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596 results on '"Dupont, Geneviève"'

1. Optimizing information transmission in neural induction constrains cell surface contacts of ascidian embryos

Author

Bettoni, Rossana, Dupont, Geneviéve, Walczak, Aleksandra M., and de Buyl, Sophie

Subjects
Quantitative Biology - Tissues and Organs
Abstract

The onset of neural induction in the anterior ectoderm of ascidian embryos is regulated at the extracellular level by FGF signaling molecules, which control the acquisition of neural fate through the activation of the ERK pathway. Among the anterior ectoderm cells exposed to FGF, only a fraction will acquire neural fate. The selection of neural precursors depends on the quasi-invariant geometry of the embryo, which imposes upon each ectoderm cell a precise area of cell surface contact with underlying FGF-expressing (mesendoderm) cells. Here, we investigate information transmission between FGF and activated ERK and how this depends on the geometry of the system. Optimizing information transmission with the constraint that the total FGF-emitting surface area is restricted, as in the embryo, we find that the surface contacts with FGF that maximize information transmission are close to those observed experimentally. This information optimal solution is compatible with the anterior ectoderm cells having different areas of cell surface exposure to FGF, allowing the embryo to use cell surface areas as a regulatory mechanism for differentiating the outcome of cells that sense a constant FGF concentration.

Published
2024

5. Simulating the Ca2+-cAMP Crosstalk and Its Role in Pancreatic Cells

Author

Romero-Campos, Hugo Enrique, Dupont, Geneviève, González-Vélez, Virginia, Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Trujillo-Romero, Citlalli Jessica, editor, Gonzalez-Landaeta, Rafael, editor, Chapa-González, Christian, editor, Dorantes-Méndez, Guadalupe, editor, Flores, Dora-Luz, editor, Flores Cuautle, J. J. Agustin, editor, Ortiz-Posadas, Martha R., editor, Salido Ruiz, Ricardo A., editor, and Zuñiga-Aguilar, Esmeralda, editor

Published
2023
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7. Calcium Release, Models of

Author

Dupont, Geneviève, Migliore, Michele, Section editor, Linster, Christiane, Section editor, Cavarretta, Francesco, Section editor, Jaeger, Dieter, editor, and Jung, Ranu, editor

Published
2022
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9. Tonic activation of extrasynaptic NMDA receptors decreases intrinsic excitability and promotes bistability in a model of neuronal activity

Author

Gall, David and Dupont, Geneviève

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

NMDA receptors (NMDA-R) typically contribute to excitatory synaptic transmission in the central nervous system. While calcium influx through NMDA-R plays a critical role in synaptic plasticity, experimental evidence indicates that NMDAR-mediated calcium influx also modifies neuronal excitability through the activation of calcium-activated potassium channels. This mechanism has not yet been studied theoretically. Our theoretical model provides a simple description of neuronal electrical activity that takes into account the tonic activity of extrasynaptic NMDA receptors and a cytosolic calcium compartment. We show that calcium influx mediated by the tonic activity of NMDA-R can be coupled directly to the activation of calcium-activated potassium channels, resulting in an overall inhibitory effect on neuronal excitability. Furthermore, the presence of tonic NMDA-R activity promotes bistability in electrical activity by dramatically increasing the stimulus interval where both a stable steady state and repetitive firing can coexist. These results could provide an intrinsic mechanism for the constitution of memory traces in neuronal circuits. They also shed light on the way by which $\beta$-amyloids can alter neuronal activity when interfering with NMDA-R in Alzheimer's disease and cerebral ischemia., Comment: 20 pages, 5 figures

Published
2018
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14. Neurons and Other Excitable Cells

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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15. Basic Modelling Principles: Deterministic Models

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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16. Nonexcitable Cells

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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17. Muscle

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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18. Nonlinear Dynamics of Calcium

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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19. Hierarchical and Stochastic Modelling

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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20. The Calcium Toolbox

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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21. Some Background Physiology

