The Rod-Shaped ATG2A-WIPI4 Complex Tethers Membranes In Vitro
The autophagosome precursor membrane, termed the isolation membrane or phagophore, emerges adjacent to a phosphatidylinositol 3-phosphate (PI3P)-enriched transient subdomain of the endoplasmic reticulum called the omegasome, thereafter expanding to engulf cytoplasmic content. Uncovering the molecula...
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| Published in | Contact Vol. 1 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Los Angeles, CA
SAGE Publications
01.01.2018
Sage Publications Ltd SAGE Publishing |
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| Online Access | Get full text |
| ISSN | 2515-2564 2515-2564 |
| DOI | 10.1177/2515256418819936 |
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| Abstract | The autophagosome precursor membrane, termed the isolation membrane or phagophore, emerges adjacent to a phosphatidylinositol 3-phosphate (PI3P)-enriched transient subdomain of the endoplasmic reticulum called the omegasome, thereafter expanding to engulf cytoplasmic content. Uncovering the molecular events that occur in the vicinity of the omegasome during phagophore biogenesis is imperative for understanding the mechanisms involved in this critical step of the autophagy pathway. We recently characterized the ATG2A-WIPI4 complex, one of the factors that localize to the omegasome and play a critical role in mediating phagophore expansion. Our structural and biochemical studies revealed that ATG2A is a rod-shaped protein with membrane-interacting properties at each end, endowing ATG2A with membrane-tethering capability. Association of the PI3P-binding protein WIPI4 at one of the ATG2A tips enables the ATG2A-WIPI4 complex to specifically tether PI3P-containing membranes to non-PI3P-containing membranes. We proposed models for the ATG2A-WIPI4 complex-mediated membrane associations between the omegasome and surrounding membranes, including the phagophore edge, the endoplasmic reticulum, ATG9 vesicles, and COPII vesicles. |
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| AbstractList | The autophagosome precursor membrane, termed the "isolation membrane" or "phagophore," emerges adjacent to a PI3P-enriched transient subdomain of the ER called the "omegasome," thereafter expanding to engulf cytoplasmic content. Uncovering the molecular events that occur in the vicinity of the omegasome during phagophore biogenesis is imperative for understanding the mechanisms involved in this critical step of the autophagy pathway. We recently characterized the ATG2A-WIPI4 complex, one of the factors that localize to the omegasome and play a critical role in mediating phagophore expansion. Our structural and biochemical studies revealed that ATG2A is a rod-shaped protein with membrane-interacting properties at each end, endowing ATG2A with membrane-tethering capability. Association of the PI3P-binding protein WIPI4 at one of the ATG2A tips enables the ATG2A-WIPI4 complex to specifically tether PI3P-containing membranes to non-PI3P-containing membranes. We proposed models for the ATG2A-WIPI4 complex-mediated membrane associations between the omegasome and surrounding membranes, including the phagophore edge, the ER, ATG9 vesicles, and COPII vesicles. The autophagosome precursor membrane, termed the isolation membrane or phagophore, emerges adjacent to a phosphatidylinositol 3-phosphate (PI3P)-enriched transient subdomain of the endoplasmic reticulum called the omegasome, thereafter expanding to engulf cytoplasmic content. Uncovering the molecular events that occur in the vicinity of the omegasome during phagophore biogenesis is imperative for understanding the mechanisms involved in this critical step of the autophagy pathway. We recently characterized the ATG2A-WIPI4 complex, one of the factors that localize to the omegasome and play a critical role in mediating phagophore expansion. Our structural and biochemical studies revealed that ATG2A is a rod-shaped protein with membrane-interacting properties at each end, endowing ATG2A with membrane-tethering capability. Association of the PI3P-binding protein WIPI4 at one of the ATG2A tips enables the ATG2A-WIPI4 complex to specifically tether PI3P-containing membranes to non-PI3P-containing membranes. We proposed models for the ATG2A-WIPI4 complex-mediated membrane associations between the omegasome and surrounding membranes, including the phagophore edge, the endoplasmic reticulum, ATG9 vesicles, and COPII vesicles. The autophagosome precursor membrane, termed the "isolation membrane" or "phagophore," emerges adjacent to a PI3P-enriched transient subdomain of the ER called the "omegasome," thereafter expanding to engulf cytoplasmic content. Uncovering the molecular events that occur in the vicinity of the omegasome during phagophore biogenesis is imperative for understanding the mechanisms involved in this critical step of the autophagy pathway. We recently characterized the ATG2A-WIPI4 complex, one of the factors that localize to the omegasome and play a critical role in