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116769 |
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|a dc
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|a Shen, Kuang
|e author
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|a Massachusetts Institute of Technology. Department of Biology
|e contributor
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|a Koch Institute for Integrative Cancer Research at MIT
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|a Wolfson, Rachel Laura
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|a Chantranupong, Lynne
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|a Wyant, Gregory Andrew
|e contributor
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|a Gu, Xin
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|a Orozco Segrera, Jose
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|a Condon, Kendall Janine
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|a Kedir, Jibril Fetu
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|a Scaria, Sonia M.
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|a Sabatini, David
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|a Petri, Sabrina
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|a Abu-Remaileh, Monther
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|a Frankel, Wayne N.
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|a Wolfson, Rachel Laura
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|a Chantranupong, Lynne
|e author
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|a Wyant, Gregory Andrew
|e author
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|a Gu, Xin
|e author
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|a Orozco Segrera, Jose
|e author
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|a Condon, Kendall Janine
|e author
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| 700 |
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|a Kedir, Jibril Fetu
|e author
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|a Scaria, Sonia M.
|e author
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| 700 |
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|a Sabatini, David
|e author
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|a KICSTOR recruits GATOR1 to the lysosome and is necessary for nutrients to regulate mTORC1
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|b Nature Publishing Group,
|c 2018-07-03T18:34:16Z.
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| 856 |
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|z Get fulltext
|u http://hdl.handle.net/1721.1/116769
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|a The mechanistic target of rapamycin complex 1 (mTORC1) is a central regulator of cell growth that responds to diverse environmental signals and is deregulated in many human diseases, including cancer and epilepsy. Amino acids are a key input to this system, and act through the Rag GTPases to promote the translocation of mTORC1 to the lysosomal surface, its site of activation. Multiple protein complexes regulate the Rag GTPases in response to amino acids, including GATOR1, a GTPase activating protein for RAGA, and GATOR2, a positive regulator of unknown molecular function. Here we identify a protein complex (KICSTOR) that is composed of four proteins, KPTN, ITFG2, C12orf66 and SZT2, and that is required for amino acid or glucose deprivation to inhibit mTORC1 in cultured human cells. In mice that lack SZT2, mTORC1 signalling is increased in several tissues, including in neurons in the brain. KICSTOR localizes to lysosomes; binds and recruits GATOR1, but not GATOR2, to the lysosomal surface; and is necessary for the interaction of GATOR1 with its substrates, the Rag GTPases, and with GATOR2. Notably, several KICSTOR components are mutated in neurological diseases associated with mutations that lead to hyperactive mTORC1 signalling. Thus, KICSTOR is a lysosome-associated negative regulator of mTORC1 signalling, which, like GATOR1, is mutated in human disease.
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|a National Institutes of Health (U.S.) (Grant R01CA103866)
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|a National Institutes of Health (U.S.) (Grant R37AI47389)
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|a United States. Department of Defense (Award W81XWH-07-0448)
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|a National Institutes of Health (U.S.) (Grant T32GM007753)
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|a National Institutes of Health (U.S.) (Grant F30CA189333)
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|a National Institutes of Health (U.S.) (Grant F31 CA180271)
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|a National Institutes of Health (U.S.) (Grant T32GM007753)
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|a National Institutes of Health (U.S.) (Grant F30CA210373)
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|a National Science Foundation (U.S.) (Grant 2016197106)
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|a Article
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|t Nature
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