PURPOSE OF REVIEW: To highlight the recent research pertaining to the cellular mechanisms linking amino acid availability, mTORC1 signaling, and muscle protein metabolism. RECENT FINDINGS: Activation of the mTORC1 pathway in response to amino acids may be dependent upon cellular relocalization of mTORC1, a process that appears to involve the Rag GTPases. Recent studies have also identified other intracellular proteins, such as hVps34 and MAP4K3, and specific amino acid transporters as necessary links between amino acid availability and mTORC1. In human skeletal muscle, it appears that mTORC1 activity increases the expression of several amino acid transporters, which may be an important adaptive response to sensitize muscle to a subsequent increase in amino acid availability. SUMMARY: The precise cellular mechanisms linking amino acids to mTORC1 signaling and muscle protein metabolism are currently not well understood. More defined cellular mechanisms are beginning to emerge suggesting a role for several intracellular proteins including hVps34, MAP4K3, and Rag GTPases. Additionally, specific amino acid transporters may have a role both upstream and downstream of mTORC1. Continued investigation into the precise cellular mechanisms linking amino acid availability and muscle protein metabolism will help facilitate improvements in existing therapies for conditions of muscle wasting.
PURPOSE OF REVIEW: To highlight the recent research pertaining to the cellular mechanisms linking amino acid availability, mTORC1 signaling, and muscle protein metabolism. RECENT FINDINGS: Activation of the mTORC1 pathway in response to amino acids may be dependent upon cellular relocalization of mTORC1, a process that appears to involve the Rag GTPases. Recent studies have also identified other intracellular proteins, such as hVps34 and MAP4K3, and specific amino acid transporters as necessary links between amino acid availability and mTORC1. In human skeletal muscle, it appears that mTORC1 activity increases the expression of several amino acid transporters, which may be an important adaptive response to sensitize muscle to a subsequent increase in amino acid availability. SUMMARY: The precise cellular mechanisms linking amino acids to mTORC1 signaling and muscle protein metabolism are currently not well understood. More defined cellular mechanisms are beginning to emerge suggesting a role for several intracellular proteins including hVps34, MAP4K3, and Rag GTPases. Additionally, specific amino acid transporters may have a role both upstream and downstream of mTORC1. Continued investigation into the precise cellular mechanisms linking amino acid availability and muscle protein metabolism will help facilitate improvements in existing therapies for conditions of muscle wasting.
Authors: Paul Nicklin; Philip Bergman; Bailin Zhang; Ellen Triantafellow; Henry Wang; Beat Nyfeler; Haidi Yang; Marc Hild; Charles Kung; Christopher Wilson; Vic E Myer; Jeffrey P MacKeigan; Jeffrey A Porter; Y Karen Wang; Lewis C Cantley; Peter M Finan; Leon O Murphy Journal: Cell Date: 2009-02-06 Impact factor: 41.582
Authors: Suzanne Verhoeven; Kristof Vanschoonbeek; Lex B Verdijk; René Koopman; Will K W H Wodzig; Paul Dendale; Luc J C van Loon Journal: Am J Clin Nutr Date: 2009-03-25 Impact factor: 7.045
Authors: Fiona E Baird; Kevin J Bett; Catherine MacLean; Andrew R Tee; Harinder S Hundal; Peter M Taylor Journal: Am J Physiol Endocrinol Metab Date: 2009-07-21 Impact factor: 4.310
Authors: Micah J Drummond; Erin L Glynn; Christopher S Fry; Kyle L Timmerman; Elena Volpi; Blake B Rasmussen Journal: Am J Physiol Endocrinol Metab Date: 2010-02-09 Impact factor: 4.310
Authors: Micah J Drummond; Erin L Glynn; Christopher S Fry; Shaheen Dhanani; Elena Volpi; Blake B Rasmussen Journal: J Nutr Date: 2009-10-14 Impact factor: 4.798
Authors: Gábor Juhász; Jahda H Hill; Ying Yan; Miklós Sass; Eric H Baehrecke; Jonathan M Backer; Thomas P Neufeld Journal: J Cell Biol Date: 2008-05-12 Impact factor: 10.539
Authors: Ly Q Hong-Brown; C Randell Brown; Abid A Kazi; Maithili Navaratnarajah; Charles H Lang Journal: Am J Physiol Cell Physiol Date: 2012-03-21 Impact factor: 4.249
Authors: Jessica L Saben; Clark R Sims; Lindsay Pack; Renny Lan; Elisabet Børsheim; Aline Andres Journal: Pediatr Obes Date: 2021-12-16 Impact factor: 3.910
Authors: P T Reidy; D K Walker; J M Dickinson; D M Gundermann; M J Drummond; K L Timmerman; M B Cope; R Mukherjea; K Jennings; E Volpi; B B Rasmussen Journal: J Appl Physiol (1985) Date: 2014-04-03
Authors: Jared M Dickinson; Micah J Drummond; Christopher S Fry; David M Gundermann; Dillon K Walker; Kyle L Timmerman; Elena Volpi; Blake B Rasmussen Journal: Metabolism Date: 2012-09-06 Impact factor: 8.694
Authors: Dillon K Walker; Micah J Drummond; Jared M Dickinson; Michael S Borack; Kristofer Jennings; Elena Volpi; Blake B Rasmussen Journal: Physiol Rep Date: 2014-03-20
Authors: Amber M Milan; Alison J Hodgkinson; Sarah M Mitchell; Utpal K Prodhan; Colin G Prosser; Elizabeth A Carpenter; Karl Fraser; David Cameron-Smith Journal: Nutrients Date: 2018-10-12 Impact factor: 5.717
Authors: Keerthana Gnanapradeepan; Julia I-Ju Leu; Subhasree Basu; Thibaut Barnoud; Madeline Good; Joyce V Lee; William J Quinn; Che-Pei Kung; Rexford Ahima; Joseph A Baur; Kathryn E Wellen; Qin Liu; Zachary T Schug; Donna L George; Maureen E Murphy Journal: Elife Date: 2020-11-10 Impact factor: 8.140
Authors: Supreeth S Rudrappa; Daniel J Wilkinson; Paul L Greenhaff; Kenneth Smith; Iskandar Idris; Philip J Atherton Journal: Front Physiol Date: 2016-08-25 Impact factor: 4.566