pdf (publisher's version ) (Closed access), Signaling by the serine and threonine kinase Akt (also known as protein kinase B), a pathway that is common to all eukaryotic cells, is central to cell survival, proliferation, and gene induction. We sought to elucidate the mechanisms underlying regulation of the kinase activity of Akt in the immune system. We found that the four-transmembrane protein CD37 was essential for B cell survival and long-lived protective immunity. CD37-deficient (Cd37(-/-)) mice had reduced numbers of immunoglobulin G (IgG)-secreting plasma cells in lymphoid organs compared to those in wild-type mice, which we attributed to increased apoptosis of plasma cells in the germinal centers of the spleen, areas in which B cells proliferate and are selected. CD37 was required for the survival of IgG-secreting plasma cells in response to binding of vascular cell adhesion molecule 1 to the alpha(4)beta(1) integrin. Impaired alpha(4)beta(1) integrin-dependent Akt signaling in Cd37(-/-) IgG-secreting plasma cells was the underlying cause responsible for impaired cell survival. CD37 was required for the mobility and clustering of alpha(4)beta(1) integrins in the plasma membrane, thus regulating the membrane distribution of alpha(4)beta(1) integrin necessary for activation of the Akt survival pathway in the immune system.

Published
2012

10. Evaluatie onderwatersuppleties Egmond en Bergen

Author

Spanhoff, R. (author), De Keijzer, S. (author), Walburg, A.M. (author), Biegel, E.J. (author), Spanhoff, R. (author), De Keijzer, S. (author), Walburg, A.M. (author), and Biegel, E.J. (author)

Abstract

Het kustvak bij Egmond wordt, evenals dat bij Bergen, frequent gesuppleerd om de positie van de vastgestelde basiskustlijn (BKL) te handhaven. Deze BKL is ter plekke, vanwege de specifieke situatie aldaar, verder zeewaarts gekozen dan in aangrenzende vakken. Bij Egmond moet zo bijvoorbeeld gewaarborgd worden dat de strandboulevard in tact blijft. De suppleties werden tot voor kort uitgevoerd als strandsuppletie. Hun levensduur bleek relatief kort te zijn, zodat de suppleties regelmatig werden herhaald. Deze korte levensduur wordt geweten aan de vooruitgeschoven positie van de kustlijn, die de natuur relatief snel teniet wil doen (Boers, 1999). Als alternatief voor deze strandsuppleties is bij Egmond in 1999 een combinatie gerealiseerd van een (gebruikelijke) strandsuppletie met een zeewaarts daarvan aangebrachte onderwatersuppletie, terwijl hetzelfde bij Bergen in 2000 gebeurde. De hoop is dat een strandsuppletie door het toevoegen van een onderwatersuppletie een langer leven beschoren is dan zonder deze maatregel. Reden daarvoor zou zijn dat de onderwatersuppletie de golfaanval op de strandsuppletie reduceert. Verder wordt van een onderwatersuppletie sowieso een gunstige werking verwacht op de kustlijn, gezien eerdere ervaringen (bijv. Terschelling). Het is redelijk te verwachten dat dit effect ook op zal treden in de combinatie met een strandsuppletie. Met dergelijke combinaties is nog nauwelijks ervaring opgedaan. De onderwatersuppleties bij Terschelling, Delfland, Katwijk, Noordwijk, Ameland en Scheveningen, die redelijk gemonitord en bestudeerd worden, zijn alle uitgevoerd zonder aanvullende maatregelen als strandsuppletie. Combinatie-suppleties zullen in de toekomst vaker overwogen worden, als een strandsuppletie nodig is. Volgen of de combinatie bij Egmond en Bergen positief uitvalt is daarom gewenst. Hier worden enkele resultaten gegeven van onze bevindingen tot op heden. Bij de huidige analyses bleken het kustsysteem Bergen-Egmond en daarmee de onderwatersu

Published
2004

11. De invloed van stormcondities op het bankengedrag bij Egmond en Bergen vóór en na een onderwatersuppletie

Author

De Keijzer, S. (author) and De Keijzer, S. (author)

