PLD2 forms a functional complex with mTOR/raptor to transduce mitogenic signals

Sang Hoon Ha; Do Hyung Kim; Il Shin Kim; Jung Hwan Kim; Mi Nam Lee; Hyun Ju Lee; Jong Heon Kim; Sung Key Jang; Pann Ghill Suh; Sung Ho Ryu

doi:10.1016/j.cellsig.2006.05.021

PLD2 forms a functional complex with mTOR/raptor to transduce mitogenic signals

Sang Hoon Ha, Do Hyung Kim, Il Shin Kim, Jung Hwan Kim, Mi Nam Lee, Hyun Ju Lee, Jong Heon Kim, Sung Key Jang, Pann Ghill Suh, Sung Ho Ryu

Metabolic and Systems Biology (TMED)

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

50 Scopus citations

Abstract

Mammalian target-of-rapamycin (mTOR), which is a master controller of cell growth, senses a mitogenic signal in part through the lipid second messenger phosphatidic acid (PA), generated by phospholipase D (PLD). To understand further which isozymes of PLD are involved in this process, we compared the effect of PLD isozymes on mTOR activation. We found that PLD2 has an essential role in mitogen-induced mTOR activation as the siRNA-mediated knockdown of PLD2, not of PLD1, profoundly reduced the phosphorylations of S6K1 and 4EBP1, well-known mTOR effectors. Furthermore, exogenous PA-induced mTOR activation was abrogated by PLD2 knockdown, but not by PLD1 knockdown. This abrogation was found to be the result of complex formation between PLD2 and mTOR/raptor. PLD2 possesses a TOS-like motif (Phe-Glu-Val-Gln-Val, a.a. 265-269), through which it interacts with raptor independently of the other TOS motif-containing proteins, S6K1 and 4EBP1. PLD2-dependent mTOR activation appears to require PLD2 binding to mTOR/raptor with lipase activity, since lipase-inactive PLD2 cannot trigger mTOR activation despite its ability to interact with mTOR/raptor. Abrogation of mitogen-dependent mTOR activation by PLD2 knockdown was rescued only by wild type PLD2, but not by raptor binding-deficient and lipase-inactive PLD2. Our results demonstrate the importance of localized PA generation for the mitogen-induced activation of mTOR, which is achieved by a specific interaction between PLD2 and mTOR/raptor.

Original language	English (US)
Pages (from-to)	2283-2291
Number of pages	9
Journal	Cellular Signalling
Volume	18
Issue number	12
DOIs	https://doi.org/10.1016/j.cellsig.2006.05.021
State	Published - Dec 2006

Bibliographical note

Funding Information:
We thank Dr. David M. Sabatini (MIT, USA) for providing expression vectors (mTOR and raptor). This work was supported by the 21C Frontier Functional Proteomics program of the Ministry of Science and Technology in the Republic of Korea to S.H. Ryu as well as grant from the Tuberous Sclerosis Alliance to D.-H. Kim.

Keywords

Complex formation
PLD2
Raptor
mTOR

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title = "PLD2 forms a functional complex with mTOR/raptor to transduce mitogenic signals",

abstract = "Mammalian target-of-rapamycin (mTOR), which is a master controller of cell growth, senses a mitogenic signal in part through the lipid second messenger phosphatidic acid (PA), generated by phospholipase D (PLD). To understand further which isozymes of PLD are involved in this process, we compared the effect of PLD isozymes on mTOR activation. We found that PLD2 has an essential role in mitogen-induced mTOR activation as the siRNA-mediated knockdown of PLD2, not of PLD1, profoundly reduced the phosphorylations of S6K1 and 4EBP1, well-known mTOR effectors. Furthermore, exogenous PA-induced mTOR activation was abrogated by PLD2 knockdown, but not by PLD1 knockdown. This abrogation was found to be the result of complex formation between PLD2 and mTOR/raptor. PLD2 possesses a TOS-like motif (Phe-Glu-Val-Gln-Val, a.a. 265-269), through which it interacts with raptor independently of the other TOS motif-containing proteins, S6K1 and 4EBP1. PLD2-dependent mTOR activation appears to require PLD2 binding to mTOR/raptor with lipase activity, since lipase-inactive PLD2 cannot trigger mTOR activation despite its ability to interact with mTOR/raptor. Abrogation of mitogen-dependent mTOR activation by PLD2 knockdown was rescued only by wild type PLD2, but not by raptor binding-deficient and lipase-inactive PLD2. Our results demonstrate the importance of localized PA generation for the mitogen-induced activation of mTOR, which is achieved by a specific interaction between PLD2 and mTOR/raptor.",

