Author
Listed:
- Jong Hyun Kim
(College of Pharmacy, Seoul National University)
- Chulho Lee
(Yonsei University
Yonsei University)
- Minji Lee
(Yonsei University)
- Haipeng Wang
(The Scripps Research Institute, Scripps Florida)
- Kibum Kim
(Yonsei University)
- Seung Joon Park
(Yonsei University)
- Ina Yoon
(College of Pharmacy, Seoul National University)
- Jayun Jang
(College of Pharmacy, Seoul National University)
- Hanchao Zhao
(University of Illinois at Urbana)
- Hoi Kyoung Kim
(College of Pharmacy, Seoul National University)
- Nam Hoon Kwon
(College of Pharmacy, Seoul National University)
- Seung Jae Jeong
(College of Pharmacy, Seoul National University)
- Hee Chan Yoo
(College of Pharmacy, Yonsei University)
- Jae Hyun Kim
(Yonsei University
Yonsei University)
- Jee Sun Yang
(Yonsei University)
- Myeong Youl Lee
(Bioevaluation Center, Korea Research Institute of Bioscience and Biotechnology)
- Chang Woo Lee
(Bioevaluation Center, Korea Research Institute of Bioscience and Biotechnology)
- Jieun Yun
(Bioevaluation Center, Korea Research Institute of Bioscience and Biotechnology)
- Soo Jin Oh
(Bioevaluation Center, Korea Research Institute of Bioscience and Biotechnology)
- Jong Soon Kang
(Bioevaluation Center, Korea Research Institute of Bioscience and Biotechnology)
- Susan A. Martinis
(University of Illinois at Urbana)
- Kwang Yeon Hwang
(College of Life Sciences and Biotechnology, Korea University)
- Min Guo
(The Scripps Research Institute, Scripps Florida)
- Gyoonhee Han
(Yonsei University
Yonsei University)
- Jung Min Han
(Yonsei University
College of Pharmacy, Yonsei University)
- Sunghoon Kim
(College of Pharmacy, Seoul National University
Graduate School of Convergence Science and Technology, Seoul National University)
Abstract
Leucyl-tRNA synthetase (LRS) is known to function as leucine sensor in the mammalian target of rapamycin complex 1 (mTORC1) pathway. However, the pathophysiological significance of its activity is not well understood. Here, we demonstrate that the leucine sensor function for mTORC1 activation of LRS can be decoupled from its catalytic activity. We identified compounds that inhibit the leucine-dependent mTORC1 pathway by specifically inhibiting the GTPase activating function of LRS, while not affecting the catalytic activity. For further analysis, we selected one compound, BC-LI-0186, which binds to the RagD interacting site of LRS, thereby inhibiting lysosomal localization of LRS and mTORC1 activity. It also effectively suppressed the activity of cancer-associated MTOR mutants and the growth of rapamycin-resistant cancer cells. These findings suggest new strategies for controlling tumor growth that avoid the resistance to existing mTOR inhibitors resulting from cancer-associated MTOR mutations.
Suggested Citation
Jong Hyun Kim & Chulho Lee & Minji Lee & Haipeng Wang & Kibum Kim & Seung Joon Park & Ina Yoon & Jayun Jang & Hanchao Zhao & Hoi Kyoung Kim & Nam Hoon Kwon & Seung Jae Jeong & Hee Chan Yoo & Jae Hyun , 2017.
"Control of leucine-dependent mTORC1 pathway through chemical intervention of leucyl-tRNA synthetase and RagD interaction,"
Nature Communications, Nature, vol. 8(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00785-0
DOI: 10.1038/s41467-017-00785-0
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