Abstract

In dit rapport wordt gekeken of bankbewegingen stormafhankelijk zijn. Er wordt hiervoor gekeken naar de banken bij Egmond en Bergen. Om de hoofdvraag te beantwoorden wordt er in dit rapport ingegaan op de volgende vier onderzoeksvragen: (1) Om te kunnen toetsen of bankbewegingen stormafhankelijk zijn, zal een manier bedacht moeten worden om het golfklimaat tussen de opeenvolgende opnames te kwantificeren. Er zal gezocht worden naar een parameter die het belangrijkste deel van het golfklimaat omvat: Is het mogelijk een index te definiëren voor de golfcondities tussen de opnames? (2) Naast het kwantificeren van de golfcondities voorafgaand aan de opnames is het ook van belang de ontwikkelingen tussen de opnames te kunnen bepalen. Aangezien gezocht wordt naar de relatie tussen golfcondities en bankengedrag, ligt het voor de hand een parameter die de bankverplaatsingen beschrijft te kiezen: Is het mogelijk een parameter te definiëren die de beweging van de brekerbanken omschrijft? (3) Na het definiëren van de golf- en bankparameter, zullen beide worden gebruikt om de invloed van voorafgaande golfcondities te bepalen op het bankengedrag. Belangrijk is dat het bankengedrag meer omvat dan alleen de bankbewegingen, ook de vorm van de banken zal hierbij meegenomen worden: Zijn de golfcondities aan de hand van deze index te koppelen aan het bankengedrag? (4) Naar verwachting speelt de golfrichting een grote rol. Vooral de vorm van de banken zou door de golfrichting bepaald kunnen worden. Ook zorgen schuin invallende golven voor een toename in het kustlangstransport. Aangezien de golfrichting een sterke variabiliteit vertoont in de tijd, zal het lastig worden te bepalen wat zijn invloed is tussen de JARKUS-opnames. Wellicht dat de ARGUS-beelden hierbij uitkomst kunnen bieden: Welke rol speelt de golfrichting?

Published
2004

13. Characterization of the Signaling Modalities of Prostaglandin E2 Receptors EP2 and EP4 Reveals Crosstalk and a Role for Microtubules.

Author

Vleeshouwers W, van den Dries K, de Keijzer S, Joosten B, Lidke DS, and Cambi A

Subjects
Animals, Cell Line, Cyclic AMP metabolism, Dendritic Cells metabolism, Humans, Mice, Myeloid Cells metabolism, RAW 264.7 Cells, Microtubules metabolism, Receptors, Prostaglandin E, EP2 Subtype metabolism, Receptors, Prostaglandin E, EP4 Subtype metabolism, Signal Transduction physiology
Abstract

Prostaglandin E2 (PGE2) is a lipid mediator that modulates the function of myeloid immune cells such as macrophages and dendritic cells (DCs) through the activation of the G protein-coupled receptors EP2 and EP4. While both EP2 and EP4 signaling leads to an elevation of intracellular cyclic adenosine monophosphate (cAMP) levels through the stimulating Gα s protein, EP4 also couples to the inhibitory Gα i protein to decrease the production of cAMP. The receptor-specific contributions to downstream immune modulatory functions are still poorly defined. Here, we employed quantitative imaging methods to characterize the early EP2 and EP4 signaling events in myeloid cells and their contribution to the dissolution of adhesion structures called podosomes, which is a first and essential step in DC maturation. We first show that podosome loss in DCs is primarily mediated by EP4. Next, we demonstrate that EP2 and EP4 signaling leads to distinct cAMP production profiles, with EP4 inducing a transient cAMP response and EP2 inducing a sustained cAMP response only at high PGE2 levels. We further find that simultaneous EP2 and EP4 stimulation attenuates cAMP production, suggesting a reciprocal control of EP2 and EP4 signaling. Finally, we demonstrate that efficient signaling of both EP2 and EP4 relies on an intact microtubule network. Together, these results enhance our understanding of early EP2 and EP4 signaling in myeloid cells. Considering that modulation of PGE2 signaling is regarded as an important therapeutic possibility in anti-tumor immunotherapy, our findings may facilitate the development of efficient and specific immune modulators of PGE2 receptors., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Vleeshouwers, van den Dries, de Keijzer, Joosten, Lidke and Cambi.)

