Your search keyword '"Koffer A"' showing total 36 results

1. The transmembrane adaptor protein NTAL signals to mast cell cytoskeleton via the small GTPase Rho.

Author

Tůmová M, Koffer A, Simíček M, Dráberová L, and Dráber P

Subjects

Actins genetics, Actins immunology, Actins metabolism, Adaptor Proteins, Signal Transducing, Animals, Antigens immunology, Bone Marrow Cells cytology, Bone Marrow Cells metabolism, Cytoskeleton genetics, Cytoskeleton metabolism, Mast Cells cytology, Mast Cells metabolism, Mice, Mice, Knockout, Proteins genetics, Proteins metabolism, Signal Transduction genetics, rac GTP-Binding Proteins genetics, rac GTP-Binding Proteins immunology, rac GTP-Binding Proteins metabolism, rho GTP-Binding Proteins genetics, rho GTP-Binding Proteins metabolism, rhoA GTP-Binding Protein, Bone Marrow Cells immunology, Cytoskeleton immunology, Mast Cells immunology, Proteins immunology, Signal Transduction immunology, rho GTP-Binding Proteins immunology

Abstract

The transmembrane adaptor protein NTAL (non-T-cell activation linker) participates in signalosome assembly in hematopoietic cells, but its exact role in cell physiology remains enigmatic. We report here that BM-derived mast cells from NTAL-deficient mice, responding to Ag alone or in combination with SCF, exhibit reduced spreading on fibronectin, enhanced filamentous actin depolymerization and enhanced migration towards Ag relative to WT cells. No such differences between WT and NTAL(-/-) BM-derived mast cells were observed when SCF alone was used as activator. We have examined the activities of two small GTPases, Rac and Rho, which are important regulators of actin polymerization. Stimulation with Ag and/or SCF enhanced activity of Rac(1,2,3) in both NTAL(-/-) and WT cells. In contrast, RhoA activity decreased and this trend was much faster and more extensive in NTAL(-/-) cells, indicating a positive regulatory role of NTAL in the recovery of RhoA activity. After restoring NTAL into NTAL(-/-) cells, both spreading and actin responses were rescued. This is the first report of a crucial role of NTAL in signaling, via RhoA, to mast cell cytoskeleton., (Copyright © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2010

2. Targeting of calcium:calmodulin signals to the cytoskeleton by IQGAP1.

Author

Psatha MI, Razi M, Koffer A, Moss SE, Sacks DB, and Bolsover SR

Subjects

Animals, Calcium metabolism, Cell Line, Tumor, Immunoblotting, Microscopy, Confocal, Microscopy, Fluorescence, Rats, ras GTPase-Activating Proteins genetics, Calcium Signaling, Calmodulin metabolism, Cytoskeleton metabolism, Mast Cells metabolism, ras GTPase-Activating Proteins metabolism

Abstract

Mast cells reorganize their actin cytoskeleton in response to cytosolic calcium signals while in parallel secreting histamine and other inflammatory mediators. The effect of calcium on actin is mediated in large part through calmodulin. EGFP-tagged calmodulin is concentrated in the actin-rich cortex of RBL-2H3 mast cells. Transfection with small interfering RNA directed against the actin and calmodulin-binding protein IQGAP1 dramatically reduced expression of the latter protein and reduced or eliminated the concentration of calmodulin at the actin-rich cortex. Both actin reorganization and secretion were enhanced in IQGAP1 knockdown cells. Our results suggest a model in which calmodulin is targeted to and sequestered at the actin cytoskeleton by IQGAP1. Upon cell stimulation and the subsequent [Ca2+]i increase, it is immediately available to activate local downstream targets.

Published

2007

3. Effect of cyclosporin-A on secretion from intact and permeabilised mast cells.

Author

Broyd H, Koffer A, and Assem ES

Subjects

Animals, Cells, Cultured, Humans, Mast Cells cytology, Rats, Rats, Sprague-Dawley, beta-N-Acetylhexosaminidases metabolism, Cell Membrane Permeability drug effects, Cyclosporine pharmacology, Mast Cells drug effects, Mast Cells metabolism

Published

2005

4. Calmodulin spatial dynamics in RBL-2H3 mast cells.

Author

Psatha M, Koffer A, Erent M, Moss SE, and Bolsover S

Subjects

Activins metabolism, Animals, Cell Line, Tumor, Cytoskeleton physiology, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Mast Cells chemistry, Population Density, Population Dynamics, Rats, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Calmodulin metabolism, Mast Cells metabolism

Abstract

A line of rat basophilic leukaemia (RBL) cells, a model of mast cells, stably expressing EGFP-tagged calmodulin secreted normally in response to standard agonists. As reported for other cell types, calmodulin was concentrated in the mitotic spindle poles of dividing cells. In unstimulated interphase cells calmodulin was concentrated in the cell cortex and at a single central location. Disruption of cortical actin eliminated the concentration of calmodulin at the cortex while the central calmodulin concentration was associated with an enrichment of tubulin and is likely to represent the centrosome. Following stimulation with either an agonist that crosslinks Fc receptors or co-application of phorbol ester and a calcium ionophore the interior of the cells lost calmodulin while cortical fluorescence became more pronounced but also less uniform. After stimulation discrete bright puncta of calmodulin-EGFP (CaM-EGFP) appeared in the cell interior. Puncta colocalised with moving lysotracker-labelled granules, suggesting that calmodulin may play a role in organising their transport. Our results show that in interphase RBL cells a large fraction of the calmodulin pool is associated with targets in the actin cytoskeleton and demonstrate the utility of this model system for studying calmodulin biology.

Published

2004

5. Latrunculin B or ATP depletion induces cofilin-dependent translocation of actin into nuclei of mast cells.

Author

Pendleton A, Pope B, Weeds A, and Koffer A

Subjects

Actin Depolymerizing Factors, Active Transport, Cell Nucleus, Animals, Apoptosis, Calcium metabolism, Cell Nucleus metabolism, Cells, Cultured, Flow Cytometry, Fluorescent Dyes pharmacology, Marine Toxins pharmacology, Microscopy, Confocal, Phalloidine pharmacology, Protein Conformation, Rats, Rhodamines pharmacology, Thiazolidines, Actins metabolism, Adenosine Triphosphate metabolism, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Mast Cells metabolism, Microfilament Proteins metabolism, Thiazoles pharmacology

Abstract

Increasing cellular G-actin, using latrunculin B, in either intact or permeabilized rat peritoneal mast cells, caused translocation of both actin and an actin regulatory protein, cofilin, into the nuclei. The effect was not associated with an increase in the proportion of apoptotic cells. The major part of the nuclear actin was not stained by rhodamine-phalloidin but could be visualized with an actin antibody, indicating its monomeric or a conformationally distinct state, e.g. cofilin-decorated filaments. Introduction of anti-cofilin into permeabilized cells inhibited nuclear actin accumulation, implying that an active, cofilin-dependent, import exists in this system. Nuclear actin was localized outside the ethidium bromide-stained region, in the extrachromosomal nuclear domain. In permeabilized cells, the appearance of nuclear actin and cofilin was not significantly affected by increasing [Ca(2+)] and/or adding guanosine 5'-O-(3-thiotriphosphate), but was greatly promoted when ATP was withdrawn. Similarly, ATP depletion in intact cells also induced nuclear actin accumulation. In contrast to the effects of latrunculin B, ATP depletion was associated with an increase in cortical F-actin. Our results suggest that the presence of actin in the nucleus may be required for certain stress-induced responses and that cofilin is essential for the nuclear import of actin.

