Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels

Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels

The accelerated cell death 11 (acd11) mutant of Arabidopsis provides a genetic model for studying immune response activation and localized cellular suicide that halt pathogen spread during infection in plants. Here, we elucidate ACD11 structure and function and show that acd11 disruption dramaticall...

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Main Authors: Dhirendra K. Simanshu, Xiuhong Zhai, David Munch, Daniel Hofius, Jonathan E. Markham, Jacek Bielawski, Alicja Bielawska, Lucy Malinina, Julian G. Molotkovsky, John W. Mundy, Dinshaw J. Patel, Rhoderick E. Brown
Format: Article
Language:English
Published: Elsevier 2014-01-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124713007687
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spelling doaj-d44452172639457987ee1386b90c25cd2020-11-25T00:16:20ZengElsevierCell Reports2211-12472014-01-016238839910.1016/j.celrep.2013.12.023Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide LevelsDhirendra K. Simanshu0Xiuhong Zhai1David Munch2Daniel Hofius3Jonathan E. Markham4Jacek Bielawski5Alicja Bielawska6Lucy Malinina7Julian G. Molotkovsky8John W. Mundy9Dinshaw J. Patel10Rhoderick E. Brown11Structural Biology Program, Memorial Sloan-Kettering Cancer Center, New York, NY 10065, USAHormel Institute, University of Minnesota, Austin, MN 55912, USADepartment of Biology, BioCenter, University of Copenhagen, 2200 Copenhagen N, DenmarkDepartment of Biology, BioCenter, University of Copenhagen, 2200 Copenhagen N, DenmarkDepartment of Biochemistry, University of Nebraska, N146 Beadle Center, Lincoln, NE 68588, USADepartment of Biochemistry and Molecular Biology, Lipidomics Shared Resource Mass Spectrometry Lab, Medical University of South Carolina, Charleston, SC 29425, USADepartment of Biochemistry and Molecular Biology, Lipidomics Shared Resource Mass Spectrometry Lab, Medical University of South Carolina, Charleston, SC 29425, USAStructural Biology Unit, CIC bioGUNE, Technology Park of Bizkaia, 48160 Derio-Bilbao, SpainShemyakin-Ovchinnikov Institute of Bioorganic Chemistry, Russian Academy of Sciences, 117997 Moscow, RussiaDepartment of Biology, BioCenter, University of Copenhagen, 2200 Copenhagen N, DenmarkStructural Biology Program, Memorial Sloan-Kettering Cancer Center, New York, NY 10065, USAHormel Institute, University of Minnesota, Austin, MN 55912, USAThe accelerated cell death 11 (acd11) mutant of Arabidopsis provides a genetic model for studying immune response activation and localized cellular suicide that halt pathogen spread during infection in plants. Here, we elucidate ACD11 structure and function and show that acd11 disruption dramatically alters the in vivo balance of sphingolipid mediators that regulate eukaryotic-programmed cell death. In acd11 mutants, normally low ceramide-1-phosphate (C1P) levels become elevated, but the relatively abundant cell death inducer phytoceramide rises acutely. ACD11 exhibits selective intermembrane transfer of C1P and phyto-C1P. Crystal structures establish C1P binding via a surface-localized, phosphate headgroup recognition center connected to an interior hydrophobic pocket that adaptively ensheaths lipid chains via a cleft-like gating mechanism. Point mutation mapping confirms functional involvement of binding site residues. A π helix (π bulge) near the lipid binding cleft distinguishes apo-ACD11 from other GLTP folds. The global two-layer, α-helically dominated, “sandwich” topology displaying C1P-selective binding identifies ACD11 as the plant prototype of a GLTP fold subfamily.http://www.sciencedirect.com/science/article/pii/S2211124713007687
collection DOAJ
language English
format Article
sources DOAJ
author Dhirendra K. Simanshu
Xiuhong Zhai
David Munch
Daniel Hofius
Jonathan E. Markham
Jacek Bielawski
Alicja Bielawska
Lucy Malinina
Julian G. Molotkovsky
John W. Mundy
Dinshaw J. Patel
Rhoderick E. Brown
spellingShingle Dhirendra K. Simanshu
Xiuhong Zhai
David Munch
Daniel Hofius
Jonathan E. Markham
Jacek Bielawski
Alicja Bielawska
Lucy Malinina
Julian G. Molotkovsky
John W. Mundy
Dinshaw J. Patel
Rhoderick E. Brown
Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels
Cell Reports
author_facet Dhirendra K. Simanshu
Xiuhong Zhai
David Munch
Daniel Hofius
Jonathan E. Markham
Jacek Bielawski
Alicja Bielawska
Lucy Malinina
Julian G. Molotkovsky
John W. Mundy
Dinshaw J. Patel
Rhoderick E. Brown
author_sort Dhirendra K. Simanshu
title Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels
title_short Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels
title_full Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels
title_fullStr Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels
title_full_unstemmed Arabidopsis Accelerated Cell Death 11, ACD11, Is a Ceramide-1-Phosphate Transfer Protein and Intermediary Regulator of Phytoceramide Levels
title_sort arabidopsis accelerated cell death 11, acd11, is a ceramide-1-phosphate transfer protein and intermediary regulator of phytoceramide levels
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2014-01-01
description The accelerated cell death 11 (acd11) mutant of Arabidopsis provides a genetic model for studying immune response activation and localized cellular suicide that halt pathogen spread during infection in plants. Here, we elucidate ACD11 structure and function and show that acd11 disruption dramatically alters the in vivo balance of sphingolipid mediators that regulate eukaryotic-programmed cell death. In acd11 mutants, normally low ceramide-1-phosphate (C1P) levels become elevated, but the relatively abundant cell death inducer phytoceramide rises acutely. ACD11 exhibits selective intermembrane transfer of C1P and phyto-C1P. Crystal structures establish C1P binding via a surface-localized, phosphate headgroup recognition center connected to an interior hydrophobic pocket that adaptively ensheaths lipid chains via a cleft-like gating mechanism. Point mutation mapping confirms functional involvement of binding site residues. A π helix (π bulge) near the lipid binding cleft distinguishes apo-ACD11 from other GLTP folds. The global two-layer, α-helically dominated, “sandwich” topology displaying C1P-selective binding identifies ACD11 as the plant prototype of a GLTP fold subfamily.
url http://www.sciencedirect.com/science/article/pii/S2211124713007687
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