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

Sai Srinivas Panapakkam Giridharan; Guangming Luo; Pilar Rivero-Ríos; Noah Steinfeld; Helene Tronchere; Amika Singla; Ezra Burstein; Daniel D. Billadeau; Michael A. Sutton; Lois Weisman

doi:10.7554/eLife.69709

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

Sai Srinivas Panapakkam Giridharan, Guangming Luo, Pilar Rivero-Ríos, Noah Steinfeld, Helene Tronchere, Amika Singla, Ezra Burstein, Daniel D. Billadeau, Michael A. Sutton, Lois Weisman

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

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 PI3P, which is the substrate for PIKfyve to generate PI3,5P₂. 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 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.

Original language	English (US)
Article number	e69709
Journal	eLife
Volume	11
DOIs	https://doi.org/10.7554/eLife.69709
State	Published - Jan 2022

Keywords

5-bisphosphate
CCC
COMMD
PIKfyve
Phosphatidylinositol 3
PtdIns(3, 5)P
PtdIns5P
Retriever
SNX17
VPS26C/DSCR3
VPS34
VPS35L/C16orf62

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.7554/eLife.69709

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title = "Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate Retriever-mediated recycling on endosomes",

abstract = "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 PI3P, which is the substrate for PIKfyve to generate PI3,5P2. 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 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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author = "Giridharan, {Sai Srinivas Panapakkam} and Guangming Luo and Pilar Rivero-R{\'i}os and Noah Steinfeld and Helene Tronchere and Amika Singla and Ezra Burstein and Billadeau, {Daniel D.} and Sutton, {Michael A.} and Lois Weisman",

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journal = "eLife",

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T1 - Lipid kinases VPS34 and PIKfyve coordinate a phosphoinositide cascade to regulate Retriever-mediated recycling on endosomes

AU - Giridharan, Sai Srinivas Panapakkam

AU - Luo, Guangming

AU - Rivero-Ríos, Pilar

AU - Steinfeld, Noah

AU - Tronchere, Helene

AU - Singla, Amika

AU - Burstein, Ezra

AU - Billadeau, Daniel D.

AU - Sutton, Michael A.

AU - Weisman, Lois

PY - 2022/1

Y1 - 2022/1

N2 - 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 PI3P, which is the substrate for PIKfyve to generate PI3,5P2. 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 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.

AB - 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 PI3P, which is the substrate for PIKfyve to generate PI3,5P2. 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 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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KW - VPS35L/C16orf62

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

Abstract

Keywords

ASJC Scopus subject areas

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