Published
2021
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14. Detection of Single Quantum Dots in Model Systems with Sheet Illumination Microscopy.

Author

Friedrich M, Nozadze R, de Keijzer S, Steinmeyer R, Ermolayev V, and Harms GS

Abstract

Single molecule detection and tracking provides at times the only possible method to observe the interactions of low numbers of biomolecules, inlcuding DNA, receptors and signal mediating proteins in living systems. However, most existing imaging methods do not enable both high sensitivity and non-invasive imaging of large specimens. In this study we report a new setup for selective plane illumination microscopy (SPIM), which enables fast imaging and single molecule tracking with the resolution of confocal microscopy and the optical penetration beyond 300 μm. We detect and report our instrumental figures of merit, control values of fluorescence properties of single nano crystals in comparison to both standard widefield configurations, and also values of nanocrystals in multicellular "fruiting bodies" of Dictyostelium, an excellent control as a model developmental system. In the Dictyostelium , we also report some of our first tracking of single nanocrystals with SPIM. The new SPIM setup represents a new technique, which enables fast single molecule imaging and tracking in living systems.

Published
2018
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15. Changes in membrane sphingolipid composition modulate dynamics and adhesion of integrin nanoclusters.

Author

Eich C, Manzo C, de Keijzer S, Bakker GJ, Reinieren-Beeren I, García-Parajo MF, and Cambi A

Subjects
Actin Cytoskeleton metabolism, Actins metabolism, Cell Adhesion, Cell Line, Ceramides metabolism, Diffusion, G(M1) Ganglioside metabolism, Humans, Lymphocyte Function-Associated Antigen-1 metabolism, Monocytes metabolism, Sphingomyelin Phosphodiesterase metabolism, Sphingomyelins metabolism, Cell Membrane metabolism, Integrins metabolism, Nanoparticles chemistry, Sphingolipids metabolism
Abstract

Sphingolipids are essential constituents of the plasma membrane (PM) and play an important role in signal transduction by modulating clustering and dynamics of membrane receptors. Changes in lipid composition are therefore likely to influence receptor organisation and function, but how this precisely occurs is difficult to address given the intricacy of the PM lipid-network. Here, we combined biochemical assays and single molecule dynamic approaches to demonstrate that the local lipid environment regulates adhesion of integrin receptors by impacting on their lateral mobility. Induction of sphingomyelinase (SMase) activity reduced sphingomyelin (SM) levels by conversion to ceramide (Cer), resulting in impaired integrin adhesion and reduced integrin mobility. Dual-colour imaging of cortical actin in combination with single molecule tracking of integrins showed that this reduced mobility results from increased coupling to the actin cytoskeleton brought about by Cer formation. As such, our data emphasizes a critical role for the PM local lipid composition in regulating the lateral mobility of integrins and their ability to dynamically increase receptor density for efficient ligand binding in the process of cell adhesion.

Published
2016
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16. The multiple faces of prostaglandin E2 G-protein coupled receptor signaling during the dendritic cell life cycle.

Author

De Keijzer S, Meddens MB, Torensma R, and Cambi A

Subjects
Animals, Humans, Models, Biological, Cell Cycle, Dendritic Cells cytology, Dendritic Cells metabolism, Dinoprostone metabolism, Receptors, G-Protein-Coupled metabolism, Signal Transduction
Abstract

Many processes regulating immune responses are initiated by G-protein coupled receptors (GPCRs) and report biochemical changes in the microenvironment. Dendritic cells (DCs) are the most potent antigen-presenting cells and crucial for the regulation of innate and adaptive immune responses. The lipid mediator Prostaglandin E2 (PGE2) via four GPCR subtypes (EP1-4) critically regulates DC generation, maturation and migration. The role of PGE2 signaling in DC biology was unraveled by the characterization of EP receptor subtype expression in DC progenitor cells and DCs, the identification of the signaling pathways initiated by these GPCR subtypes and the classification of DC responses to PGE2 at different stages of differentiation. Here, we review the advances in PGE2 signaling in DCs and describe the efforts still to be made to understand the spatio-temporal fine-tuning of PGE2 responses by DCs.

