Your search keyword '"Gardeta, Sofía R."' showing total 3 results

1. Altered CXCR4 dynamics at the cell membrane impairs directed cell migration in WHIM syndrome patients

Author

García Cuesta, Eva M., Rodríguez Frade, José Miguel, Gardeta, Sofía R., D'Agostino, Gianluca, Martínez, Pablo, Soler Palacios, Blanca, Martínez Muñoz, Laura, Mellado, Mario, Universidad de Sevilla. Departamento de Bioquímica Médica y Biología Molecular e Inmunología, and Ministerio de Ciencia e Innovación

Subjects

Chemokine receptors, Cell migration, WHIM syndrome

Abstract

Chemokine receptor nanoscale organization at the cell membrane is orchestrated by the actin cytoskeleton and influences cell responses. Using single-particle tracking analysis we show that CXCR4R334X, a truncated mutant chemokine receptor linked to WHIM syndrome (warts, hypogammaglobulinemia, infections, myelokathexis), fails to nanoclus terize after CXCL12 stimulation, and alters the lateral mobility and spatial organization of CXCR4 when coexpressed. These findings correlate with multiple phalloidin-positive protrusions in cells expressing CXCR4R334X, and their inability to correctly sense chemo kine gradients. The underlying mechanisms involve inappropriate actin cytoskeleton remodeling due to the inadequate β-arrestin1 activation by CXCR4R334X, which disrupts the equilibrium between activated and deactivated cofilin. Overall, we provide insights into the molecular mechanisms governing CXCR4 nanoclustering, signaling and cell function, and highlight the essential scaffold role of β-arrestin1 to support CXCL12- mediated actin reorganization and receptor clustering. These defects associated with CXCR4R334X expression might contribute to the severe immunological symptoms asso ciated with WHIM syndrome.

Published

2022

2. Sphingomyelin Depletion Inhibits CXCR4 Dynamics and CXCL12- Mediated Directed Cell Migration in Human T Cells.

Author

Gardeta, Sofía R., García-Cuesta, Eva M., D'Agostino, Gianluca, Soler Palacios, Blanca, Quijada-Freire, Adriana, Lucas, Pilar, Bernardino de la Serna, Jorge, Gonzalez-Riano, Carolina, Barbas, Coral, Miguel Rodríguez-Frade, José, and Mellado, Mario

Subjects

CELL migration, CXCR4 receptors, T cells, CHEMOKINE receptors, SPHINGOMYELIN

Abstract

Sphingolipids, ceramides and cholesterol are integral components of cellular membranes, and they also play important roles in signal transduction by regulating the dynamics of membrane receptors through their effects on membrane fluidity. Here, we combined biochemical and functional assays with single-particle tracking analysis of diffusion in the plasma membrane to demonstrate that the local lipid environment regulates CXCR4 organization and function and modulates chemokine-triggered directed cell migration. Prolonged treatment of T cells with bacterial sphingomyelinase promoted the complete and sustained breakdown of sphingomyelins and the accumulation of the corresponding ceramides, which altered both membrane fluidity and CXCR4 nanoclustering and dynamics. Under these conditions CXCR4 retained some CXCL12-mediated signaling activity but failed to promote efficient directed cell migration. Our data underscore a critical role for the local lipid composition at the cell membrane in regulating the lateral mobility of chemokine receptors, and their ability to dynamically increase receptor density at the leading edge to promote efficient cell migration. [ABSTRACT FROM AUTHOR]

Published

2022

3. Altered CXCR4 dynamics at the cell membrane impairs directed cell migration in WHIM syndrome patients.

Author

García-Cuesta, Eva M., Rodńguez-Frade, José Miguel, Gardeta, Sofía R., D'Agostino, Gianluca, Martınez, Pablo, Soler Palacios, Blanca, Cascio, Graciela, Wolf, Tobias, Mateos, Nicolas, Ayala-Bueno, Rosa, Santiago, César A., Lucas, Pilar, Llorente, Lucia, Allende, Luis M., Ignacio González-Granadog, Luis, Martín-Cófreces, Noa, Roda-Navarro, Pedro, Sallusto, Federica, Sánchez-Madridi, Francisco, and Garc&ía-Parajoe, Marńa F.

Subjects

CXCR4 receptors, CELL migration, CHEMOKINE receptors, LABOR mobility, CYTOSKELETON, CELL physiology

Abstract

Chemokine receptor nanoscale organization at the cell membrane is orchestrated by the actin cytoskeleton and influences cell responses. Using single-particle tracking analysis we show that CXCR4R334X, a truncated mutant chemokine receptor linked to WHIM syndrome (warts, hypogammaglobulinemia, infections, myelokathexis), fails to nanoclusterize after CXCL12 stimulation, and alters the lateral mobility and spatial organization of CXCR4 when coexpressed. These findings correlate with multiple phalloidin-positive protrusions in cells expressing CXCR4R334X, and their inability to correctly sense chemokine gradients. The underlying mechanisms involve inappropriate actin cytoskeleton remodeling due to the inadequate ß-arrestin1 activation by CXCR4R334X, which disrupts the equilibrium between activated and deactivated cofilin. Overall, we provide insights into the molecular mechanisms governing CXCR4 nanoclustering, signaling and cell function, and highlight the essential scaffold role of ß-arrestin1 to support CXCL12-mediated actin reorganization and receptor clustering. These defects associated with CXCR4R334X expression might contribute to the severe immunological symptoms associated withWHIM syndrome. [ABSTRACT FROM AUTHOR]

Published

2022