Published

2003

6. Vacuole formation in mast cells responding to osmotic stress and to F-actin disassembly.

Author

Koffer A, Williams M, and Johansen T

Subjects

Actins drug effects, Amiloride pharmacology, Animals, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Cell Membrane drug effects, Cell Membrane ultrastructure, Cell Size drug effects, Cell Size physiology, Enzyme Inhibitors pharmacology, Hypertonic Solutions pharmacology, Male, Mast Cells cytology, Mast Cells drug effects, Osmotic Pressure, Polymers metabolism, Rats, Rats, Sprague-Dawley, Sodium-Hydrogen Exchangers antagonists & inhibitors, Sodium-Hydrogen Exchangers metabolism, Surface Tension drug effects, Thiazoles pharmacology, Thiazolidines, Vacuoles drug effects, Vacuoles ultrastructure, Actins metabolism, Cell Membrane metabolism, Mast Cells metabolism, Vacuoles metabolism, Water-Electrolyte Balance physiology

Abstract

Fluorescent probes were used to visualize the morphology of membranes and of F-actin in rat peritoneal mast cells, exposed to hyperosmotic medium and consequently reversed to isotonicity. Hypertonicity induced cell shrinkage followed by a regulatory volume increase, and cell alkalinization that was sensitive to amiloride, an inhibitor of the Na(+)/H(+) exchanger (NHE), but not to Latrunculin B, an inhibitor of actin polymerization. Using Bodipy-Sphingomyelin, we have observed formation of vacuole-like dilations (VLDs), primarily at or close to the adhesion plane, following the reversal from hyper- to isotonic medium. VLD formation was not inhibited by Latrunculin B or by amiloride. Phalloidin staining has shown that actin filaments do not surround the vacuoles and latrunculin-induced depolymerization of actin has actually promoted vacuole formation, even in isotonic conditions. The results support the idea that a decrease in membrane tension promotes the internalization of the plasma membrane.

Published

2002

7. Effects of latrunculin reveal requirements for the actin cytoskeleton during secretion from mast cells.

Author

Pendleton A and Koffer A

Subjects

Actins chemistry, Animals, Cell Membrane Permeability, Flow Cytometry, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Mast Cells drug effects, Mast Cells ultrastructure, Microscopy, Confocal, Rats, Thiazolidines, p-Methoxy-N-methylphenethylamine metabolism, p-Methoxy-N-methylphenethylamine pharmacology, Actins metabolism, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Cytoskeleton physiology, Exocytosis drug effects, Marine Toxins pharmacology, Mast Cells physiology, Thiazoles pharmacology

Abstract

To investigate the role of the actin cytoskeleton in exocytosis, we have tested the effects of latrunculin B, a microfilament-disrupting drug, on secretion from intact and permeabilised rat peritoneal mast cells. The toxin strongly inhibited secretion from intact cells (attached or in suspension) responding to a polybasic agonist, compound 48/80. However, this effect was revealed only after a profound depletion of actin filaments. This was achieved by a long (1 h) exposure of cells to the drug before activation, together with its presence during activation. Maximal inhibition of secretion by such treatment was 85% at 40 microgram/ml latrunculin B. These results indicate that minimal actin structures are essential for the exocytotic response. In contrast, stimulus-induced cell spreading was prevented by latrunculin (5 microgram/ml) applied either before or after activation. The effects of the toxin on intact cells were fully reversible. The responses of permeabilised cells were affected differentially: secretion induced by calcium was more sensitive to latrunculin than that induced by GTP-gamma-S. The calcium response, therefore, is more dependent upon the integrity of the actin cytoskeleton than the response induced by GTP-gamma-S. Again, maximal inhibitory effects (approximately 65 and 25% at 40 microgram/ml) were observed only when cells were exposed to the toxin both before and after permeabilisation. Since the permeabilised cells system focuses on the final steps of exocytosis, the incomplete inhibition suggests that actin plays a modulatory rather than a central role at this stage., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

8. Calmodulin regulates the disassembly of cortical F-actin in mast cells but is not required for secretion.

Author

Sullivan R, Burnham M, Török K, and Koffer A

Subjects

Actins drug effects, Active Transport, Cell Nucleus, Adenosine Triphosphate metabolism, Animals, Azepines pharmacology, Calcium metabolism, Calmodulin antagonists & inhibitors, Calmodulin-Binding Proteins metabolism, Cell Nucleus metabolism, Contrast Media pharmacology, Diacetyl pharmacology, Fluorescein pharmacology, Mast Cells cytology, Mast Cells drug effects, Myosin-Light-Chain Kinase antagonists & inhibitors, Myosin-Light-Chain Kinase metabolism, Myosins antagonists & inhibitors, Naphthalenes pharmacology, Nitric Oxide Synthase metabolism, Peptides metabolism, Rats, Actins metabolism, Calmodulin physiology, Diacetyl analogs & derivatives, Exocytosis drug effects, Mast Cells metabolism

Abstract

Secretion is dependent on a rise in cytosolic Ca(2+)concentration and is associated with dramatic changes in actin organization. The actin cortex may act as a barrier between secretory vesicles and plasma membrane. Thus, disassembly of this cortex should precede late steps of exocytosis. Here we investigate regulation of both the actin cytoskeleton and secretion by calmodulin. Ca(2+), together with ATP, induces cortical F-actin disassembly in permeabilized rat peritoneal mast cells. This effect is strongly inhibited by removing endogenous calmodulin (using calmodulin inhibitory peptides), and increased by exogenous calmodulin. Neither treatment, however, affects secretion. Low concentrations ( approximately 1 microM) of a specific inhibitor of myosin light chain kinase, ML-7, prevent F-actin disassembly, but not secretion. In contrast, a myosin inhibitor affecting both conventional and unconventional myosins, BDM, decreases cortical disassembly as well as secretion. Observations of fluorescein-calmodulin, introduced into permeabilized cells, confirmed a strong (Ca(2+)-independent) association of calmodulin with the actin cortex. In addition, fluorescein-calmodulin enters the nuclei in a Ca(2+)-dependent manner. In conclusion, calmodulin promotes myosin II-based contraction of the membrane cytoskeleton, which is a prerequisite for its disassembly. The late steps of exocytosis, however, require neither calmodulin nor cortical F-actin disassembly, but may be modulated by unconventional myosin(s)., (Copyright 2000 Harcourt Publishers Ltd.)

Published

2000

9. Rho GTPases: secretion and actin dynamics in permeabilized mast cells.

Author

Holt MR and Koffer A

Subjects

ADP Ribose Transferases genetics, ADP Ribose Transferases metabolism, Animals, Bacterial Proteins, Cell Membrane drug effects, Cell Membrane Permeability, Guanosine Triphosphate metabolism, Peritoneal Cavity cytology, Rats, Recombinant Fusion Proteins metabolism, Streptolysins pharmacology, rho GTP-Binding Proteins genetics, Actins metabolism, Botulinum Toxins, Exocytosis, Mast Cells metabolism, rho GTP-Binding Proteins metabolism

Published

2000

10. Rho controls cortical F-actin disassembly in addition to, but independently of, secretion in mast cells.

Author

Sullivan R, Price LS, and Koffer A

Subjects

Amides pharmacology, Amino Acid Sequence, Animals, Calcium metabolism, Enzyme Inhibitors pharmacology, Intracellular Signaling Peptides and Proteins, Molecular Sequence Data, Protein Serine-Threonine Kinases antagonists & inhibitors, Pyridines pharmacology, Rats, rho-Associated Kinases, Actins metabolism, GTP-Binding Proteins physiology, Mast Cells metabolism

Abstract

Localized disassembly of cortical F-actin has long been considered necessary for facilitation of exocytosis. Exposure of permeabilized mast cells to calcium/ATP induces cortical F-actin disassembly (calmodulin-dependent) and secretion (calmodulin-independent). The delay in the onset of secretion is characteristic for the calcium/ATP response and is abolished by GTP. Here we report that a constitutively active mutant of Rho (V14RhoA) enhanced both secretion and cortical F-actin disassembly. In addition, V14RhoA mimicked GTP by abolishing the delay in secretion. Inhibition of Rho by C3 transferase prevented both secretion ( approximately 80%) and F-actin disassembly (approximately 20%). Thus, both Rho GTPase and calcium/calmodulin contribute to the control of cortical F-actin disassembly. Stabilization of actin filaments by high concentrations of phalloidin or by a calmodulin-inhibitory peptide (based on the calmodulin-binding domain of myosin light chain kinase) did not affect the extent of secretion or the secretion-enhancing effects of V14RhoA. These results further support the existence of divergent, Rho-dependent, pathways regulating actin and exocytosis. Furthermore, compound Y-27632, a specific inhibitor of Rho-associated protein kinase (p160(ROCK)), attenuated the Rho-induced loss of cortical F-actin without affecting secretion. A model is presented in which Rho regulates secretion and cortical F-actin in a manner dependent on and/or synergistic with calcium.

