Shomit Sengupta scite author profile

The drug rapamycin has important uses in oncology, cardiology, and transplantation medicine, but its clinically relevant molecular effects are not understood. When bound to FKBP12, rapamycin interacts with and inhibits the kinase activity of a multiprotein complex composed of mTOR, mLST8, and raptor (mTORC1). The distinct complex of mTOR, mLST8, and rictor (mTORC2) does not interact with FKBP12-rapamycin and is not thought to be rapamycin sensitive. mTORC2 phosphorylates and activates Akt/PKB, a key regulator of cell survival. Here we show that rapamycin inhibits the assembly of mTORC2 and that, in many cell types, prolonged rapamycin treatment reduces the levels of mTORC2 below those needed to maintain Akt/PKB signaling. The proapoptotic and antitumor effects of rapamycin are suppressed in cells expressing an Akt/PKB mutant that is rapamycin resistant. Our work describes an unforeseen mechanism of action for rapamycin that suggests it can be used to inhibit Akt/PKB in certain cell types.

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Regulation of the mTOR Complex 1 Pathway by Nutrients, Growth Factors, and Stress

Sengupta

2010

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Summary The large serine/threonine protein kinase mTOR regulates cellular and organismal homeostasis by coordinating anabolic and catabolic processes with nutrient, energy, and oxygen availability and growth factor signaling. Cells and organisms experience a wide variety of insults that perturb the homeostatic systems governed by mTOR, and therefore require appropriate stress responses to allow cells to continue to function. Stress can manifest from an excess or lack of upstream signals, or due to genetic perturbations in upstream effectors of the pathway. mTOR nucleates two large protein complexes that are important nodes in the pathways that help buffer cells from stresses, and are implicated in the progression of stress-associated phenotypes and diseases, such as aging, tumorigenesis, and diabetes. This review focuses on the key components of the mTOR Complex 1 pathway and on how various stresses impinge upon them.

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mTOR Complex 1 Regulates Lipin 1 Localization to Control the SREBP Pathway

Peterson

Sengupta

Harris

et al. 2011

Cell

1,043

948

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SUMMARY The nutrient- and growth factor-responsive kinase, mTOR Complex 1 (mTORC1) regulates many processes that control growth including protein synthesis, autophagy, and lipogenesis. Through unknown mechanisms, mTORC1 promotes the function of SREBP, a master regulator of lipo- and sterolgenic gene transcription. Here, we demonstrate that mTORC1 regulates SREBP by controlling the nuclear entry of lipin 1, a phosphatidic acid phosphatase. Dephosphorylated, nuclear, catalytically active lipin 1 promotes nuclear remodeling and mediates the effects of mTORC1 on SREBP target gene, SREBP promoter activity, and nuclear SREBP protein abundance. Inhibition of mTORC1 in the liver significantly impairs SREBP function and makes mice resistant, in a lipin 1-dependent fashion, to the hepatic steatosis and hypercholesterolemia induced by a high fat and cholesterol diet. These findings establish lipin 1 as a key component of the mTORC1-SREBP pathway.

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Shomit Sengupta

Prolonged Rapamycin Treatment Inhibits mTORC2 Assembly and Akt/PKB

Regulation of the mTOR Complex 1 Pathway by Nutrients, Growth Factors, and Stress

mTOR Complex 1 Regulates Lipin 1 Localization to Control the SREBP Pathway

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