Molecular players in neutrophil chemotaxis—focus on PI3K and small GTPases

Review of cross‐talk between signaling intermediates during neutrophil chemotaxis, focusing on PI3K and small GTPase signaling. Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many features of ch...

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Published inJournal of leukocyte biology Vol. 94; no. 4; pp. 603 - 612
Main Authors Gambardella, Laure, Vermeren, Sonja
Format Journal Article
LanguageEnglish
Published England Society for Leukocyte Biology 01.10.2013
Subjects
Animals
Cell Polarity
Chemotaxis, Leukocyte
directionality
Humans
integrin
migration
Models, Biological
Monomeric GTP-Binding Proteins - metabolism
Neutrophils - cytology
Neutrophils - enzymology
Phosphatidylinositol 3-Kinases - metabolism
polarization
migration
directionality
polarization
integrin
Online AccessGet full text
ISSN0741-5400
1938-3673
1938-3673
DOI10.1189/jlb.1112564

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Abstract Review of cross‐talk between signaling intermediates during neutrophil chemotaxis, focusing on PI3K and small GTPase signaling. Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many features of chemotaxis are shared with other forms of cell migration. We continue to expand our understanding of the mechanisms governing these features. The rapid process through which neutrophils polarize when placed into a gradient of chemoattractant remains least well‐understood. Several key molecular players involved in the regulation of polarization have been identified. However, crosstalk among the different molecular players is required to polarize the cell and to maintain cell polarity during directional migration. The mechanism(s) by which this occurs are the subject of current investigations using experimental and computational approaches. Here, we review progress in the field, putting recent observations into context with established findings. We concentrate on the signaling processes regulated by PI3Ks, their lipid products, the role of Rho‐family small GTPases, and crosstalk between these important families of regulators.
AbstractList Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many features of chemotaxis are shared with other forms of cell migration. We continue to expand our understanding of the mechanisms governing these features. The rapid process through which neutrophils polarize when placed into a gradient of chemoattractant remains least well-understood. Several key molecular players involved in the regulation of polarization have been identified. However, crosstalk among the different molecular players is required to polarize the cell and to maintain cell polarity during directional migration. The mechanism(s) by which this occurs are the subject of current investigations using experimental and computational approaches. Here, we review progress in the field, putting recent observations into context with established findings. We concentrate on the signaling processes regulated by PI3Ks, their lipid products, the role of Rho-family small GTPases, and crosstalk between these important families of regulators.
Review of cross‐talk between signaling intermediates during neutrophil chemotaxis, focusing on PI3K and small GTPase signaling. Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many features of chemotaxis are shared with other forms of cell migration. We continue to expand our understanding of the mechanisms governing these features. The rapid process through which neutrophils polarize when placed into a gradient of chemoattractant remains least well‐understood. Several key molecular players involved in the regulation of polarization have been identified. However, crosstalk among the different molecular players is required to polarize the cell and to maintain cell polarity during directional migration. The mechanism(s) by which this occurs are the subject of current investigations using experimental and computational approaches. Here, we review progress in the field, putting recent observations into context with established findings. We concentrate on the signaling processes regulated by PI3Ks, their lipid products, the role of Rho‐family small GTPases, and crosstalk between these important families of regulators.
Review of cross-talk between signaling intermediates during neutrophil chemotaxis, focusing on PI3K and small GTPase signaling.
Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many features of chemotaxis are shared with other forms of cell migration. We continue to expand our understanding of the mechanisms governing these features. The rapid process through which neutrophils polarize when placed into a gradient of chemoattractant remains least well-understood. Several key molecular players involved in the regulation of polarization have been identified. However, crosstalk among the different molecular players is required to polarize the cell and to maintain cell polarity during directional migration. The mechanism(s) by which this occurs are the subject of current investigations using experimental and computational approaches. Here, we review progress in the field, putting recent observations into context with established findings. We concentrate on the signaling processes regulated by PI3Ks, their lipid products, the role of Rho-family small GTPases, and crosstalk between these important families of regulators.Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many features of chemotaxis are shared with other forms of cell migration. We continue to expand our understanding of the mechanisms governing these features. The rapid process through which neutrophils polarize when placed into a gradient of chemoattractant remains least well-understood. Several key molecular players involved in the regulation of polarization have been identified. However, crosstalk among the different molecular players is required to polarize the cell and to maintain cell polarity during directional migration. The mechanism(s) by which this occurs are the subject of current investigations using experimental and computational approaches. Here, we review progress in the field, putting recent observations into context with established findings. We concentrate on the signaling processes regulated by PI3Ks, their lipid products, the role of Rho-family small GTPases, and crosstalk between these important families of regulators.
Author Sonja Vermeren
Laure Gambardella
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  givenname: Sonja
  surname: Vermeren
  fullname: Vermeren, Sonja
  email: sonja.vermeren@ed.ac.uk
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integrin
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Snippet Review of cross‐talk between signaling intermediates during neutrophil chemotaxis, focusing on PI3K and small GTPase signaling. Neutrophil chemotaxis is a...
Neutrophil chemotaxis is a process by which individual cells sense a gradient of chemoattractant, polarize, and then migrate toward the chemoattractant. Many...
Review of cross-talk between signaling intermediates during neutrophil chemotaxis, focusing on PI3K and small GTPase signaling.
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SubjectTerms Animals
Cell Polarity
Chemotaxis, Leukocyte
directionality
Humans
integrin
migration
Models, Biological
Monomeric GTP-Binding Proteins - metabolism
Neutrophils - cytology
Neutrophils - enzymology
Phosphatidylinositol 3-Kinases - metabolism
polarization
Title Molecular players in neutrophil chemotaxis—focus on PI3K and small GTPases
URI http://www.jleukbio.org/content/94/4/603.abstract
https://onlinelibrary.wiley.com/doi/abs/10.1189%2Fjlb.1112564
https://www.ncbi.nlm.nih.gov/pubmed/23667166
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https://www.proquest.com/docview/1551627568
Volume 94
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