keywords = "Complex formation, PLD2, Raptor, mTOR",

author = "Ha, {Sang Hoon} and Kim, {Do Hyung} and Kim, {Il Shin} and Kim, {Jung Hwan} and Lee, {Mi Nam} and Lee, {Hyun Ju} and Kim, {Jong Heon} and Jang, {Sung Key} and Suh, {Pann Ghill} and Ryu, {Sung Ho}",

note = "Funding Information: We thank Dr. David M. Sabatini (MIT, USA) for providing expression vectors (mTOR and raptor). This work was supported by the 21C Frontier Functional Proteomics program of the Ministry of Science and Technology in the Republic of Korea to S.H. Ryu as well as grant from the Tuberous Sclerosis Alliance to D.-H. Kim. ",

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AU - Ha, Sang Hoon

AU - Kim, Do Hyung

AU - Kim, Il Shin

AU - Kim, Jung Hwan

AU - Lee, Mi Nam

AU - Lee, Hyun Ju

AU - Kim, Jong Heon

AU - Jang, Sung Key

AU - Suh, Pann Ghill

AU - Ryu, Sung Ho

N1 - Funding Information: We thank Dr. David M. Sabatini (MIT, USA) for providing expression vectors (mTOR and raptor). This work was supported by the 21C Frontier Functional Proteomics program of the Ministry of Science and Technology in the Republic of Korea to S.H. Ryu as well as grant from the Tuberous Sclerosis Alliance to D.-H. Kim.

PY - 2006/12

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N2 - Mammalian target-of-rapamycin (mTOR), which is a master controller of cell growth, senses a mitogenic signal in part through the lipid second messenger phosphatidic acid (PA), generated by phospholipase D (PLD). To understand further which isozymes of PLD are involved in this process, we compared the effect of PLD isozymes on mTOR activation. We found that PLD2 has an essential role in mitogen-induced mTOR activation as the siRNA-mediated knockdown of PLD2, not of PLD1, profoundly reduced the phosphorylations of S6K1 and 4EBP1, well-known mTOR effectors. Furthermore, exogenous PA-induced mTOR activation was abrogated by PLD2 knockdown, but not by PLD1 knockdown. This abrogation was found to be the result of complex formation between PLD2 and mTOR/raptor. PLD2 possesses a TOS-like motif (Phe-Glu-Val-Gln-Val, a.a. 265-269), through which it interacts with raptor independently of the other TOS motif-containing proteins, S6K1 and 4EBP1. PLD2-dependent mTOR activation appears to require PLD2 binding to mTOR/raptor with lipase activity, since lipase-inactive PLD2 cannot trigger mTOR activation despite its ability to interact with mTOR/raptor. Abrogation of mitogen-dependent mTOR activation by PLD2 knockdown was rescued only by wild type PLD2, but not by raptor binding-deficient and lipase-inactive PLD2. Our results demonstrate the importance of localized PA generation for the mitogen-induced activation of mTOR, which is achieved by a specific interaction between PLD2 and mTOR/raptor.

AB - Mammalian target-of-rapamycin (mTOR), which is a master controller of cell growth, senses a mitogenic signal in part through the lipid second messenger phosphatidic acid (PA), generated by phospholipase D (PLD). To understand further which isozymes of PLD are involved in this process, we compared the effect of PLD isozymes on mTOR activation. We found that PLD2 has an essential role in mitogen-induced mTOR activation as the siRNA-mediated knockdown of PLD2, not of PLD1, profoundly reduced the phosphorylations of S6K1 and 4EBP1, well-known mTOR effectors. Furthermore, exogenous PA-induced mTOR activation was abrogated by PLD2 knockdown, but not by PLD1 knockdown. This abrogation was found to be the result of complex formation between PLD2 and mTOR/raptor. PLD2 possesses a TOS-like motif (Phe-Glu-Val-Gln-Val, a.a. 265-269), through which it interacts with raptor independently of the other TOS motif-containing proteins, S6K1 and 4EBP1. PLD2-dependent mTOR activation appears to require PLD2 binding to mTOR/raptor with lipase activity, since lipase-inactive PLD2 cannot trigger mTOR activation despite its ability to interact with mTOR/raptor. Abrogation of mitogen-dependent mTOR activation by PLD2 knockdown was rescued only by wild type PLD2, but not by raptor binding-deficient and lipase-inactive PLD2. Our results demonstrate the importance of localized PA generation for the mitogen-induced activation of mTOR, which is achieved by a specific interaction between PLD2 and mTOR/raptor.

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ER -

PLD2 forms a functional complex with mTOR/raptor to transduce mitogenic signals

Abstract

Bibliographical note

Keywords

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