mediating phagophore expansion. Our structural and biochemical studies revealed that ATG2A is a rod-shaped protein with membrane-interacting properties at each end, endowing ATG2A with membrane-tethering capability. Association of the PI3P-binding protein WIPI4 at one of the ATG2A tips enables the ATG2A-WIPI4 complex to specifically tether PI3P-containing membranes to non-PI3P-containing membranes. We proposed models for the ATG2A-WIPI4 complex-mediated membrane associations between the omegasome and surrounding membranes, including the phagophore edge, the ER, ATG9 vesicles, and COPII vesicles.The autophagosome precursor membrane, termed the "isolation membrane" or "phagophore," emerges adjacent to a PI3P-enriched transient subdomain of the ER called the "omegasome," thereafter expanding to engulf cytoplasmic content. Uncovering the molecular events that occur in the vicinity of the omegasome during phagophore biogenesis is imperative for understanding the mechanisms involved in this critical step of the autophagy pathway. We recently characterized the ATG2A-WIPI4 complex, one of the factors that localize to the omegasome and play a critical role in mediating phagophore expansion. Our structural and biochemical studies revealed that ATG2A is a rod-shaped protein with membrane-interacting properties at each end, endowing ATG2A with membrane-tethering capability. Association of the PI3P-binding protein WIPI4 at one of the ATG2A tips enables the ATG2A-WIPI4 complex to specifically tether PI3P-containing membranes to non-PI3P-containing membranes. We proposed models for the ATG2A-WIPI4 complex-mediated membrane associations between the omegasome and surrounding membranes, including the phagophore edge, the ER, ATG9 vesicles, and COPII vesicles. |
| Author | Otomo, Takanori Chowdhury, Saikat Lander, Gabriel C. |
| Author_xml | – sequence: 1 givenname: Takanori orcidid: 0000-0003-3589-238X surname: Otomo fullname: Otomo, Takanori email: totomo@scripps.edu organization: Saikat Chowdhury is now at the Department of Biochemistry and Cell Biology, Stony Brook University, NY, USA – sequence: 2 givenname: Saikat orcidid: 0000-0001-8043-5028 surname: Chowdhury fullname: Chowdhury, Saikat organization: Saikat Chowdhury is now at the Department of Biochemistry and Cell Biology, Stony Brook University, NY, USA – sequence: 3 givenname: Gabriel C. surname: Lander fullname: Lander, Gabriel C. email: glander@scripps.edu organization: Saikat Chowdhury is now at the Department of Biochemistry and Cell Biology, Stony Brook University, NY, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/30766969$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1007_s13238_020_00793_9 crossref_primary_10_1080_15548627_2021_1886830 crossref_primary_10_1111_febs_16280 crossref_primary_10_1515_hsz_2020_0102 crossref_primary_10_15252_embj_2021109646 crossref_primary_10_1186_s40246_022_00439_3 crossref_primary_10_1038_s41594_024_01376_6 crossref_primary_10_7554_eLife_45777 crossref_primary_10_1098_rsob_230192 crossref_primary_10_1083_jcb_202210078 crossref_primary_10_1111_febs_16018 crossref_primary_10_1093_braincomms_fcac304 crossref_primary_10_1093_cvr_cvab158 crossref_primary_10_3389_fpls_2020_00565 |
| Cites_doi | 10.1073/pnas.1316356110 10.1038/ncomms12420 10.1128/MCB.01327-13 10.1242/jcs.122960 10.1002/1873-3468.12901 10.4161/auto.25529 10.1016/j.molcel.2016.01.031 10.1091/mbc.e13-07-0381 10.1073/pnas.1806727115 10.1080/15548627.2017.1359381 10.1242/jcs.158758 10.1038/s41580-018-0071-5 10.1083/jcb.200803137 10.1083/jcb.201710116 10.1083/jcb.201807019 10.1101/180315 10.1091/mbc.e11-09-0746 |
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| Copyright | The Author(s) 2018 The Author(s) 2018. This work is licensed under the Creative Commons Attribution – Non-Commercial License http://creativecommons.org/licenses/by-nc/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| Keywords | ATG2 ATG18 membrane tethering WIPI autophagy autophagosome |
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| Snippet | The autophagosome precursor membrane, termed the isolation membrane or phagophore, emerges adjacent to a phosphatidylinositol 3-phosphate (PI3P)-enriched... The autophagosome precursor membrane, termed the "isolation membrane" or "phagophore," emerges adjacent to a PI3P-enriched transient subdomain of the ER called... The autophagosome precursor membrane, termed the “isolation membrane” or “phagophore,” emerges adjacent to a PI3P-enriched transient subdomain of the ER called... The autophagosome precursor membrane, termed the isolation membrane or phagophore , emerges adjacent to a phosphatidylinositol 3-phosphate (PI3P)-enriched... |
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| SubjectTerms | Autophagy Endoplasmic reticulum Membrane proteins Membranes Phagocytosis Phosphatidylinositol 3-phosphate Proteins Tethering Tethers Vesicles |
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| Title | The Rod-Shaped ATG2A-WIPI4 Complex Tethers Membranes In Vitro |
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