Published

1999

11. The small GTP-binding proteins, Rac and Rho, regulate cytoskeletal organization and exocytosis in mast cells by parallel pathways.

Author

Norman JC, Price LS, Ridley AJ, and Koffer A

Subjects

Actins physiology, Animals, Boron Compounds, Cell Membrane Permeability, Cells, Cultured, Concanavalin A metabolism, Cytochalasins pharmacology, Cytoskeleton metabolism, Exocytosis drug effects, Flow Cytometry methods, Fluorescein-5-isothiocyanate analogs & derivatives, GTP-Binding Proteins drug effects, GTPase-Activating Proteins, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Guanosine Diphosphate analogs & derivatives, Guanosine Diphosphate pharmacology, Mast Cells metabolism, Mast Cells ultrastructure, Microscopy, Confocal methods, Proteins drug effects, Rats, Staining and Labeling methods, Thionucleotides pharmacology, beta-N-Acetylhexosaminidases metabolism, rac GTP-Binding Proteins, rho GTP-Binding Proteins, rhoA GTP-Binding Protein, Cytoskeleton ultrastructure, Exocytosis physiology, GTP-Binding Proteins metabolism, Mast Cells physiology, Proteins metabolism

Abstract

In mast cells, activation of GTP-binding proteins induces centripetal reorganization of actin filaments. This effect is due to disassembly, relocalization, and polymerization of F-actin and is dependent on two small GTPases, Rac and Rho. Activities of Rac and Rho are also essential for the secretory function of mast cells. In response to GTP-gamma-S and/or calcium, only a proportion of permeabilized mast cells is capable of secretory response. Here, we have compared actin organization of secreting and nonsecreting cell populations. We show that the cytoskeletal and secretory responses are strongly correlated, indicating a common upstream regulator of the two functions. The secreting cell population preferentially displays both relocalization and polymerization of actin. However, when actin relocalization or polymerization is inhibited by phalloidin or cytochalasin, respectively, secretion is unaffected. Moreover, the ability of the constitutively active mutants of Rac and Rho to enhance secretion is also unaffected in the presence of cytochalasin. Therefore, Rac and Rho control these two functions by divergent, parallel signaling pathways. Cortical actin disassembly occurs in both secreting and nonsecreting populations and does not, by itself, induce exocytosis. A model for the control of exocytosis is proposed that includes at least four GTP-binding proteins and suggests the presence of both shared and divergent signaling pathways from Rac and Rho.

Published

1996

12. Secretion from permeabilised mast cells is enhanced by addition of gelsolin: contrasting effects of endogenous gelsolin.

Author

Borovikov YS, Norman JC, Price LS, Weeds A, and Koffer A

Subjects

Actins metabolism, Animals, Cell Degranulation, Cells, Cultured, Kinetics, Male, Mast Cells metabolism, Mast Cells physiology, Rats, Rats, Sprague-Dawley, Gelsolin pharmacology, Gelsolin physiology, Mast Cells drug effects

Abstract

Permeabilised rat mast cells were exposed to gelsolin and its N-terminal half (S1-3), proteins that sever actin filaments in a calcium-dependent and independent manner, respectively. Gelsolin and S1-3 induced a decrease in cellular F-actin content and an increase in the extent of the secretory response. The calcium sensitivities of both these effects were consistent with the differential calcium requirements of the two proteins. Segment 1 (S1), which binds G-actin and caps filaments but does not sever them, did not show these effects. Thus, secretion of mast cells is promoted as a consequence of the severing activity of exogenous gelsolin or S1-3. Most of the endogenous gelsolin remained within permeabilised, washed mast cells and its distribution in resting state was predominantly cortical. Addition of calcium in the absence of MgATP did not reduce the F-actin content; by contrast, calcium with MgATP induced F-actin loss that was unaffected by the presence of anti-gelsolin. Because this antibody inhibits the severing activity of gelsolin, these results indicate that in permeabilised mast cells the severing activity of the remaining endogenous gelsolin is not involved in cortical actin filaments disassembly. Upon exposure to GTP-gamma-S in the absence of calcium, the content of cortical gelsolin was reduced. This parallels our previous observation of a GTP-gamma-S induced reduction of cortical actin filaments followed by their relocation to the cell's interior (Norman et al. (1994) J. Cell Biol. 126, 1005-1015) and suggests that actin redistribution may be a consequence of dissociation of gelsolin caps brought about by activation of a GTP-binding protein.

Published

1995

13. The small GTPases Rac and Rho as regulators of secretion in mast cells.

Author

Price LS, Norman JC, Ridley AJ, and Koffer A

Subjects

Animals, Calcium metabolism, Cell Degranulation, Exocytosis physiology, In Vitro Techniques, Mast Cells cytology, Rats, rac GTP-Binding Proteins, rhoA GTP-Binding Protein, GTP Phosphohydrolases physiology, GTP-Binding Proteins physiology, Mast Cells metabolism

Abstract

Background: Regulated secretion by mast cells is known to be controlled by GTP-binding proteins, but the proteins involved have not been identified. Rac and Rho, two small GTPases related to the oncoprotein Ras, mediate transmission of signals from cell-surface receptors to the actin cytoskeleton. In rat mast cells, both Rac and Rho participate in effecting the centripetal redistribution of filamentous actin that is observed after stimulation of the cells. Rho is responsible for polymerization of actin filaments in the cell interior, whereas Rac is required for the entrapment in the interior of filaments released from the cortex. Such cytoskeletal changes could be important in control of the exocytotic process, so we examined whether Rac and Rho also play a role in regulated secretion by mast cells., Results: We show that the constitutively active mutant proteins, V14RhoA and V12Rac1, enhance regulated secretion from permeabilized mast cells by increasing the proportion of cells that are competent to respond to stimulation. In addition, inhibition of endogenous Rac and Rho activity using inhibitors, N17Rac1 and C3 transferase, respectively, reduces the secretory response of mast cells to stimuli., Conclusion: These results provide direct evidence that, in mast cells, both Rac and Rho are components of the signalling pathway that leads to secretion.

Published

1995

14. Actin filament organization in activated mast cells is regulated by heterotrimeric and small GTP-binding proteins.

Author

Norman JC, Price LS, Ridley AJ, Hall A, and Koffer A

Subjects

Actin Cytoskeleton ultrastructure, Actins ultrastructure, Adenosine Diphosphate Ribose metabolism, Aluminum Compounds pharmacology, Animals, Cell Membrane Permeability, Cells, Cultured, Fluorides pharmacology, Kinetics, Macromolecular Substances, Mast Cells cytology, Mast Cells drug effects, Rats, p-Methoxy-N-methylphenethylamine pharmacology, Actin Cytoskeleton physiology, Actins metabolism, GTP-Binding Proteins metabolism, Mast Cells physiology

Abstract

Rat peritoneal mast cells, both intact and permeabilized, have been used widely as model secretory cells. GTP-binding proteins and calcium play a major role in controlling their secretory response. Here we have examined changes in the organization of actin filaments in intact mast cells after activation by compound 48/80, and in permeabilized cells after direct activation of GTP-binding proteins by GTP-gamma-S. In both cases, a centripetal redistribution of cellular F-actin was observed: the content of F-actin was reduced in the cortical region and increased in the cell interior. The overall F-actin content was increased. Using permeabilized cells, we show that AIF4-, an activator of heterotrimeric G proteins, induces the disassembly of F-actin at the cortex, while the appearance of actin filaments in the interior of the cell is dependent on two small GTPases, rho and rac. Rho was found to be responsible for de novo actin polymerization, presumably from a membrane-bound monomeric pool, while rac was required for an entrapment of the released cortical filaments. Thus, a heterotrimeric G-protein and the small GTPases, rho and rac, participate in affecting the changes in the actin cytoskeleton observed after activation of mast cells.