Author

Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, Sneyd, James, Antman, S.S, Editor-in-chief, Greengard, L., Editor-in-chief, Holmes, P.J., Editor-in-chief, Durrett, R., Series editor, Glass, L., Series editor, Goriely, Alain, Series editor, Kohn, R., Series editor, Krishnaprasad, P. S., Series editor, Murray, J.D., Series editor, Peskin, C., Series editor, Sastry, S.S., Series editor, Sneyd, J., Series editor, Dupont, Geneviève, Falcke, Martin, Kirk, Vivien, and Sneyd, James

Published
2016
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25. Adhesion to laminin-1 and collagen IV induces the formation of Ca 2+ microdomains that sensitize mouse T cells for activation

Author

Weiß, Mariella, primary, Hernandez, Lola C., additional, Gil Montoya, Diana C., additional, Löhndorf, Anke, additional, Krüger, Aileen, additional, Kopdag, Miriam, additional, Uebler, Liana, additional, Landwehr, Marie, additional, Nawrocki, Mikolaj, additional, Huber, Samuel, additional, Woelk, Lena-Marie, additional, Werner, René, additional, Failla, Antonio V., additional, Flügel, Alexander, additional, Dupont, Geneviève, additional, Guse, Andreas H., additional, and Diercks, Björn-Philipp, additional

Published
2023
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30. T cell Ca2+ microdomains through the lens of computational modeling.

Author

Gil Montoya, Diana DC, Ornelas-Guevara, Roberto, Diercks, Björn Philipp, Guse, Andreas H, Dupont, Geneviève, Gil Montoya, Diana DC, Ornelas-Guevara, Roberto, Diercks, Björn Philipp, Guse, Andreas H, and Dupont, Geneviève

Abstract

Cellular Ca2+ signaling is highly organized in time and space. Locally restricted and short-lived regions of Ca2+ increase, called Ca2+ microdomains, constitute building blocks that are differentially arranged to create cellular Ca2+ signatures controlling physiological responses. Here, we focus on Ca2+ microdomains occurring in restricted cytosolic spaces between the plasma membrane and the endoplasmic reticulum, called endoplasmic reticulum-plasma membrane junctions. In T cells, these microdomains have been finely characterized. Enough quantitative data are thus available to develop detailed computational models of junctional Ca2+ dynamics. Simulations are able to predict the characteristics of Ca2+ increases at the level of single channels and in junctions of different spatial configurations, in response to various signaling molecules. Thanks to the synergy between experimental observations and computational modeling, a unified description of the molecular mechanisms that create Ca2+ microdomains in the first seconds of T cell stimulation is emerging., SCOPUS: re.j, info:eu-repo/semantics/published

Published
2023

31. Adhesion to laminin-1 and collagen IV induces the formation of Ca2+ microdomains that sensitize mouse T cells for activation.

Author

Weiß, Mariella, Hernandez, Lola C, Gil Montoya, Diana C, Löhndorf, Anke, Krüger, Aileen, Kopdag, Miriam, Uebler, Liana, Landwehr, Marie, Nawrocki, Mikolaj, Huber, Samuel, Woelk, Lena-Marie, Werner, René, Failla, Antonio AV, Flügel, Alexander, Dupont, Geneviève, Guse, Andreas H, Diercks, Björn Philipp, Weiß, Mariella, Hernandez, Lola C, Gil Montoya, Diana C, Löhndorf, Anke, Krüger, Aileen, Kopdag, Miriam, Uebler, Liana, Landwehr, Marie, Nawrocki, Mikolaj, Huber, Samuel, Woelk, Lena-Marie, Werner, René, Failla, Antonio AV, Flügel, Alexander, Dupont, Geneviève, Guse, Andreas H, and Diercks, Björn Philipp

