Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes

Cell surface receptors control how cells respond to their environment. Many cell surface receptors recycle from endosomes to the plasma membrane via a recently discovered pathway, which includes sorting-nexin SNX17, Retriever, WASH, and CCC complexes. Here, using mammalian cells, we discover that PI...

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Autores principales: Giridharan, Sai Srinivas Panapakkam, Luo, Guangming, Rivero-Rios, Pilar, Steinfeld, Noah, Tronchere, Helene, Singla, Amika, Burstein, Ezra, Billadeau, Daniel D, Sutton, Michael A, Weisman, Lois S
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2022
Materias:
Cell Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8816382/
https://www.ncbi.nlm.nih.gov/pubmed/35040777
http://dx.doi.org/10.7554/eLife.69709
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author Giridharan, Sai Srinivas Panapakkam
Luo, Guangming
Rivero-Rios, Pilar
Steinfeld, Noah
Tronchere, Helene
Singla, Amika
Burstein, Ezra
Billadeau, Daniel D
Sutton, Michael A
Weisman, Lois S
author_facet Giridharan, Sai Srinivas Panapakkam
Luo, Guangming
Rivero-Rios, Pilar
Steinfeld, Noah
Tronchere, Helene
Singla, Amika
Burstein, Ezra
Billadeau, Daniel D
Sutton, Michael A
Weisman, Lois S
author_sort Giridharan, Sai Srinivas Panapakkam
collection PubMed
description Cell surface receptors control how cells respond to their environment. Many cell surface receptors recycle from endosomes to the plasma membrane via a recently discovered pathway, which includes sorting-nexin SNX17, Retriever, WASH, and CCC complexes. Here, using mammalian cells, we discover that PIKfyve and its upstream PI3-kinase VPS34 positively regulate this pathway. VPS34 produces phosphatidylinositol 3-phosphate (PI3P), which is the substrate for PIKfyve to generate PI3,5P(2). We show that PIKfyve controls recycling of cargoes including integrins, receptors that control cell migration. Furthermore, endogenous PIKfyve colocalizes with SNX17, Retriever, WASH, and CCC complexes on endosomes. Importantly, PIKfyve inhibition results in displacement of Retriever and CCC from endosomes. In addition, we show that recruitment of SNX17 is an early step and requires VPS34. These discoveries suggest that VPS34 and PIKfyve coordinate an ordered pathway to regulate recycling from endosomes and suggest how PIKfyve functions in cell migration.
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spelling pubmed-88163822022-02-07 Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes Giridharan, Sai Srinivas Panapakkam Luo, Guangming Rivero-Rios, Pilar Steinfeld, Noah Tronchere, Helene Singla, Amika Burstein, Ezra Billadeau, Daniel D Sutton, Michael A Weisman, Lois S eLife Cell Biology Cell surface receptors control how cells respond to their environment. Many cell surface receptors recycle from endosomes to the plasma membrane via a recently discovered pathway, which includes sorting-nexin SNX17, Retriever, WASH, and CCC complexes. Here, using mammalian cells, we discover that PIKfyve and its upstream PI3-kinase VPS34 positively regulate this pathway. VPS34 produces phosphatidylinositol 3-phosphate (PI3P), which is the substrate for PIKfyve to generate PI3,5P(2). We show that PIKfyve controls recycling of cargoes including integrins, receptors that control cell migration. Furthermore, endogenous PIKfyve colocalizes with SNX17, Retriever, WASH, and CCC complexes on endosomes. Importantly, PIKfyve inhibition results in displacement of Retriever and CCC from endosomes. In addition, we show that recruitment of SNX17 is an early step and requires VPS34. These discoveries suggest that VPS34 and PIKfyve coordinate an ordered pathway to regulate recycling from endosomes and suggest how PIKfyve functions in cell migration. eLife Sciences Publications, Ltd 2022-01-18 /pmc/articles/PMC8816382/ /pubmed/35040777 http://dx.doi.org/10.7554/eLife.69709 Text en © 2022, Giridharan et al https://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Cell Biology
Giridharan, Sai Srinivas Panapakkam
Luo, Guangming
Rivero-Rios, Pilar
Steinfeld, Noah
Tronchere, Helene
Singla, Amika
Burstein, Ezra
Billadeau, Daniel D
Sutton, Michael A
Weisman, Lois S
Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
title Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
title_full Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
title_fullStr Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
title_full_unstemmed Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
title_short Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
title_sort lipid kinases vps34 and pikfyve coordinate a phosphoinositide cascade to regulate retriever-mediated recycling on endosomes
topic Cell Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8816382/
https://www.ncbi.nlm.nih.gov/pubmed/35040777
http://dx.doi.org/10.7554/eLife.69709
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