Published

1994

15. Calcium-induced secretion from permeabilized rat mast cells: requirements for guanine nucleotides.

Author

Koffer A

Subjects

Adenine Nucleotides metabolism, Adenosine Triphosphate pharmacology, Animals, Bacterial Proteins, Exocytosis, GTP-Binding Proteins antagonists & inhibitors, Guanine Nucleotides metabolism, Guanosine Diphosphate pharmacology, Male, Mast Cells metabolism, Permeability, Rats, Rats, Sprague-Dawley, Streptolysins, Calcium pharmacology, Guanine Nucleotides pharmacology, Mast Cells drug effects

Abstract

Cells used in this work were permeabilized by streptolysin-O and then washed to remove freely soluble components. The secretory responsiveness of these cells to various combinations of calcium, MgATP and guanine nucleotide was characterized and in most respects was found to be similar to that of the metabolically inhibited (unwashed) cells. The content of adenosine and guanine nucleotides, which remain within the permeabilized cells after washing, was estimated as 0.83 and 0.12 mM (extrapolated to intact cells), which constitutes 18 and 25%, respectively, of the total nucleotide content of mast cells. High (> mM) concentrations of MgATP, required for the calcium-induced secretion, were reduced to microM levels by suboptimal concentrations of GTP, which also markedly increased both the rate and extent of the response. Similarly, microM concentrations of MgATP reduced the requirements of the calcium-dependent secretion for GTP. The synergy of the GTP and ATP effects suggests that, together, the two nucleotides can maintain a pool of free GTP, presumably as a result of transphosphorylation from ATP to GDP. Thus, MgATP may work by transphosphorylating the endogenous GDP. However, neither GTP nor GTP-gamma-S were effective as substitutes for MgATP in the calcium-induced secretion, particularly that from metabolically inhibited cells. This indicates that MgATP does not act simply by providing GTP but is needed to maintain a phosphorylated state of the system. The synergistic effects of ATP and GTP were observed only in the presence of calcium. To test whether calcium/MgATP-induced secretion requires an activated G protein, the effects of G-protein inactivators were studied. GDP, deoxy GDP and GDP-beta-S exerted differing degrees of inhibition on secretory responses induced by various combinations of effectors. The response to calcium/MgATP was less sensitive to these inhibitors than that to GTP-gamma-S (with or without calcium). However, all three 'inhibitors' were also capable of stimulating calcium/MgATP-dependent secretion, indicating a transphosphorylation, producing GTP, dGTP and GTP-beta-S. Thus, in the absence of any specific inhibitors for either G proteins or the transphosphorylation reaction, the degree of dependence of the calcium-induced secretion on a G protein remains unclear.

Published

1993

16. Calcium and GTP-gamma-S as single effectors of secretion from permeabilized rat mast cells: requirements for ATP.

Author

Koffer A and Churcher Y

Subjects

Adenosine Triphosphate analysis, Adenosine Triphosphate pharmacology, Animals, Bacterial Proteins, Male, Mast Cells metabolism, Peritoneal Cavity, Permeability, Phospholipids analysis, Phosphoproteins analysis, Rats, Rats, Sprague-Dawley, Streptolysins, Time Factors, Calcium pharmacology, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Mast Cells drug effects

Abstract

Treatment with metabolic inhibitors and addition of exogenous MgATP exerted different effects on secretion from streptolysin-O-permeabilized mast cells, responding to calcium and GTP-gamma-S as single effectors (i.e., independently of each other). These effects were also strongly dependent on the experimental conditions. Thus cells, triggered by Ca2+ at the time of permeabilization, did not require MgATP, but after metabolic inhibition rapidly became absolutely dependent on its provision, requiring high (> mM) concentrations. AMP-PNP was not effective. After longer treatment with metabolic inhibitors, the absolute dependence on MgATP was also exhibited by cells responding to dual effectors (i.e., Ca2+ and GTP-gamma-S applied together). In contrast, calcium independent secretion due to GTP-gamma-S was more resistant to metabolic inhibition, exhibiting no absolute requirements for MgATP. Once the responsiveness to GTP-gamma-S had been lost, it could not be restored by addition of MgATP. MgATP, in fact, inhibited the response of permeabilized cells to GTP-gamma-S. This effect could be mimicked by AMP-PNP. When permeabilized cells were washed before triggering, MgATP (0.1-1 mM concentration range) was no longer inhibitory but stimulatory. These differences between Ca(2+)- and GTP-gamma-S-induced responses indicate that ATP utilization is essential to the calcium, but not to the guanine nucleotide, pathway to secretion. The rate of the response to calcium/MgATP was much slower in the absence than in the presence of GTP-gamma-S. The onset of secretion occurred after an initial delay. This lag phase was abolished by addition of GTP-gamma-S, suggesting that a GTP-binding protein may control a reaction which constitutes a rate-limiting step in the secretory process.

Published

1993

17. Intracellular mechanisms regulating exocytotic secretion in mast cells.

Author

Gomperts BD, Churcher Y, Koffer A, Lillie TH, Tatham PE, and Whalley TD

Subjects

Adenosine Triphosphate physiology, Animals, Calcium physiology, GTP-Binding Proteins physiology, Guanosine Triphosphate physiology, Humans, Exocytosis, Mast Cells metabolism

Abstract

The release of inflammatory mediators from mast cells occurs by a regulated exocytotic process. We have been able to study the intracellular events in this pathway by permeabilizing the plasma membrane of rat peritoneal mast cells and stimulating exocytosis by providing both Ca2+ and a guanine nucleotide. By this approach we have obtained evidence for the participation of at least two guanine nucleotide binding proteins in the control of exocytosis. We have also shown that ATP is unnecessary for the final events, but that it does have a number of modulatory functions, for instance in the control of the effective affinity of the proteins that bind Ca2+ and GTP. There is also evidence for a protein dephosphorylation in the later stages of the control pathway.

Published

1991

18. Changes in the state of actin during the exocytotic reaction of permeabilized rat mast cells.

Author

Koffer A, Tatham PE, and Gomperts BD

Subjects

Actin Cytoskeleton metabolism, Animals, Bacterial Proteins, Calcium physiology, Cell Membrane Permeability physiology, Cytochalasins pharmacology, Cytoskeleton metabolism, Deoxyribonuclease I, Electrophoresis, Polyacrylamide Gel, In Vitro Techniques, Peptide Mapping, Phalloidine, Protein Kinase C physiology, Rats, Rats, Inbred Strains, Rhodamines, Streptolysins, Tetradecanoylphorbol Acetate pharmacology, p-Methoxy-N-methylphenethylamine, Actins metabolism, Exocytosis physiology, Mast Cells metabolism

Abstract

The major part of mast cell actin is Triton-soluble and behaves as a monomer in the DNase I inhibition assay. Thus, actin exists predominantly in monomeric or short filament form, through filamentous actin is clearly apparent in the cortical region after rhodamine-phalloidin (RP) staining. The minimum actin content is estimated to be approximately 2.5 micrograms/10(6) cells (cytosolic concentration approximately 110 microM. After permeabilization of mast cells by the bacterial cytolysin streptolysin-O, approximately 60% of the Triton-soluble actin leaks out within 10 min. However, the staining of the cortical region by RP remains undiminished, and the cells are still capable of exocytosis when stimulated by GTP-gamma-S together with Ca2+. In the presence of cytochalasin E the requirement for Ca2+ is decreased, indicating that disassembly of the cytoskeleton may be a prerequisite for exocytosis. This disassembly is likely to be controlled by Ca2(+)-dependent actin regulatory proteins; their presence is indicated by a Ca2(+)-dependent inhibition of polymerization of extraneous pyrene-G-actin by a Triton extract of mast cells. The effect of cytochalasin E on secretion is similar to that of phorbol myristate acetate, an activator of protein kinase C; both agents enhance the apparent affinity for Ca2+ and cause variable extents of Ca2(+)-independent secretion. Exposing the permeabilized cells to increasing concentrations of Ca2+ caused a progressive decrease in F-actin levels as measured by flow cytometry of RP-stained cells. In this respect, both cytochalasin E and phorbol ester mimicked the effects of calcium. GTP-gamma-S was not required for the Ca2(+)-dependent cortical disassembly. Thus, since conditions have not yet been identified where secretion can occur in its absence, cortical disassembly may be essential (though it is not sufficient) for exocytosis to occur.