Abstract

During an immune response, T cells migrate from blood vessel walls into inflamed tissues by migrating across the endothelium and through extracellular matrix (ECM). Integrins facilitate T cell binding to endothelial cells and ECM proteins. Here, we report that Ca2+ microdomains observed in the absence of T cell receptor (TCR)/CD3 stimulation are initial signaling events triggered by adhesion to ECM proteins that increase the sensitivity of primary murine T cells to activation. Adhesion to the ECM proteins collagen IV and laminin-1 increased the number of Ca2+ microdomains in a manner dependent on the kinase FAK, phospholipase C (PLC), and all three inositol 1,4,5-trisphosphate receptor (IP3R) subtypes and promoted the nuclear translocation of the transcription factor NFAT-1. Mathematical modeling predicted that the formation of adhesion-dependent Ca2+ microdomains required the concerted activity of two to six IP3Rs and ORAI1 channels to achieve the increase in the Ca2+ concentration in the ER-plasma membrane junction that was observed experimentally and that required SOCE. Further, adhesion-dependent Ca2+ microdomains were important for the magnitude of the TCR-induced activation of T cells on collagen IV as assessed by the global Ca2+ response and NFAT-1 nuclear translocation. Thus, adhesion to collagen IV and laminin-1 sensitizes T cells through a mechanism involving the formation of Ca2+ microdomains, and blocking this low-level sensitization decreases T cell activation upon TCR engagement., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2023

32. A journey in UPR modelling.

Author

Pontisso, Ilaria, Ornelas Guevara, Roberto, Combettes, Laurent, Dupont, Geneviève, Pontisso, Ilaria, Ornelas Guevara, Roberto, Combettes, Laurent, and Dupont, Geneviève

Abstract

Protein folding and protein maturation largely occur in the controlled environment of the Endoplasmic Reticulum (ER). Perturbation to the correct functioning of this organelle leads to altered proteostasis and accumulation of misfolded proteins in the ER lumen. This condition is commonly known as ER stress and is appearing as an important contributor in the pathogenesis of several human diseases. Monitoring of the quality control processes is mediated by the Unfolded Protein Response (UPR). This response consists in a complex network of signalling pathways that aim to restore protein folding and ER homeostasis. Conditions in which UPR is not able to overcome ER stress lead to a switch of the UPR signalling program from an adaptive to a pro-apoptotic one, revealing a key role of UPR in modulating cell fate decisions. Because of its high complexity and its involvement in the regulation of different cellular outcomes, UPR has been the centre of the development of computational models, which tried to better dissect the role of UPR or of its specific components in several contexts. In this review, we go through the existing mathematical models of UPR. We emphasize how their study contributed to an improved characterization of the role of this intricate response in the modulation of cellular functions., SCOPUS: re.j, info:eu-repo/semantics/published

Published
2023

33. Model of neural induction in the ascidian embryo.

Author

Bettoni, Rossana, Hudson, Clare, Williaume, Géraldine, Sirour, Cathy, Yasuo, Hitoyoshi, De Buyl, Sophie, Dupont, Geneviève, Bettoni, Rossana, Hudson, Clare, Williaume, Géraldine, Sirour, Cathy, Yasuo, Hitoyoshi, De Buyl, Sophie, and Dupont, Geneviève

Abstract

How cell specification can be controlled in a reproducible manner is a fundamental question in developmental biology. In ascidians, a group of invertebrate chordates, geometry plays a key role in achieving this control. Here, we use mathematical modeling to demonstrate that geometry dictates the neural-epidermal cell fate choice in the 32-cell stage ascidian embryo by a two-step process involving first the modulation of ERK signaling and second, the expression of the neural marker gene, Otx. The model describes signal transduction by the ERK pathway that is stimulated by FGF and attenuated by ephrin, and ERK-mediated control of Otx gene expression, which involves both an activator and a repressor of ETS-family transcription factors. Considering the measured area of cell surface contacts with FGF- or ephrin-expressing cells as inputs, the solutions of the model reproduce the experimental observations about ERK activation and Otx expression in the different cells under normal and perturbed conditions. Sensitivity analyses and computations of Hill coefficients allow us to quantify the robustness of the specification mechanism controlled by cell surface area and to identify the respective role played by each signaling input. Simulations also predict in which conditions the dual control of gene expression by an activator and a repressor that are both under the control of ERK can induce a robust ON/OFF control of neural fate induction., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2023

