Dissection of COPI and Arf1 dynamics in vivo and role in Golgi membrane transport

Cytosolic coat proteins that bind reversibly to membranes have a central function in membrane transport within the secretory pathway. One well-studied example is COPI or coatomer, a heptameric protein complex that is recruited to membranes by the GTP-binding protein Arf1. Assembly into an electron-d...

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Published in	Nature (London) Vol. 417; no. 6885; pp. 187 - 193
Main Authors	Presley, John F., Ward, Theresa H., Pfeifer, Andrea C., Siggia, Eric D., Phair, Robert D., Lippincott-Schwartz, Jennifer
Format	Journal Article
Language	English
Published	London Nature Publishing 09.05.2002 Nature Publishing Group
Subjects	ADP-Ribosylation Factor 1 - metabolism Animals Biological and medical sciences Biological Transport - drug effects Brefeldin A - pharmacology Cell Line Cell structures and functions Cells Cellular biology CHO Cells Coat Protein Complex I - metabolism Coatomer Protein - metabolism COP-Coated Vesicles - chemistry COP-Coated Vesicles - drug effects COP-Coated Vesicles - metabolism Cricetinae Endoplasmic Reticulum - drug effects Endoplasmic Reticulum - metabolism Fundamental and applied biological sciences. Psychology Golgi apparatus Golgi Apparatus - drug effects Golgi Apparatus - metabolism Guanosine Triphosphate - metabolism Hydrolysis - drug effects Intracellular Membranes - chemistry Intracellular Membranes - drug effects Intracellular Membranes - metabolism Kinetics Membranes Molecular and cellular biology Proteins In vivo Dynamics Membrane transport Golgi apparatus
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ISSN	0028-0836 1476-4687
DOI	10.1038/417187a

