Amino acid-dependent NPRL2 interaction with Raptor determines mTOR Complex 1 activation.

We assign a new function to a tumor suppressor NPRL2 that activates the mTOR complex 1 (mTORC1) activity. The positive regulation of mTORC1 activity by NPRL2 is mediated through NPRL2 interaction with Raptor. While NPRL2 interacts with Rag GTPases, RagD in particular, to interfere with mTORC1 activity in amino acid scarcity, NPRL2 interacts with Raptor in amino acid sufficiency to activate mTORC1. A reciprocal relationship exists between NPRL2 binding to Rag GTPases and Raptor. NPRL2 majorly locates in the lysosomal membranes and has a higher binding affinity to the dominant negative mutant heterodimer of RagA(GDP)/RagD(GTP) that inactivates mTORC1. However, the binding affinity of NPRL2 with Raptor is much less pronounced in cells expressing the dominant negative mutant heterodimer of RagA(GDP)/RagD(GTP) than in cells expressing the dominant positive mutant heterodimer, RagA(GTP)/RagD(GDP). The positive effect of NPRL2 on TORC1 pathway was also evidenced in Drosophila animal model. Here, we propose a 'seesaw' model in which the interactive behavior of NPRL2 with Raptor determines mTORC1 activation by amino acid signaling in animal cells. Copyright © 2015 Elsevier Inc. All rights reserved.

Citation

Sang Su Kwak, Kyung Hwa Kang, Seyun Kim, Seoeun Lee, Jeung-Hoon Lee, Jin Woo Kim, Boohyeong Byun, Gary G Meadows, Cheol O Joe. Amino acid-dependent NPRL2 interaction with Raptor determines mTOR Complex 1 activation. Cellular signalling. 2016 Feb;28(2):32-41

PMID: 26582740

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