34. T cell Ca2+ microdomains through the lens of computational modeling.

Author

Montoya, Diana C. Gil, Ornelas-Guevara, Roberto, Diercks, Björn-Philipp, Guse, Andreas H., and Dupont, Geneviève

Subjects
T cells, CELL communication, CELL membranes, ENDOPLASMIC reticulum, SPACE plasmas
Abstract

Cellular Ca2+ signaling is highly organized in time and space. Locally restricted and short-lived regions of Ca2+ increase, called Ca2+ microdomains, constitute building blocks that are differentially arranged to create cellular Ca2+ signatures controlling physiological responses. Here, we focus on Ca2+ microdomains occurring in restricted cytosolic spaces between the plasma membrane and the endoplasmic reticulum, called endoplasmic reticulum-plasma membrane junctions. In T cells, these microdomains have been finely characterized. Enough quantitative data are thus available to develop detailed computational models of junctional Ca2+ dynamics. Simulations are able to predict the characteristics of Ca2+ increases at the level of single channels and in junctions of different spatial configurations, in response to various signaling molecules. Thanks to the synergy between experimental observations and computational modeling, a unified description of the molecular mechanisms that create Ca2+ microdomains in the first seconds of T cell stimulation is emerging. [ABSTRACT FROM AUTHOR]

Published
2023
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35. A journey in UPR modeling

Author

Pontisso, Ilaria, primary, Guevara, Roberto Ornelas, additional, Combettes, Laurent, additional, and Dupont, Geneviève, additional

Published
2023
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42. Adhesion to laminin-1 and collagen IV induces the formation of Ca2+ microdomains that sensitize mouse T cells for activation.

Author

Weiß, Mariella, Hernandez, Lola C., Gil Montoya, Diana C., Löhndorf, Anke, Krüger, Aileen, Kopdag, Miriam, Uebler, Liana, Landwehr, Marie, Nawrocki, Mikolaj, Huber, Samuel, Woelk, Lena-Marie, Werner, René, Failla, Antonio V., Flügel, Alexander, Dupont, Geneviève, Guse, Andreas H., and Diercks, Björn-Philipp

Subjects
T cells, INTRACELLULAR calcium, PHOSPHOLIPASE C, COLLAGEN, EXTRACELLULAR matrix, CALCIUM channels, TRANSCRIPTION factors, ENDOTHELIAL cells, T cell receptors
Abstract

During an immune response, T cells migrate from blood vessel walls into inflamed tissues by migrating across the endothelium and through extracellular matrix (ECM). Integrins facilitate T cell binding to endothelial cells and ECM proteins. Here, we report that Ca2+ microdomains observed in the absence of T cell receptor (TCR)/CD3 stimulation are initial signaling events triggered by adhesion to ECM proteins that increase the sensitivity of primary murine T cells to activation. Adhesion to the ECM proteins collagen IV and laminin-1 increased the number of Ca2+ microdomains in a manner dependent on the kinase FAK, phospholipase C (PLC), and all three inositol 1,4,5-trisphosphate receptor (IP3R) subtypes and promoted the nuclear translocation of the transcription factor NFAT-1. Mathematical modeling predicted that the formation of adhesion-dependent Ca2+ microdomains required the concerted activity of two to six IP3Rs and ORAI1 channels to achieve the increase in the Ca2+ concentration in the ER–plasma membrane junction that was observed experimentally and that required SOCE. Further, adhesion-dependent Ca2+ microdomains were important for the magnitude of the TCR-induced activation of T cells on collagen IV as assessed by the global Ca2+ response and NFAT-1 nuclear translocation. Thus, adhesion to collagen IV and laminin-1 sensitizes T cells through a mechanism involving the formation of Ca2+ microdomains, and blocking this low-level sensitization decreases T cell activation upon TCR engagement. Editor's summary: During the activation of T cells, intracellular Ca2+ globally increases and leads to changes in gene expression by promoting the nuclear translocation of the transcription factor NFAT-1. Weiß et al. found that T cell activation was facilitated by the formation of Ca2+ microdomains that occurred when mouse T cells adhered to extracellular matrix components that might be typically encountered during migration to a site of inflammation. The authors characterized the signaling proteins required and the role of store-operated Ca2+ entry in adhesion-dependent Ca2+ microdomain formation, which was critical for the global increase in intracellular Ca2+ and the nuclear translocation of NFAT-1 after T cell receptor stimulation. Thus, the formation of these Ca2+ microdomains in response to adhesion sensitizes T cells for activation. —Wei Wong [ABSTRACT FROM AUTHOR]