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Abstract	Cytosolic coat proteins that bind reversibly to membranes have a central function in membrane transport within the secretory pathway. One well-studied example is COPI or coatomer, a heptameric protein complex that is recruited to membranes by the GTP-binding protein Arf1. Assembly into an electron-dense coat then helps in budding off membrane to be transported between the endoplasmic reticulum (ER) and Golgi apparatus. Here we propose and corroborate a simple model for coatomer and Arf1 activity based on results analysing the distribution and lifetime of fluorescently labelled coatomer and Arf1 on Golgi membranes of living cells. We find that activated Arf1 brings coatomer to membranes. However, once associated with membranes, Arf1 and coatomer have different residence times: coatomer remains on membranes after Arf1-GTP has been hydrolysed and dissociated. Rapid membrane binding and dissociation of coatomer and Arf1 occur stochastically, even without vesicle budding. We propose that this continuous activity of coatomer and Arf1 generates kinetically stable membrane domains that are connected to the formation of COPI-containing transport intermediates. This role for Arf1/coatomer might provide a model for investigating the behaviour of other coat protein systems within cells.
AbstractList	Cytosolic coat proteins that bind reversibly to membranes have a central function in membrane transport within the secretory pathway. One well-studied example is COPI or coatomer, a heptameric protein complex that is recruited to membranes by the GTP-binding protein Arf1. Assembly into an electron-dense coat then helps in budding off membrane to be transported between the endoplasmic reticulum (ER) and Golgi apparatus. Here we propose and corroborate a simple model for coatomer and Arf1 activity based on results analysing the distribution and lifetime of fluorescently labelled coatomer and Arf1 on Golgi membranes of living cells. We find that activated Arf1 brings coatomer to membranes. However, once associated with membranes, Arf1 and coatomer have different residence times: coatomer remains on membranes after Arf1-GTP has been hydrolysed and dissociated. Rapid membrane binding and dissociation of coatomer and Arf1 occur stochastically, even without vesicle budding. We propose that this continuous activity of coatomer and Arf1 generates kinetically stable membrane domains that are connected to the formation of COPI-containing transport intermediates. This role for Arf1/coatomer might provide a model for investigating the behaviour of other coat protein systems within cells. Presley et al propose and corroborate a simple model for coatomer and Arf1 activity based on results analyzing the distribution and lifetime of fluorescently labeled coatomer and Arf1 on Golgi membranes of living cells. Cytosolic coat proteins that bind reversibly to membranes have a central function in membrane transport within the secretory pathway. One well-studied example is COPI or coatomer, a heptameric protein complex that is recruited to membranes by the GTP-binding protein Arf1. Assembly into an electron-dense coat then helps in budding off membrane to be transported between the endoplasmic reticulum (ER) and Golgi apparatus. Here we propose and corroborate a simple model for coatomer and Arf1 activity based on results analysing the distribution and lifetime of fluorescently labelled coatomer and Arf1 on Golgi membranes of living cells. We find that activated Arf1 brings coatomer to membranes. However, once associated with membranes, Arf1 and coatomer have different residence times: coatomer remains on membranes after Arf1-GTP has been hydrolysed and dissociated. Rapid membrane binding and dissociation of coatomer and Arf1 occur stochastically, even without vesicle budding. We propose that this continuous activity of coatomer and Arf1 generates kinetically stable membrane domains that are connected to the formation of COPI-containing transport intermediates. This role for Arf1/coatomer might provide a model for investigating the behaviour of other coat protein systems within cells.Cytosolic coat proteins that bind reversibly to membranes have a central function in membrane transport within the secretory pathway. One well-studied example is COPI or coatomer, a heptameric protein complex that is recruited to membranes by the GTP-binding protein Arf1. Assembly into an electron-dense coat then helps in budding off membrane to be transported between the endoplasmic reticulum (ER) and Golgi apparatus. Here we propose and corroborate a simple model for coatomer and Arf1 activity based on results analysing the distribution and lifetime of fluorescently labelled coatomer and Arf1 on Golgi membranes of living cells. We find that activated Arf1 brings coatomer to membranes. However, once associated with membranes, Arf1 and coatomer have different residence times: coatomer remains on membranes after Arf1-GTP has been hydrolysed and dissociated. Rapid membrane binding and dissociation of coatomer and Arf1 occur stochastically, even without vesicle budding. We propose that this continuous activity of coatomer and Arf1 generates kinetically stable membrane domains that are connected to the formation of COPI-containing transport intermediates. This role for Arf1/coatomer might provide a model for investigating the behaviour of other coat protein systems within cells.
Audience	Academic
Author	Ward, Theresa H. Siggia, Eric D. Lippincott-Schwartz, Jennifer Pfeifer, Andrea C. Presley, John F. Phair, Robert D.
Author_xml	– sequence: 1 givenname: John F. surname: Presley fullname: Presley, John F. – sequence: 2 givenname: Theresa H. surname: Ward fullname: Ward, Theresa H. – sequence: 3 givenname: Andrea C. surname: Pfeifer fullname: Pfeifer, Andrea C. – sequence: 4 givenname: Eric D. surname: Siggia fullname: Siggia, Eric D. – sequence: 5 givenname: Robert D. surname: Phair fullname: Phair, Robert D. – sequence: 6 givenname: Jennifer surname: Lippincott-Schwartz fullname: Lippincott-Schwartz, Jennifer
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Snippet	Cytosolic coat proteins that bind reversibly to membranes have a central function in membrane transport within the secretory pathway. One well-studied example... Presley et al propose and corroborate a simple model for coatomer and Arf1 activity based on results analyzing the distribution and lifetime of fluorescently...
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SubjectTerms	ADP-Ribosylation Factor 1 - metabolism Animals Biological and medical sciences Biological Transport - drug effects Brefeldin A - pharmacology Cell Line Cell structures and functions Cells Cellular biology CHO Cells Coat Protein Complex I - metabolism Coatomer Protein - metabolism COP-Coated Vesicles - chemistry COP-Coated Vesicles - drug effects COP-Coated Vesicles - metabolism Cricetinae Endoplasmic Reticulum - drug effects Endoplasmic Reticulum - metabolism Fundamental and applied biological sciences. Psychology Golgi apparatus Golgi Apparatus - drug effects Golgi Apparatus - metabolism Guanosine Triphosphate - metabolism Hydrolysis - drug effects Intracellular Membranes - chemistry Intracellular Membranes - drug effects Intracellular Membranes - metabolism Kinetics Membranes Molecular and cellular biology Proteins
Title	Dissection of COPI and Arf1 dynamics in vivo and role in Golgi membrane transport
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