Published

1990

19. Soluble proteins as modulators of the exocytotic reaction of permeabilised rat mast cells.

Author

Koffer A and Gomperts BD

Subjects

Adenosine Triphosphate pharmacology, Animals, Bacterial Proteins, Calcium metabolism, Calcium pharmacology, Cell Membrane Permeability drug effects, Guanosine 5'-O-(3-Thiotriphosphate), Guanosine Triphosphate analogs & derivatives, Guanosine Triphosphate pharmacology, In Vitro Techniques, Magnesium pharmacology, Mast Cells drug effects, Mast Cells metabolism, Rats, Solubility, Streptolysins pharmacology, Thionucleotides pharmacology, Exocytosis drug effects, Mast Cells physiology, Proteins physiology

Abstract

This study addresses the question of the role of cytoplasmic proteins in exocytosis from permeabilised rat mast cells. We have used two different methods of cell permeabilisation (ATP4- and streptolysin O) to regulate the size of the plasma membrane lesions, and thus to dictate the rate and extent of efflux of the cytosolic proteins, and compared the secretory response of the two preparations. We report evidence for the existence of two factors present in the cytosol, which affect the exocytotic mechanism in opposing manners. One of these is required for the maintenance of cell responsiveness; it is retained for more than 120 min by ATP4- -permeabilised cells but lost within 60 min from cells permeabilised by streptolysin O. The other factor, which leaks immediately from cells treated from streptolysin O, but only gradually from cells treated with ATP4-, has the effect of suppressing the affinity for both Ca2+ and guanine nucleotide in the exocytotic reaction.

Published

1989

20. The transmembrane adaptor protein NTAL signals to mast cell cytoskeleton via the small GTPase Rho

Author

Petr Dráber, Anna Koffer, Lubica Dráberová, Michal Simicek, and Magda Tůmová

Subjects

rho GTP-Binding Proteins, RHOA, Immunology, Bone Marrow Cells, GTPase, Biology, Filamentous actin, Mice, medicine, Animals, Immunology and Allergy, Mast Cells, Antigens, Cytoskeleton, Actin, Adaptor Proteins, Signal Transducing, Mice, Knockout, Proteins, Signal transducing adaptor protein, Mast cell, Actins, rac GTP-Binding Proteins, Cell biology, medicine.anatomical_structure, biology.protein, rhoA GTP-Binding Protein, Cell activation, Signal Transduction

Abstract

The transmembrane adaptor protein NTAL (non-T-cell activation linker) participates in signalosome assembly in hematopoietic cells, but its exact role in cell physiology remains enigmatic. We report here that BM-derived mast cells from NTAL-deficient mice, responding to Ag alone or in combination with SCF, exhibit reduced spreading on fibronectin, enhanced filamentous actin depolymerization and enhanced migration towards Ag relative to WT cells. No such differences between WT and NTAL(-/-) BM-derived mast cells were observed when SCF alone was used as activator. We have examined the activities of two small GTPases, Rac and Rho, which are important regulators of actin polymerization. Stimulation with Ag and/or SCF enhanced activity of Rac(1,2,3) in both NTAL(-/-) and WT cells. In contrast, RhoA activity decreased and this trend was much faster and more extensive in NTAL(-/-) cells, indicating a positive regulatory role of NTAL in the recovery of RhoA activity. After restoring NTAL into NTAL(-/-) cells, both spreading and actin responses were rescued. This is the first report of a crucial role of NTAL in signaling, via RhoA, to mast cell cytoskeleton.

Published

2010

21. Latrunculin B or ATP Depletion Induces Cofilin-dependent Translocation of Actin into Nuclei of Mast Cells

Author

Brian Pope, Alan G. Weeds, Annmarie Pendleton, and Anna Koffer

Subjects

Phalloidine, Protein Conformation, Active Transport, Cell Nucleus, Arp2/3 complex, Apoptosis, macromolecular substances, Microfilament, Biochemistry, Adenosine Triphosphate, medicine, Animals, Mast Cells, Molecular Biology, Cells, Cultured, Actin, Fluorescent Dyes, Cell Nucleus, Microscopy, Confocal, biology, Rhodamines, Microfilament Proteins, Actin remodeling, Cell Biology, Cofilin, Bridged Bicyclo Compounds, Heterocyclic, Flow Cytometry, Actins, Rats, Cell biology, Thiazoles, Cell nucleus, medicine.anatomical_structure, Actin Depolymerizing Factors, Profilin, biology.protein, Thiazolidines, Calcium, Marine Toxins, MDia1

Abstract

Increasing cellular G-actin, using latrunculin B, in either intact or permeabilized rat peritoneal mast cells, caused translocation of both actin and an actin regulatory protein, cofilin, into the nuclei. The effect was not associated with an increase in the proportion of apoptotic cells. The major part of the nuclear actin was not stained by rhodamine-phalloidin but could be visualized with an actin antibody, indicating its monomeric or a conformationally distinct state, e.g. cofilin-decorated filaments. Introduction of anti-cofilin into permeabilized cells inhibited nuclear actin accumulation, implying that an active, cofilin-dependent, import exists in this system. Nuclear actin was localized outside the ethidium bromide-stained region, in the extrachromosomal nuclear domain. In permeabilized cells, the appearance of nuclear actin and cofilin was not significantly affected by increasing [Ca(2+)] and/or adding guanosine 5'-O-(3-thiotriphosphate), but was greatly promoted when ATP was withdrawn. Similarly, ATP depletion in intact cells also induced nuclear actin accumulation. In contrast to the effects of latrunculin B, ATP depletion was associated with an increase in cortical F-actin. Our results suggest that the presence of actin in the nucleus may be required for certain stress-induced responses and that cofilin is essential for the nuclear import of actin.

Published

2003

22. Calmodulin regulates the disassembly of cortical F-actin in mast cells but is not required for secretion

Author

Richard Sullivan, Anna Koffer, Katalin Török, and M. Burnham

Subjects

Myosin light-chain kinase, Calmodulin, Physiology, Active Transport, Cell Nucleus, Contrast Media, Diacetyl, macromolecular substances, Myosins, Naphthalenes, Exocytosis, Adenosine Triphosphate, Myosin, Animals, Mast Cells, Cytoskeleton, Myosin-Light-Chain Kinase, Molecular Biology, Actin, Cell Nucleus, biology, Azepines, Cell Biology, Actin cytoskeleton, Calmodulin-binding proteins, Actins, Rats, Cell biology, biology.protein, Calcium, Calmodulin-Binding Proteins, Fluorescein, Nitric Oxide Synthase, Peptides

Abstract

Secretion is dependent on a rise in cytosolic Ca(2+)concentration and is associated with dramatic changes in actin organization. The actin cortex may act as a barrier between secretory vesicles and plasma membrane. Thus, disassembly of this cortex should precede late steps of exocytosis. Here we investigate regulation of both the actin cytoskeleton and secretion by calmodulin. Ca(2+), together with ATP, induces cortical F-actin disassembly in permeabilized rat peritoneal mast cells. This effect is strongly inhibited by removing endogenous calmodulin (using calmodulin inhibitory peptides), and increased by exogenous calmodulin. Neither treatment, however, affects secretion. Low concentrations ( approximately 1 microM) of a specific inhibitor of myosin light chain kinase, ML-7, prevent F-actin disassembly, but not secretion. In contrast, a myosin inhibitor affecting both conventional and unconventional myosins, BDM, decreases cortical disassembly as well as secretion. Observations of fluorescein-calmodulin, introduced into permeabilized cells, confirmed a strong (Ca(2+)-independent) association of calmodulin with the actin cortex. In addition, fluorescein-calmodulin enters the nuclei in a Ca(2+)-dependent manner. In conclusion, calmodulin promotes myosin II-based contraction of the membrane cytoskeleton, which is a prerequisite for its disassembly. The late steps of exocytosis, however, require neither calmodulin nor cortical F-actin disassembly, but may be modulated by unconventional myosin(s).

