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Your search keyword '"Gutiérrez-Martínez, Enric"' showing total 5 results
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5 results on '"Gutiérrez-Martínez, Enric"'

1. Actin- regulated Siglec- 1 nanoclustering influences HIV-1 capture and virus- containing compartment formation in dendritic cells

Author

Bioquímica y biología molecular, Biokimika eta biologia molekularra, Gutiérrez Martínez, Enric, Benet Garrabé, Susana, Mateos, Nicolás, Erkizia, Itziar, Nieto Garai, Jon Ander, Lorizate Nogales, Maier, Borgman, Kyra J.E., Manzo, Carlo, Campelo, Félix, Izquierdo Useros, Nuria, Martínez Picado, Javier, García Parajo, María F., Bioquímica y biología molecular, Biokimika eta biologia molekularra, Gutiérrez Martínez, Enric, Benet Garrabé, Susana, Mateos, Nicolás, Erkizia, Itziar, Nieto Garai, Jon Ander, Lorizate Nogales, Maier, Borgman, Kyra J.E., Manzo, Carlo, Campelo, Félix, Izquierdo Useros, Nuria, Martínez Picado, Javier, and García Parajo, María F.

Abstract

The immunoglobulin-like lectin receptor CD169 (Siglec-1) mediates the capture of HIV- 1 by activated dendritic cells (DCs) through binding to sialylated ligands. These interactions result in a more efficient virus capture as compared to resting DCs, although the underlying mech- anisms are poorly understood. Using a combination of super-resolution microscopy, single-particle tracking and biochemical perturbations we studied the nanoscale organization of Siglec-1 on acti- vated DCs and its impact on viral capture and its trafficking to a single viral-containing compartment. We found that activation of DCs leads to Siglec-1 basal nanoclustering at specific plasma membrane regions where receptor diffusion is constrained by Rho-ROCK activation and formin-dependent actin polymerization. Using liposomes with varying ganglioside concentrations, we further demonstrate that Siglec-1 nanoclustering enhances the receptor avidity to limiting concentrations of gangliosides carrying sialic ligands. Binding to either HIV-1 particles or ganglioside-bearing liposomes lead to enhanced Siglec-1 nanoclustering and global actin rearrangements characterized by a drop in RhoA activity, facilitating the final accumulation of viral particles in a single sac-like compartment. Overall, our work provides new insights on the role of the actin machinery of activated DCs in regulating the formation of basal Siglec-1 nanoclustering, being decisive for the capture and actin-dependent traf- ficking of HIV-1 into the virus-containing compartment

Published
2023

2. Actin-regulated Siglec-1 nanoclustering influences HIV-1 capture and virus-containing compartment formation in dendritic cells

Author

Gutiérrez-Martínez, Enric, primary, Benet Garrabé, Susana, additional, Mateos, Nicolas, additional, Erkizia, Itziar, additional, Nieto-Garai, Jon Ander, additional, Lorizate, Maier, additional, Borgman, Kyra JE, additional, Manzo, Carlo, additional, Campelo, Felix, additional, Izquierdo-Useros, Nuria, additional, Martinez-Picado, Javier, additional, and Garcia-Parajo, Maria F, additional

Published
2023
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3. Author response: Actin-regulated Siglec-1 nanoclustering influences HIV-1 capture and virus-containing compartment formation in dendritic cells

Author

Gutiérrez-Martínez, Enric, primary, Benet Garrabé, Susana, additional, Mateos, Nicolas, additional, Erkizia, Itziar, additional, Nieto-Garai, Jon Ander, additional, Lorizate, Maier, additional, Borgman, Kyra JE, additional, Manzo, Carlo, additional, Campelo, Felix, additional, Izquierdo-Useros, Nuria, additional, Martinez-Picado, Javier, additional, and Garcia-Parajo, Maria F, additional

Published
2023
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4. Actin-regulated Siglec-1 nanoclustering influences HIV-1 capture and virus-containing compartment formation in dendritic cells

Author

Gutiérrez-Martínez, Enric, primary, Benet, Susana, additional, Mateos, Nicolas, additional, Erkizia, Itziar, additional, Nieto-Garai, Jon Ander, additional, Lorizate, Maier, additional, Manzo, Carlo, additional, Campelo, Felix, additional, Izquierdo-Useros, Nuria, additional, Martinez-Picado, Javier, additional, and Garcia-Parajo, Maria F., additional

Published
2022
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5. Actin-regulated Siglec-1 nanoclustering influences HIV-1 capture and viruscontaining compartment formation in dendritic cells.

Author

Gutiérrez-Martínez, Enric, Benet Garrabé, Susana, Mateos, Nicolas, Erkizia, Itziar, Nieto-Garai, Jon Ander, Lorizate, Maier, Borgman, Kyra J. E., Manzo, Carlo, Campelo, Felix, Izquierdo-Useros, Nuria, Martinez-Picado, Javier, and Garcia-Parajo, Maria F.

Subjects
*DENDRITIC cells, *HIV, *CELL membranes, *LIPOSOMES, *GANGLIOSIDES
Abstract

The immunoglobulin-like lectin receptor CD169 (Siglec-1) mediates the capture of HIV-1 by activated dendritic cells (DCs) through binding to sialylated ligands. These interactions result in a more efficient virus capture as compared to resting DCs, although the underlying mechanisms are poorly understood. Using a combination of super-resolution microscopy, single-particle tracking and biochemical perturbations we studied the nanoscale organization of Siglec-1 on activated DCs and its impact on viral capture and its trafficking to a single viral-containing compartment. We found that activation of DCs leads to Siglec-1 basal nanoclustering at specific plasma membrane regions where receptor diffusion is constrained by Rho-ROCK activation and formin-dependent actin polymerization. Using liposomes with varying ganglioside concentrations, we further demonstrate that Siglec-1 nanoclustering enhances the receptor avidity to limiting concentrations of gangliosides carrying sialic ligands. Binding to either HIV-1 particles or ganglioside-bearing liposomes lead to enhanced Siglec-1 nanoclustering and global actin rearrangements characterized by a drop in RhoA activity, facilitating the final accumulation of viral particles in a single sac-like compartment. Overall, our work provides new insights on the role of the actin machinery of activated DCs in regulating the formation of basal Siglec-1 nanoclustering, being decisive for the capture and actin-dependent trafficking of HIV-1 into the virus-containing compartment. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
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