Published
2013
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17. Single-molecule imaging technique to study the dynamic regulation of GPCR function at the plasma membrane.

Author

Snaar-Jagalska BE, Cambi A, Schmidt T, and de Keijzer S

Subjects
Cell Membrane chemistry, Dictyostelium cytology, Dictyostelium metabolism, Equipment Design, Humans, Models, Molecular, Molecular Imaging instrumentation, Protozoan Proteins analysis, Protozoan Proteins metabolism, Cell Membrane metabolism, Molecular Imaging methods, Receptors, G-Protein-Coupled analysis, Receptors, G-Protein-Coupled metabolism
Abstract

The lateral diffusion of a G-protein-coupled receptor (GPCR) in the plasma membrane determines its interaction capabilities with downstream signaling molecules and critically modulates its function. Mechanisms that control GPCR mobility, like compartmentalization, enable a cell to fine-tune its response through local changes in the rate, duration, and extent of signaling. These processes are known to be highly dynamic and tightly regulated in time and space, usually not completely synchronized in time. Therefore, bulk studies such as protein biochemistry or conventional confocal microscopy will only yield information on the average properties of the interactions and are compromised by poor time resolution. Single-particle tracking (SPT) in living cells is a key approach to directly monitor the function of a GPCR within its natural environment and to obtain unprecedented detailed information about receptor mobility, binding kinetics, aggregation states, and domain formation. This review provides a detailed description on how to perform single GPCR tracking experiments., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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18. The tetraspanin CD37 orchestrates the α(4)β(1) integrin-Akt signaling axis and supports long-lived plasma cell survival.

Author

van Spriel AB, de Keijzer S, van der Schaaf A, Gartlan KH, Sofi M, Light A, Linssen PC, Boezeman JB, Zuidscherwoude M, Reinieren-Beeren I, Cambi A, Mackay F, Tarlinton DM, Figdor CG, and Wright MD

Subjects
Animals, Antigens, CD genetics, Antigens, CD metabolism, Antigens, Neoplasm genetics, Antigens, Neoplasm metabolism, Cell Movement genetics, Cell Survival genetics, Cell Survival immunology, Germinal Center immunology, Germinal Center metabolism, Immunoglobulin G immunology, Immunoglobulin G metabolism, Integrin alpha4beta1 genetics, Integrin alpha4beta1 metabolism, Mice, Mice, Knockout, Plasma Cells metabolism, Proto-Oncogene Proteins c-akt genetics, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction genetics, Spleen immunology, Spleen metabolism, Tetraspanins genetics, Tetraspanins metabolism, Antigens, CD immunology, Antigens, Neoplasm immunology, Cell Movement immunology, Integrin alpha4beta1 immunology, Plasma Cells immunology, Proto-Oncogene Proteins c-akt immunology, Signal Transduction immunology, Tetraspanins immunology
Abstract

Signaling by the serine and threonine kinase Akt (also known as protein kinase B), a pathway that is common to all eukaryotic cells, is central to cell survival, proliferation, and gene induction. We sought to elucidate the mechanisms underlying regulation of the kinase activity of Akt in the immune system. We found that the four-transmembrane protein CD37 was essential for B cell survival and long-lived protective immunity. CD37-deficient (Cd37(-/-)) mice had reduced numbers of immunoglobulin G (IgG)-secreting plasma cells in lymphoid organs compared to those in wild-type mice, which we attributed to increased apoptosis of plasma cells in the germinal centers of the spleen, areas in which B cells proliferate and are selected. CD37 was required for the survival of IgG-secreting plasma cells in response to binding of vascular cell adhesion molecule 1 to the α(4)β(1) integrin. Impaired α(4)β(1) integrin-dependent Akt signaling in Cd37(-/-) IgG-secreting plasma cells was the underlying cause responsible for impaired cell survival. CD37 was required for the mobility and clustering of α(4)β(1) integrins in the plasma membrane, thus regulating the membrane distribution of α(4)β(1) integrin necessary for activation of the Akt survival pathway in the immune system.