Published

2000

23. Actin filament organization in activated mast cells is regulated by heterotrimeric and small GTP-binding proteins

Author

Anita C. Hall, Anna Koffer, Jim C. Norman, L S Price, and Anne J. Ridley

Subjects

Cell Membrane Permeability, Macromolecular Substances, Actin filament organization, Arp2/3 complex, Clostridium difficile toxin B, macromolecular substances, Fluorides, GTP-Binding Proteins, Animals, p-Methoxy-N-methylphenethylamine, Actin-binding protein, Mast Cells, Cytoskeleton, Aluminum Compounds, Cells, Cultured, Adenosine Diphosphate Ribose, biology, Actin remodeling, Cell Biology, Articles, Actin cytoskeleton, Actins, Cell biology, Rats, Actin Cytoskeleton, Kinetics, biology.protein, MDia1

Abstract

Rat peritoneal mast cells, both intact and permeabilized, have been used widely as model secretory cells. GTP-binding proteins and calcium play a major role in controlling their secretory response. Here we have examined changes in the organization of actin filaments in intact mast cells after activation by compound 48/80, and in permeabilized cells after direct activation of GTP-binding proteins by GTP-gamma-S. In both cases, a centripetal redistribution of cellular F-actin was observed: the content of F-actin was reduced in the cortical region and increased in the cell interior. The overall F-actin content was increased. Using permeabilized cells, we show that AIF4-, an activator of heterotrimeric G proteins, induces the disassembly of F-actin at the cortex, while the appearance of actin filaments in the interior of the cell is dependent on two small GTPases, rho and rac. Rho was found to be responsible for de novo actin polymerization, presumably from a membrane-bound monomeric pool, while rac was required for an entrapment of the released cortical filaments. Thus, a heterotrimeric G-protein and the small GTPases, rho and rac, participate in affecting the changes in the actin cytoskeleton observed after activation of mast cells.

Published

1994

24. Calcium and GTP-γ-S as single effectors of secretion from permeabilized rat mast cells: Requirements for ATP

Author

Yasmin Churcher and Anna Koffer

Subjects

Male, Time Factors, GTP', G protein, chemistry.chemical_element, Biology, Calcium, Permeability, Exocytosis, Rats, Sprague-Dawley, Adenosine Triphosphate, Bacterial Proteins, medicine, Animals, Nucleotide, Secretion, Mast Cells, Peritoneal Cavity, Molecular Biology, Phospholipids, chemistry.chemical_classification, Binding protein, Cell Biology, Phosphoproteins, Mast cell, Rats, medicine.anatomical_structure, chemistry, Biochemistry, Guanosine 5'-O-(3-Thiotriphosphate), Streptolysins, Biophysics

Abstract

Treatment with metabolic inhibitors and addition of exogenous MgATP exerted different effects on secretion from streptolysin-O-permeabilized mast cells, responding to calcium and GTP-gamma-S as single effectors (i.e., independently of each other). These effects were also strongly dependent on the experimental conditions. Thus cells, triggered by Ca2+ at the time of permeabilization, did not require MgATP, but after metabolic inhibition rapidly became absolutely dependent on its provision, requiring high (mM) concentrations. AMP-PNP was not effective. After longer treatment with metabolic inhibitors, the absolute dependence on MgATP was also exhibited by cells responding to dual effectors (i.e., Ca2+ and GTP-gamma-S applied together). In contrast, calcium independent secretion due to GTP-gamma-S was more resistant to metabolic inhibition, exhibiting no absolute requirements for MgATP. Once the responsiveness to GTP-gamma-S had been lost, it could not be restored by addition of MgATP. MgATP, in fact, inhibited the response of permeabilized cells to GTP-gamma-S. This effect could be mimicked by AMP-PNP. When permeabilized cells were washed before triggering, MgATP (0.1-1 mM concentration range) was no longer inhibitory but stimulatory. These differences between Ca(2+)- and GTP-gamma-S-induced responses indicate that ATP utilization is essential to the calcium, but not to the guanine nucleotide, pathway to secretion. The rate of the response to calcium/MgATP was much slower in the absence than in the presence of GTP-gamma-S. The onset of secretion occurred after an initial delay. This lag phase was abolished by addition of GTP-gamma-S, suggesting that a GTP-binding protein may control a reaction which constitutes a rate-limiting step in the secretory process.

Published

1993

25. Changes in the state of actin during the exocytotic reaction of permeabilized rat mast cells

Author

Anna Koffer, Peter E.R. Tatham, and Bastien D. Gomperts

Subjects

Cytochalasin E, Cell Membrane Permeability, Phalloidine, macromolecular substances, Biology, In Vitro Techniques, Microfilament, Filamentous actin, Peptide Mapping, Exocytosis, chemistry.chemical_compound, Bacterial Proteins, medicine, Animals, Deoxyribonuclease I, p-Methoxy-N-methylphenethylamine, Mast Cells, Cytoskeleton, Actin, Protein kinase C, Protein Kinase C, Rhodamines, Rats, Inbred Strains, Cell Biology, Articles, Mast cell, Cytochalasins, Actins, Cell biology, Rats, Actin Cytoskeleton, medicine.anatomical_structure, chemistry, Streptolysins, Tetradecanoylphorbol Acetate, Calcium, Electrophoresis, Polyacrylamide Gel

Abstract

The major part of mast cell actin is Triton-soluble and behaves as a monomer in the DNase I inhibition assay. Thus, actin exists predominantly in monomeric or short filament form, through filamentous actin is clearly apparent in the cortical region after rhodamine-phalloidin (RP) staining. The minimum actin content is estimated to be approximately 2.5 micrograms/10(6) cells (cytosolic concentration approximately 110 microM. After permeabilization of mast cells by the bacterial cytolysin streptolysin-O, approximately 60% of the Triton-soluble actin leaks out within 10 min. However, the staining of the cortical region by RP remains undiminished, and the cells are still capable of exocytosis when stimulated by GTP-gamma-S together with Ca2+. In the presence of cytochalasin E the requirement for Ca2+ is decreased, indicating that disassembly of the cytoskeleton may be a prerequisite for exocytosis. This disassembly is likely to be controlled by Ca2(+)-dependent actin regulatory proteins; their presence is indicated by a Ca2(+)-dependent inhibition of polymerization of extraneous pyrene-G-actin by a Triton extract of mast cells. The effect of cytochalasin E on secretion is similar to that of phorbol myristate acetate, an activator of protein kinase C; both agents enhance the apparent affinity for Ca2+ and cause variable extents of Ca2(+)-independent secretion. Exposing the permeabilized cells to increasing concentrations of Ca2+ caused a progressive decrease in F-actin levels as measured by flow cytometry of RP-stained cells. In this respect, both cytochalasin E and phorbol ester mimicked the effects of calcium. GTP-gamma-S was not required for the Ca2(+)-dependent cortical disassembly. Thus, since conditions have not yet been identified where secretion can occur in its absence, cortical disassembly may be essential (though it is not sufficient) for exocytosis to occur.

Published

1990

26. Targeting of calcium:calmodulin signals to the cytoskeleton by IQGAP1

Author

Steve E. Moss, Maria Psatha, David B. Sacks, Stephen R. Bolsover, Minoo Razi, and Anna Koffer

Subjects

Calmodulin, Physiology, Immunoblotting, Arp2/3 complex, macromolecular substances, Actin remodeling of neurons, IQGAP1, Cell Line, Tumor, Animals, Calcium Signaling, Mast Cells, Cytoskeleton, Molecular Biology, Microscopy, Confocal, biology, Actin remodeling, Cell Biology, Actin cytoskeleton, Cell biology, Rats, Profilin, Microscopy, Fluorescence, ras GTPase-Activating Proteins, biology.protein, Calcium

Abstract

Mast cells reorganize their actin cytoskeleton in response to cytosolic calcium signals while in parallel secreting histamine and other inflammatory mediators. The effect of calcium on actin is mediated in large part through calmodulin. EGFP-tagged calmodulin is concentrated in the actin-rich cortex of RBL-2H3 mast cells. Transfection with small interfering RNA directed against the actin and calmodulin-binding protein IQGAP1 dramatically reduced expression of the latter protein and reduced or eliminated the concentration of calmodulin at the actin-rich cortex. Both actin reorganization and secretion were enhanced in IQGAP1 knockdown cells. Our results suggest a model in which calmodulin is targeted to and sequestered at the actin cytoskeleton by IQGAP1. Upon cell stimulation and the subsequent [Ca2+]i increase, it is immediately available to activate local downstream targets.

