Amino acid signaling to mTOR mediated by inositol polyphosphate multikinase

Seyun Kim; Sangwon F. Kim; David Maag; Micah J. Maxwell; Adam C. Resnick; Krishna R. Juluri; Anutosh Chakraborty; Michael A. Koldobskiy; Seung Hun Cha; Roxanne Barrow; Adele M. Snowman; Solomon H. Snyder

doi:10.1016/j.cmet.2011.01.007

Amino acid signaling to mTOR mediated by inositol polyphosphate multikinase

Seyun Kim, Sangwon F. Kim, David Maag, Micah J. Maxwell, Adam C. Resnick, Krishna R. Juluri, Anutosh Chakraborty, Michael A. Koldobskiy, Seung Hun Cha, Roxanne Barrow, Adele M. Snowman, Solomon H. Snyder

School of Medicine

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

96 Scopus citations

Abstract

mTOR complex 1 (mTORC1; mammalian target of rapamycin [mTOR] in complex with raptor) is a key regulator of protein synthesis and cell growth in response to nutrient amino acids. Here we report that inositol polyphosphate multikinase (IPMK), which possesses both inositol phosphate kinase and lipid kinase activities, regulates amino acid signaling to mTORC1. This regulation is independent of IPMK's catalytic function, instead reflecting its binding with mTOR and raptor, which maintains the mTOR-raptor association. Thus, IPMK appears to be a physiologic mTOR cofactor, serving as a determinant of mTORC1 stability and amino acid-induced mTOR signaling. Substances that block IPMK-mTORC1 binding may afford therapeutic benefit in nutrient amino acid-regulated conditions such as obesity and diabetes.

Original language	English (US)
Pages (from-to)	215-221
Number of pages	7
Journal	Cell Metabolism
Volume	13
Issue number	2
DOIs	https://doi.org/10.1016/j.cmet.2011.01.007
State	Published - Feb 2 2011

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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10.1016/j.cmet.2011.01.007

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title = "Amino acid signaling to mTOR mediated by inositol polyphosphate multikinase",

abstract = "mTOR complex 1 (mTORC1; mammalian target of rapamycin [mTOR] in complex with raptor) is a key regulator of protein synthesis and cell growth in response to nutrient amino acids. Here we report that inositol polyphosphate multikinase (IPMK), which possesses both inositol phosphate kinase and lipid kinase activities, regulates amino acid signaling to mTORC1. This regulation is independent of IPMK's catalytic function, instead reflecting its binding with mTOR and raptor, which maintains the mTOR-raptor association. Thus, IPMK appears to be a physiologic mTOR cofactor, serving as a determinant of mTORC1 stability and amino acid-induced mTOR signaling. Substances that block IPMK-mTORC1 binding may afford therapeutic benefit in nutrient amino acid-regulated conditions such as obesity and diabetes.",

author = "Seyun Kim and Kim, {Sangwon F.} and David Maag and Maxwell, {Micah J.} and Resnick, {Adam C.} and Juluri, {Krishna R.} and Anutosh Chakraborty and Koldobskiy, {Michael A.} and Cha, {Seung Hun} and Roxanne Barrow and Snowman, {Adele M.} and Snyder, {Solomon H.}",

note = "Funding Information: We thank D.M. Sabatini for reagents. This work was funded by United States Public Health Service (USPHS) grant DA-00266 and Research Scientist Award DA-00074 (S.H.S.), Jane Coffin Childs Memorial fellowship (S.K.), R01DK084336 and Bingham Trust Pilot Award (S.F.K.), and Damon Runyon Cancer Research fellowship (D.M.). ",

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doi = "10.1016/j.cmet.2011.01.007",

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AU - Kim, Seyun

AU - Kim, Sangwon F.

AU - Maag, David

AU - Maxwell, Micah J.

AU - Resnick, Adam C.

AU - Juluri, Krishna R.

AU - Chakraborty, Anutosh

AU - Koldobskiy, Michael A.

AU - Cha, Seung Hun

AU - Barrow, Roxanne

AU - Snowman, Adele M.

AU - Snyder, Solomon H.

N1 - Funding Information: We thank D.M. Sabatini for reagents. This work was funded by United States Public Health Service (USPHS) grant DA-00266 and Research Scientist Award DA-00074 (S.H.S.), Jane Coffin Childs Memorial fellowship (S.K.), R01DK084336 and Bingham Trust Pilot Award (S.F.K.), and Damon Runyon Cancer Research fellowship (D.M.).

PY - 2011/2/2

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N2 - mTOR complex 1 (mTORC1; mammalian target of rapamycin [mTOR] in complex with raptor) is a key regulator of protein synthesis and cell growth in response to nutrient amino acids. Here we report that inositol polyphosphate multikinase (IPMK), which possesses both inositol phosphate kinase and lipid kinase activities, regulates amino acid signaling to mTORC1. This regulation is independent of IPMK's catalytic function, instead reflecting its binding with mTOR and raptor, which maintains the mTOR-raptor association. Thus, IPMK appears to be a physiologic mTOR cofactor, serving as a determinant of mTORC1 stability and amino acid-induced mTOR signaling. Substances that block IPMK-mTORC1 binding may afford therapeutic benefit in nutrient amino acid-regulated conditions such as obesity and diabetes.

AB - mTOR complex 1 (mTORC1; mammalian target of rapamycin [mTOR] in complex with raptor) is a key regulator of protein synthesis and cell growth in response to nutrient amino acids. Here we report that inositol polyphosphate multikinase (IPMK), which possesses both inositol phosphate kinase and lipid kinase activities, regulates amino acid signaling to mTORC1. This regulation is independent of IPMK's catalytic function, instead reflecting its binding with mTOR and raptor, which maintains the mTOR-raptor association. Thus, IPMK appears to be a physiologic mTOR cofactor, serving as a determinant of mTORC1 stability and amino acid-induced mTOR signaling. Substances that block IPMK-mTORC1 binding may afford therapeutic benefit in nutrient amino acid-regulated conditions such as obesity and diabetes.

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Amino acid signaling to mTOR mediated by inositol polyphosphate multikinase

Abstract

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