Published
2012
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19. Quantification of GPCR internalization by single-molecule microscopy in living cells.

Author

Sergé A, de Keijzer S, Van Hemert F, Hickman MR, Hereld D, Spaink HP, Schmidt T, and Snaar-Jagalska BE

Subjects
Dictyostelium metabolism, Microscopy, Fluorescence methods, Molecular Imaging methods, Receptors, G-Protein-Coupled metabolism, Subcellular Fractions metabolism
Abstract

Receptor internalization upon ligand stimulation is a key component of a cell's response and allows a cell to correctly sense its environment. Novel fluorescent methods have enabled the direct visualization of the agonist-stimulated G-protein-coupled receptors (GPCR) trafficking in living cells. However, it is difficult to observe internalization of GPCRs in vivo due to intrinsic autofluorescence and cytosolic signals of fluorescently labeled GPCRs. This study uses the superior positional accuracy of single-molecule fluorescence microscopy to visualize in real time the internalization of Dictyostelium discoideum cAMP receptors, cAR1, genetically encoded with eYFP. This technique made it possible to follow the number of receptors in time revealing that the fraction of cytosolic receptors increases after persistent agonist stimulation and that the majority of the receptors were degraded after internalization. The observed internalization process was phosphorylation dependent, as shown with the use of a phosphorylation deficient cAR1 mutant, cm1234-eYFP, or stimulation with an antagonist, Rp-cAMPS that does not induce receptor phosphorylation. Furthermore, experiments done in mound-stage cells suggest that intrinsic, phosphorylation-induced internalization of cAR1 is necessary for Dictyostelium wild type cells to progress properly through multicellular development. To our knowledge, this observation illustrates for the first time phosphorylation-dependent internalization of single cAR1 molecules in living cells and its involvement in multicellular development. This very sensitive imaging of receptor internalization can be a useful and universal approach for pharmacological characterization of GPCRs in other cell types., (This journal is © The Royal Society of Chemistry 2011)

Published
2011
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20. Interleukin-4 alters early phagosome phenotype by modulating class I PI3K dependent lipid remodeling and protein recruitment.

Author

de Keijzer S, Meddens MB, Kilic D, Joosten B, Reinieren-Beeren I, Lidke DS, and Cambi A

Subjects
Animals, Cell Line, Hydrogen-Ion Concentration, Immunoglobulin G immunology, Intracellular Membranes drug effects, Intracellular Membranes metabolism, Macrophages cytology, Macrophages drug effects, Macrophages metabolism, Membrane Lipids chemistry, Mice, Phagocytosis drug effects, Phagosomes enzymology, Phosphatidylinositols metabolism, Protein Transport drug effects, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction drug effects, Time Factors, Zymosan immunology, Interleukin-4 pharmacology, Membrane Lipids metabolism, Phagosomes drug effects, Phagosomes metabolism, Phenotype, Phosphatidylinositol 3-Kinases metabolism
Abstract

Phagocytosis is a complex process that involves membranelipid remodeling and the attraction and retention of key effector proteins. Phagosome phenotype depends on the type of receptor engaged and can be influenced by extracellular signals. Interleukin 4 (IL-4) is a cytokine that induces the alternative activation of macrophages (MΦs) upon prolonged exposure, triggering a different cell phenotype that has an altered phagocytic capacity. In contrast, the direct effects of IL-4 during phagocytosis remain unknown. Here, we investigate the impact of short-term IL-4 exposure (1 hour) during phagocytosis of IgG-opsonized yeast particles by MΦs. By time-lapse confocal microscopy of GFP-tagged lipid-sensing probes, we show that IL-4 increases the negative charge of the phagosomal membrane by prolonging the presence of the negatively charged second messenger PI(3,4,5)P3. Biochemical assays reveal an enhanced PI3K/Akt activity upon phagocytosis in the presence of IL-4. Blocking the specific class I PI3K after the onset of phagocytosis completely abrogates the IL-4-induced changes in lipid remodeling and concomitant membrane charge. Finally, we show that IL-4 direct signaling leads to a significantly prolonged retention profile of the signaling molecules Rac1 and Rab5 to the phagosomal membrane in a PI3K-dependent manner. This protracted early phagosome phenotype suggests an altered maturation, which is supported by the delayed phagosome acidification measured in the presence of IL-4. Our findings reveal that molecular differences in IL-4 levels, in the extracellular microenvironment, influence the coordination of lipid remodeling and protein recruitment, which determine phagosome phenotype and, eventually, fate. Endosomal and phagosomal membranes provide topological constraints to signaling molecules. Therefore, changes in the phagosome phenotype modulated by extracellular factors may represent an additional mechanism that regulates the outcome of phagocytosis and could have significant impact on the net biochemical output of a cell.