Published
2023
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46. An ERF transcription factor participates in the bimodal transcriptional response of an ERK-target gene during ascidian neural induction

Author

Williaume, Géraldine, de Buyl, Sophie, Sirour, Cathy, Haupaix, Nicolas, Bettoni, Rossana, Rothbächer, Ute, Imai, Karou, Satou, Yutaka, Dupont, Geneviève, Hudson, Clare, Yasuo, Hitoyoshi, LBDV_DESTIN_CELLULAIRE (HOYA), Laboratoire de Biologie du Développement de Villefranche sur mer (LBDV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de la Mer de Villefranche (IMEV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de la Mer de Villefranche (IMEV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut National de la Santé et de la Recherche Médicale (INSERM), Unité de Chronobiologie Théorique, Université libre de Bruxelles (ULB), Institut de Biologie du Développement de Marseille-Luminy (IBDML), Université de la Méditerranée - Aix-Marseille 2-Centre National de la Recherche Scientifique (CNRS), Kyoto University, Observatoire océanologique de Villefranche-sur-mer (OOVM), and Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV]Life Sciences [q-bio]
Abstract

International audience

Published
2022

48. Three-Dimensional Model of Sub-Plasmalemmal Ca2+ Microdomains Evoked by T Cell Receptor/CD3 Complex Stimulation

Author

Gil, Diana, Diercks, Björn Philipp, Guse, Andreas AH, Dupont, Geneviève, Gil, Diana, Diercks, Björn Philipp, Guse, Andreas AH, and Dupont, Geneviève

Abstract

Ca2+ signalling plays an essential role in T cell activation, which is a key step to start an adaptive immune response. During the transition from a quiescent to a fully activated state, Ca2+ microdomains of reduced spatial and temporal extents develop in the junctions between the plasma membrane and the endoplasmic reticulum (ER). These microdomains rely on Ca2+ entry from the extracellular medium, via the ORAI1/STIM1/STIM2 system that mediates store operated Ca2+ entry Store operated calcium entry. The mechanism leading to local store depletion and subsequent Ca2+ entry depends on the activation state of the cells. The initial, smaller microdomains are triggered by D-myo-inositol 1,4,5-trisphosphate (IP3) signalling in response to T cell adhesion. T cell receptor (TCR)/CD3 stimulation then initiates nicotinic acid adenine dinucleotide phosphate signalling, which activates ryanodine receptors (RYR). We have recently developed a mathematical model to elucidate the spatiotemporal Ca2+ dynamics of the microdomains triggered by IP3 signalling in response to T cell adhesion (Gil et al. 2021). This reaction-diffusion model describes the evolution of the cytosolic and endoplasmic reticulum Ca2+ concentrations in a three-dimensional ER-PM junction and was solved using COMSOL Multiphysics. Modelling predicted that adhesion-dependent microdomains result from the concerted activity of IP3 receptors and pre-formed ORAI1-STIM2 complexes. In the present study, we extend this model to include the role of RYRs rapidly after TCR/CD3 stimulation. The involvement of STIM1, which has a lower KD for Ca2+ than STIM2, is also considered. Detailed 3D spatio-temporal simulations show that these Ca2+ microdomains rely on the concerted opening of ∼7 RYRs that are simultaneously active in response to the increase in NAADP induced by T cell stimulation. Opening of these RYRs provoke a local depletion of ER Ca2+ that triggers Ca2+ flux through the ORAI1 channels. Simulations predict that RYRs a, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2022

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