Published

2006

27. Effect of cyclosporin-A on secretion from intact and permeabilised mast cells

Author

A. Koffer, El-Sayed K. Assem, and H. Broyd

Subjects

Pharmacology, medicine.medical_specialty, Allergy, Cell Membrane Permeability, Chemistry, Immunology, Pharmacology toxicology, medicine.disease, Rheumatology, beta-N-Acetylhexosaminidases, Rats, Rats, Sprague-Dawley, Internal medicine, Cyclosporin a, medicine, Cyclosporine, Animals, Humans, Secretion, Mast Cells, Cells, Cultured

Published

2005

28. Calmodulin spatial dynamics in RBL-2H3 mast cells

Author

Anna Koffer, Stephen R. Bolsover, Maria Psatha, Stephen E. Moss, and Muriel Erent

Subjects

Population Density, Cell type, Calmodulin, biology, Physiology, Recombinant Fusion Proteins, Green Fluorescent Proteins, Population Dynamics, Cell Biology, Actin cytoskeleton, Spindle apparatus, Cell biology, Activins, Rats, Cell culture, Cell Line, Tumor, Cell cortex, biology.protein, Animals, Mast Cells, Cytoskeleton, Molecular Biology, Actin

Abstract

A line of rat basophilic leukaemia (RBL) cells, a model of mast cells, stably expressing EGFP-tagged calmodulin secreted normally in response to standard agonists. As reported for other cell types, calmodulin was concentrated in the mitotic spindle poles of dividing cells. In unstimulated interphase cells calmodulin was concentrated in the cell cortex and at a single central location. Disruption of cortical actin eliminated the concentration of calmodulin at the cortex while the central calmodulin concentration was associated with an enrichment of tubulin and is likely to represent the centrosome. Following stimulation with either an agonist that crosslinks Fc receptors or co-application of phorbol ester and a calcium ionophore the interior of the cells lost calmodulin while cortical fluorescence became more pronounced but also less uniform. After stimulation discrete bright puncta of calmodulin-EGFP (CaM-EGFP) appeared in the cell interior. Puncta colocalised with moving lysotracker-labelled granules, suggesting that calmodulin may play a role in organising their transport. Our results show that in interphase RBL cells a large fraction of the calmodulin pool is associated with targets in the actin cytoskeleton and demonstrate the utility of this model system for studying calmodulin biology.

Published

2003

29. Effects of latrunculin reveal requirements for the actin cytoskeleton during secretion from mast cells

Author

A, Pendleton and A, Koffer

Subjects

Cell Membrane Permeability, Microscopy, Confocal, Bridged Bicyclo Compounds, Heterocyclic, Flow Cytometry, Actins, Exocytosis, Rats, Thiazoles, Guanosine 5'-O-(3-Thiotriphosphate), Animals, Thiazolidines, p-Methoxy-N-methylphenethylamine, Marine Toxins, Mast Cells, Cytoskeleton

Abstract

To investigate the role of the actin cytoskeleton in exocytosis, we have tested the effects of latrunculin B, a microfilament-disrupting drug, on secretion from intact and permeabilised rat peritoneal mast cells. The toxin strongly inhibited secretion from intact cells (attached or in suspension) responding to a polybasic agonist, compound 48/80. However, this effect was revealed only after a profound depletion of actin filaments. This was achieved by a long (1 h) exposure of cells to the drug before activation, together with its presence during activation. Maximal inhibition of secretion by such treatment was 85% at 40 microgram/ml latrunculin B. These results indicate that minimal actin structures are essential for the exocytotic response. In contrast, stimulus-induced cell spreading was prevented by latrunculin (5 microgram/ml) applied either before or after activation. The effects of the toxin on intact cells were fully reversible. The responses of permeabilised cells were affected differentially: secretion induced by calcium was more sensitive to latrunculin than that induced by GTP-gamma-S. The calcium response, therefore, is more dependent upon the integrity of the actin cytoskeleton than the response induced by GTP-gamma-S. Again, maximal inhibitory effects (approximately 65 and 25% at 40 microgram/ml) were observed only when cells were exposed to the toxin both before and after permeabilisation. Since the permeabilised cells system focuses on the final steps of exocytosis, the incomplete inhibition suggests that actin plays a modulatory rather than a central role at this stage.

Published

2000

30. Rho GTPases: secretion and actin dynamics in permeabilized mast cells

Author

M R, Holt and A, Koffer

Subjects

ADP Ribose Transferases, rho GTP-Binding Proteins, Botulinum Toxins, Cell Membrane Permeability, Recombinant Fusion Proteins, Cell Membrane, Actins, Exocytosis, Rats, Bacterial Proteins, Streptolysins, Animals, Guanosine Triphosphate, Mast Cells, Peritoneal Cavity

Published

2000

31. The small GTP-binding proteins, Rac and Rho, regulate cytoskeletal organization and exocytosis in mast cells by parallel pathways

Author

Anna Koffer, Anne J. Ridley, L S Price, and Jim C. Norman

Subjects

Boron Compounds, rho GTP-Binding Proteins, Cell Membrane Permeability, Phalloidin, GTPase, macromolecular substances, Biology, Guanosine Diphosphate, Exocytosis, chemistry.chemical_compound, GTP-binding protein regulators, GTP-Binding Proteins, Concanavalin A, Animals, Cytochalasin, Mast Cells, Cytoskeleton, Molecular Biology, Cells, Cultured, Microscopy, Confocal, Staining and Labeling, GTPase-Activating Proteins, Proteins, Cell Biology, Thionucleotides, Flow Cytometry, Cytochalasins, Actins, beta-N-Acetylhexosaminidases, Cell biology, Rats, rac GTP-Binding Proteins, Rac GTP-Binding Proteins, chemistry, Guanosine 5'-O-(3-Thiotriphosphate), MDia1, rhoA GTP-Binding Protein, Fluorescein-5-isothiocyanate, Research Article

Abstract

In mast cells, activation of GTP-binding proteins induces centripetal reorganization of actin filaments. This effect is due to disassembly, relocalization, and polymerization of F-actin and is dependent on two small GTPases, Rac and Rho. Activities of Rac and Rho are also essential for the secretory function of mast cells. In response to GTP-gamma-S and/or calcium, only a proportion of permeabilized mast cells is capable of secretory response. Here, we have compared actin organization of secreting and nonsecreting cell populations. We show that the cytoskeletal and secretory responses are strongly correlated, indicating a common upstream regulator of the two functions. The secreting cell population preferentially displays both relocalization and polymerization of actin. However, when actin relocalization or polymerization is inhibited by phalloidin or cytochalasin, respectively, secretion is unaffected. Moreover, the ability of the constitutively active mutants of Rac and Rho to enhance secretion is also unaffected in the presence of cytochalasin. Therefore, Rac and Rho control these two functions by divergent, parallel signaling pathways. Cortical actin disassembly occurs in both secreting and nonsecreting populations and does not, by itself, induce exocytosis. A model for the control of exocytosis is proposed that includes at least four GTP-binding proteins and suggests the presence of both shared and divergent signaling pathways from Rac and Rho.

Published

1996

32. Secretion from permeabilised mast cells is enhanced by addition of gelsolin: contrasting effects of endogenous gelsolin

Author

Leo S. Price, Anna Koffer, Jim C. Norman, Alan Weeds, and Yurii S. Borovikov

Subjects

Male, GTP', Cell, chemistry.chemical_element, Endogeny, macromolecular substances, Calcium, Cell Degranulation, Rats, Sprague-Dawley, medicine, Animals, Secretion, Mast Cells, Actin, Cells, Cultured, Gelsolin, biology, Cell Biology, musculoskeletal system, Actins, Cell biology, Rats, Kinetics, medicine.anatomical_structure, chemistry, biology.protein, Antibody

Abstract

Permeabilised rat mast cells were exposed to gelsolin and its N-terminal half (S1-3), proteins that sever actin filaments in a calcium-dependent and independent manner, respectively. Gelsolin and S1-3 induced a decrease in cellular F-actin content and an increase in the extent of the secretory response. The calcium sensitivities of both these effects were consistent with the differential calcium requirements of the two proteins. Segment 1 (S1), which binds G-actin and caps filaments but does not sever them, did not show these effects. Thus, secretion of mast cells is promoted as a consequence of the severing activity of exogenous gelsolin or S1-3. Most of the endogenous gelsolin remained within permeabilised, washed mast cells and its distribution in resting state was predominantly cortical. Addition of calcium in the absence of MgATP did not reduce the F-actin content; by contrast, calcium with MgATP induced F-actin loss that was unaffected by the presence of anti-gelsolin. Because this antibody inhibits the severing activity of gelsolin, these results indicate that in permeabilised mast cells the severing activity of the remaining endogenous gelsolin is not involved in cortical actin filaments disassembly. Upon exposure to GTP-gamma-S in the absence of calcium, the content of cortical gelsolin was reduced. This parallels our previous observation of a GTP-gamma-S induced reduction of cortical actin filaments followed by their relocation to the cell's interior (Norman et al. (1994) J. Cell Biol. 126, 1005–1015) and suggests that actin redistribution may be a consequence of dissociation of gelsolin caps brought about by activation of a GTP-binding protein.