Published
2011
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21. A spatially restricted increase in receptor mobility is involved in directional sensing during Dictyostelium discoideum chemotaxis.

Author

de Keijzer S, Sergé A, van Hemert F, Lommerse PH, Lamers GE, Spaink HP, Schmidt T, and Snaar-Jagalska BE

Subjects
Animals, Dictyostelium cytology, Dimerization, GTP-Binding Protein alpha Subunits metabolism, GTP-Binding Protein beta Subunits metabolism, GTP-Binding Protein gamma Subunits metabolism, Recombinant Fusion Proteins metabolism, Chemotactic Factors metabolism, Chemotaxis physiology, Dictyostelium physiology, Protozoan Proteins metabolism, Receptors, Cyclic AMP metabolism
Abstract

The directed cell migration towards a chemotactic source, chemotaxis, involves three complex and interrelated processes: directional sensing, cell polarization and motility. Directional sensing allows migrating eukaryotic cells to chemotax in extremely shallow gradients (<2% across the cell body) of the chemoattractant. Although directional sensing has been observed as spatially restricted responses along the plasma membrane, our understanding of the ;compass' of the cell that controls the gradient-induced translocation of proteins during chemotactic movements is still largely lacking. Until now, the dynamical behaviour and mobility of the chemoattractant-receptor molecule has been neglected in models describing the directional sensing mechanisms. Here, we show by single-molecule microscopy an agonist-induced increase in the mobile fraction of cAMP-receptor at the leading edge of chemotacting Dictyostelium discoideum cells. The onset of receptor mobility was correlated to the uncoupling and activation of the Galpha2-protein. A finite-element simulation showed that the increase in mobile fraction of the activated receptor enabled the amplified generation of activated Gbetagamma-dimers at the leading edge of the cell, faithfully representing a primary linear amplification step in directional sensing. We propose here that modulation of the receptor mobility is directly involved in directional sensing and provides a new mechanistic basis for the primary amplification step in current theoretical models that describe directional sensing.

Published
2008
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22. Asymmetric elastic properties of Dictyostelium discoideum in relation to chemotaxis.

Author

Haupt BJ, Osbourn M, Spanhoff R, de Keijzer S, Müller-Taubenberger A, Snaar-Jagalska E, and Schmidt T

Subjects
Animals, Cell Polarity, Elasticity, Microscopy, Atomic Force, Sepharose chemistry, Chemotaxis, Dictyostelium cytology, Dictyostelium ultrastructure
Abstract

In this study we used an AFM to investigate the cytoskeletal properties of live Dictyostelium discoideum cells by measuring the local stiffness across individual living cells. We have examined differences in elastic properties of polarized and unpolarized AX3 wild type and the mutant DAip1- cells, as well as the differences in the front and rear of the cells in relation to organization of the actin cytoskeleton. We found that the average Young's modulus increases upon polarization for the thin regions of the cell and that in polarized cells, the cell front was stiffer than the cell back. We also found that AX3 cells were stiffer than DAip1- cells. This finding suggests that actin polymerization is one of the major determinants of cell motility in Dictyostelium. In addition, a thin agarose film was studied as a model system to examine the influence of the substrate of thin materials probed with the AFM.

Published
2007
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