vesicle surface tyrosine kinase regulates phagosome maturation

Phagocytosis is crucial for host defense against microbial pathogens and for obtaining nutrients in Dictyostelium discoideum. Phagocytosed particles are delivered via a complex route from phagosomes to lysosomes for degradation, but the molecular mechanisms involved in the phagosome maturation proce...

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Veröffentlicht in:	The Journal of cell biology 2007-07, Vol.178 (3), p.411-423
Hauptverfasser:	Fang, Jun, Brzostowski, Joseph A, Ou, Stephen, Isik, Nilgun, Nair, Vinod, Jin, Tian
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cellular biology Dictyostelium - cytology Dictyostelium - enzymology Dictyostelium - genetics Dictyostelium discoideum Fluorescence Gene expression Kinases Lysosomes Lysosomes - metabolism Lysosomes - ultrastructure Macrophages Membrane Fusion - physiology Pathogens Phagocytes Phagocytosis Phagocytosis - physiology Phagosomes Phagosomes - metabolism Phagosomes - ultrastructure Polymerase chain reaction Protein Structure, Tertiary Protein-Tyrosine Kinases - genetics Protein-Tyrosine Kinases - metabolism Proteins Protozoan Proteins - genetics Protozoan Proteins - metabolism Receptor Protein-Tyrosine Kinases - genetics Receptor Protein-Tyrosine Kinases - metabolism Receptors Signal Transduction - physiology Yeasts
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container_end_page	423
container_issue	3
container_start_page	411
container_title	The Journal of cell biology
container_volume	178
creator	Fang, Jun Brzostowski, Joseph A Ou, Stephen Isik, Nilgun Nair, Vinod Jin, Tian
description	Phagocytosis is crucial for host defense against microbial pathogens and for obtaining nutrients in Dictyostelium discoideum. Phagocytosed particles are delivered via a complex route from phagosomes to lysosomes for degradation, but the molecular mechanisms involved in the phagosome maturation process are not well understood. Here, we identify a novel vesicle-associated receptor tyrosine kinase-like protein, VSK3, in D. discoideum. We demonstrate how VSK3 is involved in phagosome maturation. VSK3 resides on the membrane of late endosomes/lysosomes with its C-terminal kinase domain facing the cytoplasm. Inactivation of VSK3 by gene disruption reduces the rate of phagocytosis in cells, which is rescued by re-expression of VSK3. We found that the in vivo function of VSK3 depends on the presence of the kinase domain and vesicle localization. Furthermore, VSK3 is not essential for engulfment, but instead, is required for the fusion of phagosomes with late endosomes/lysosomes. Our findings suggest that localized tyrosine kinase signaling on the surface of endosome/lysosomes represents a control mechanism for phagosome maturation.
doi_str_mv	10.1083/jcb.200701023
format	Article
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Phagocytosed particles are delivered via a complex route from phagosomes to lysosomes for degradation, but the molecular mechanisms involved in the phagosome maturation process are not well understood. Here, we identify a novel vesicle-associated receptor tyrosine kinase-like protein, VSK3, in D. discoideum. We demonstrate how VSK3 is involved in phagosome maturation. VSK3 resides on the membrane of late endosomes/lysosomes with its C-terminal kinase domain facing the cytoplasm. Inactivation of VSK3 by gene disruption reduces the rate of phagocytosis in cells, which is rescued by re-expression of VSK3. We found that the in vivo function of VSK3 depends on the presence of the kinase domain and vesicle localization. Furthermore, VSK3 is not essential for engulfment, but instead, is required for the fusion of phagosomes with late endosomes/lysosomes. 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Phagocytosed particles are delivered via a complex route from phagosomes to lysosomes for degradation, but the molecular mechanisms involved in the phagosome maturation process are not well understood. Here, we identify a novel vesicle-associated receptor tyrosine kinase-like protein, VSK3, in D. discoideum. We demonstrate how VSK3 is involved in phagosome maturation. VSK3 resides on the membrane of late endosomes/lysosomes with its C-terminal kinase domain facing the cytoplasm. Inactivation of VSK3 by gene disruption reduces the rate of phagocytosis in cells, which is rescued by re-expression of VSK3. We found that the in vivo function of VSK3 depends on the presence of the kinase domain and vesicle localization. Furthermore, VSK3 is not essential for engulfment, but instead, is required for the fusion of phagosomes with late endosomes/lysosomes. 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subjects	Animals Cellular biology Dictyostelium - cytology Dictyostelium - enzymology Dictyostelium - genetics Dictyostelium discoideum Fluorescence Gene expression Kinases Lysosomes Lysosomes - metabolism Lysosomes - ultrastructure Macrophages Membrane Fusion - physiology Pathogens Phagocytes Phagocytosis Phagocytosis - physiology Phagosomes Phagosomes - metabolism Phagosomes - ultrastructure Polymerase chain reaction Protein Structure, Tertiary Protein-Tyrosine Kinases - genetics Protein-Tyrosine Kinases - metabolism Proteins Protozoan Proteins - genetics Protozoan Proteins - metabolism Receptor Protein-Tyrosine Kinases - genetics Receptor Protein-Tyrosine Kinases - metabolism Receptors Signal Transduction - physiology Yeasts
title	vesicle surface tyrosine kinase regulates phagosome maturation
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