High-resolution dissection of phagosome maturation reveals distinct membrane trafficking phases

Molecular mechanisms of endocytosis in the genetically and biochemically tractable professional phagocyte Dictyostelium discoideum reveal a striking degree of similarity to higher eukaryotic cells. Pulse-chase feeding with latex beads allowed purification of phagosomes at different stages of maturat...

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Bibliographic Details
Published in:Molecular biology of the cell 2002-10, Vol.13 (10), p.3508-3520
Main Authors: Gotthardt, Daniel, Warnatz, Hans Jörg, Henschel, Oliver, Brückert, Franz, Schleicher, Michael, Soldati, Thierry
Format: Article
Language:English
Subjects:
Adenosine Triphosphate - metabolism
Animals
Biological Transport - physiology
Biomarkers
Bridged Bicyclo Compounds, Heterocyclic - metabolism
Carrier Proteins - metabolism
Cathepsin D - metabolism
Cell Membrane - chemistry
Cell Membrane - metabolism
Dictyostelium - cytology
Dictyostelium - metabolism
Dictyostelium discoideum
Endocytosis - physiology
Fluorescent Dyes - metabolism
Karyopherins - metabolism
Lipid Metabolism
Lipids - chemistry
Membrane Proteins - metabolism
Microfilament Proteins - metabolism
Phagosomes - chemistry
Phagosomes - metabolism
Phagosomes - ultrastructure
Proteins - chemistry
Proteins - metabolism
Qb-SNARE Proteins
R-SNARE Proteins
rab GTP-Binding Proteins - metabolism
SNARE Proteins
Thiazoles - metabolism
Thiazolidines
Vesicular Transport Proteins
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Summary:Molecular mechanisms of endocytosis in the genetically and biochemically tractable professional phagocyte Dictyostelium discoideum reveal a striking degree of similarity to higher eukaryotic cells. Pulse-chase feeding with latex beads allowed purification of phagosomes at different stages of maturation. Gentle ATP stripping of an actin meshwork entrapping contaminating organelles resulted in a 10-fold increase in yield and purity, as confirmed by electron microscopy. Temporal profiling of signaling, cytoskeletal, and trafficking proteins resulted in a complex molecular fingerprint of phagosome biogenesis and maturation. First, nascent phagosomes were associated with coronin and rapidly received a lysosomal glycoprotein, LmpB. Second, at least two phases of delivery of lysosomal hydrolases (cathepsin D [CatD] and cysteine protease [CPp34]) were accompanied by removal of plasma membrane components (PM4C4 and biotinylated surface proteins). Third, a phase of late maturation, preparing for final exocytosis of undigested material, included quantitative recycling of hydrolases and association with vacuolin. Also, lysosomal glycoproteins of the Lmp family showed distinct trafficking kinetics. The delivery and recycling of CatD was directly visualized by confocal microscopy. This heavy membrane traffic of cargos was precisely accompanied by regulatory proteins such as the Rab7 GTPases and the endosomal SNAREs Vti1 and VAMP7. This initial molecular description of phagocytosis demonstrates the feasibility of a comprehensive analysis of phagosomal lipids and proteins in genetically modified strains.
ISSN:1059-1524
1939-4586
DOI:10.1091/mbc.E02-04-0206