Published

1995

33. Calcium-induced secretion from permeabilized rat mast cells: requirements for guanine nucleotides

Author

A, Koffer

Subjects

Male, Adenine Nucleotides, Guanosine Diphosphate, Exocytosis, Guanine Nucleotides, Permeability, Rats, Rats, Sprague-Dawley, Adenosine Triphosphate, Bacterial Proteins, GTP-Binding Proteins, Streptolysins, Animals, Calcium, Mast Cells

Abstract

Cells used in this work were permeabilized by streptolysin-O and then washed to remove freely soluble components. The secretory responsiveness of these cells to various combinations of calcium, MgATP and guanine nucleotide was characterized and in most respects was found to be similar to that of the metabolically inhibited (unwashed) cells. The content of adenosine and guanine nucleotides, which remain within the permeabilized cells after washing, was estimated as 0.83 and 0.12 mM (extrapolated to intact cells), which constitutes 18 and 25%, respectively, of the total nucleotide content of mast cells. High (mM) concentrations of MgATP, required for the calcium-induced secretion, were reduced to microM levels by suboptimal concentrations of GTP, which also markedly increased both the rate and extent of the response. Similarly, microM concentrations of MgATP reduced the requirements of the calcium-dependent secretion for GTP. The synergy of the GTP and ATP effects suggests that, together, the two nucleotides can maintain a pool of free GTP, presumably as a result of transphosphorylation from ATP to GDP. Thus, MgATP may work by transphosphorylating the endogenous GDP. However, neither GTP nor GTP-gamma-S were effective as substitutes for MgATP in the calcium-induced secretion, particularly that from metabolically inhibited cells. This indicates that MgATP does not act simply by providing GTP but is needed to maintain a phosphorylated state of the system. The synergistic effects of ATP and GTP were observed only in the presence of calcium. To test whether calcium/MgATP-induced secretion requires an activated G protein, the effects of G-protein inactivators were studied. GDP, deoxy GDP and GDP-beta-S exerted differing degrees of inhibition on secretory responses induced by various combinations of effectors. The response to calcium/MgATP was less sensitive to these inhibitors than that to GTP-gamma-S (with or without calcium). However, all three 'inhibitors' were also capable of stimulating calcium/MgATP-dependent secretion, indicating a transphosphorylation, producing GTP, dGTP and GTP-beta-S. Thus, in the absence of any specific inhibitors for either G proteins or the transphosphorylation reaction, the degree of dependence of the calcium-induced secretion on a G protein remains unclear.

Published

1993

34. Intracellular mechanisms regulating exocytotic secretion in mast cells

Author

Bastien D. Gomperts, Y. Churcher, Tim Whalley, Peter E.R. Tatham, Thomas H. W. Lillie, and Anna Koffer

Subjects

G protein, Binding protein, Immunology, General Medicine, Biology, Mast cell, Exocytosis, Cell biology, medicine.anatomical_structure, Adenosine Triphosphate, GTP-Binding Proteins, medicine, Immunology and Allergy, Phosphorylation, Animals, Humans, Secretion, Calcium, Guanosine Triphosphate, Mast Cells, Intracellular

Abstract

The release of inflammatory mediators from mast cells occurs by a regulated exocytotic process. We have been able to study the intracellular events in this pathway by permeabilising the plasma membrane of rat peritoneal mast cells and stimulating exocytosis by providing both Ca2+ and a guanine nucleotide. By this approach we have obtained evidence for the participation of at least two guanine nucleotide binding proteins in the control of exocytosis. We have also shown that ATP is unnecessary for the final events, but that it does have a number of modulatory functions, for instance in the control of the effective affinity of the proteins that bind Ca2+ and GTP. There is also evidence for a protein dephosphorylation in the later stages of the control pathway.

Published

1991

35. Soluble proteins as modulators of the exocytotic reaction of permeabilised rat mast cells

Author

Bastien D. Gomperts and A. Koffer

Subjects

Cell Membrane Permeability, Guanine, Cell, In Vitro Techniques, Biology, Exocytosis, chemistry.chemical_compound, Adenosine Triphosphate, Bacterial Proteins, medicine, Animals, Magnesium, Nucleotide, Mast Cells, chemistry.chemical_classification, Proteins, Cell Biology, Thionucleotides, Rats, Cell biology, Cytosol, medicine.anatomical_structure, Solubility, chemistry, Guanosine 5'-O-(3-Thiotriphosphate), Cytoplasm, Streptolysins, Calcium, Streptolysin, Guanosine Triphosphate, Efflux

Abstract

This study addresses the question of the role of cytoplasmic proteins in exocytosis from permeabilised rat mast cells. We have used two different methods of cell permeabilisation (ATP4- and streptolysin O) to regulate the size of the plasma membrane lesions, and thus to dictate the rate and extent of efflux of the cytosolic proteins, and compared the secretory response of the two preparations. We report evidence for the existence of two factors present in the cytosol, which affect the exocytotic mechanism in opposing manners. One of these is required for the maintenance of cell responsiveness; it is retained for more than 120 min by ATP4- -permeabilised cells but lost within 60 min from cells permeabilised by streptolysin O. The other factor, which leaks immediately from cells treated from streptolysin O, but only gradually from cells treated with ATP4-, has the effect of suppressing the affinity for both Ca2+ and guanine nucleotide in the exocytotic reaction.

Published

1989

36. The small GTPases Rac and Rho as regulators of secretion in mast cells

Author

Anna Koffer, Leo S. Price, Anne J. Ridley, and Jim C. Norman

Subjects

Clostridium difficile toxin A, Clostridium difficile toxin B, macromolecular substances, Biology, In Vitro Techniques, Filamentous actin, General Biochemistry, Genetics and Molecular Biology, Cell Degranulation, Exocytosis, GTP Phosphohydrolases, 03 medical and health sciences, 0302 clinical medicine, PAK1, GTP-Binding Proteins, Animals, Mast Cells, Cytoskeleton, 030304 developmental biology, 0303 health sciences, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Actin cytoskeleton, Cell biology, Rats, rac GTP-Binding Proteins, Rac GTP-Binding Proteins, 030220 oncology & carcinogenesis, Calcium, MDia1, General Agricultural and Biological Sciences, rhoA GTP-Binding Protein

Abstract

Background: Regulated secretion by mast cells is known to be controlled by GTP-binding proteins, but the proteins involved have not been identified. Rac and Rho, two small GTPases related to the oncoprotein Ras, mediate transmission of signals from cell-surface receptors to the actin cytoskeleton. In rat mast cells, both Rac and Rho participate in effecting the centripetal redistribution of filamentous actin that is observed after stimulation of the cells. Rho is responsible for polymerization of actin filaments in the cell interior, whereas Rac is required for the entrapment in the interior of filaments released from the cortex. Such cytoskeletal changes could be important in control of the exocytotic process, so we examined whether Rac and Rho also play a role in regulated secretion by mast cells. Results We show that the constitutively active mutant proteins, V14RhoA and V12Rac1, enhance regulated secretion from permeabilized mast cells by increasing the proportion of cells that are competent to respond to stimulation. In addition, inhibition of endogenous Rac and Rho activity using inhibitors, N17Rac1 and C3 transferase, respectively, reduces the secretory response of mast cells to stimuli. Conclusion These results provide direct evidence that, in mast cells, both Rac and Rho are components of the signalling pathway that leads to secretion.