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ABSTRACT: Amino acids play fundamental roles in the cell both as the building blocks of new proteins and as metabolic precursors. To adapt to their limitation during periods of protein starvation, multiple adaptive mechanisms have evolved, including a rapid cessation of new protein synthesis, an increase in amino acid biosynthesis and transport, and autophagy. Here, we discuss what we currently know about how amino acid limitation is sensed, and how this sensing might be transmitted to mTORC1 to regulate protein synthesis and autophagy.
Seminars in Cell and Developmental Biology 02/2012; 23(6):621-5. · 6.65 Impact Factor
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ABSTRACT: It is clear that mTORC1 (mammalian target of rapamycin complex 1) is regulated by the presence of ambient amino acid nutrients. However, the mechanism by which amino acids regulate mTORC1 is still open to question, despite extensive efforts. Our recent work has revealed that PR61ϵ, a B56 family regulatory subunit of PP2A (protein phosphatase 2A), associates with and regulates the activity of MAP4K3 (mitogen-activated protein kinase kinase kinase kinase 3), a protein kinase regulated by amino acid sufficiency that acts upstream of mTORC1. In searching for a physiological process regulated by amino acids, we have demonstrated recently that arginine plays a role in the activation of LPS (lipopolysaccharide)-induced MEK [MAPK (mitogen-activated protein kinase)/ERK (extracellular-signal-regulated kinase) kinase]/ERK signalling in macrophages. PP2A similarly associates with the upstream regulator of MEK in this signalling pathway, TPL-2 (tumour progression locus-2), in response to arginine availability. Thus PP2A is a negative regulator of both MAP4K3 and TPL-2 in both mTORC1 and MEK/ERK signalling pathways.
Biochemical Society Transactions 04/2011; 39(2):443-5. · 3.71 Impact Factor
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Cell cycle (Georgetown, Tex.) 07/2010; 9(13):2473-4. · 5.36 Impact Factor
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ABSTRACT: The mammalian target of rapamycin (mTOR) pathway is activated by a variety of stimuli, including nutrients such as glucose and amino acids. The Ste20 family kinase MAP4K3 is regulated by amino acids and acts upstream of mTORC1. Here we investigate how MAP4K3 activity is regulated by amino acid sufficiency. We identify a transautophosphorylation site in the MAP4K3 kinase activation segment (Ser170) that is required for MAP4K3 activity and its activation of mTORC1 signaling. Following amino acid withdrawal, Ser170 is dephosphorylated via PP2A complexed to PR61 epsilon, a PP2A-targeting subunit. Inhibition of PR61 epsilon expression prevents MAP4K3 Ser170 dephosphorylation and impairs mTORC1 inhibition during amino acid withdrawal. We propose that during amino acid sufficiency Ser170-phosphorylated MAP4K3 activates mTORC1, but that upon amino acid restriction MAP4K3 preferentially interacts with PP2A(T61 epsilon), promoting dephosphorylation of Ser170, MAP4K3 inhibition, and, subsequently, inhibition of mTORC1 signaling.
Molecular cell 03/2010; 37(5):633-42. · 14.61 Impact Factor
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Virginie Mieulet, Lijun Yan,
Caroline Choisy,
Katherine Sully,
Julia Procter,
Andreas Kouroumalis,
Steve Krywawych,
Mario Pende,
Steven C Ley,
Christophe Moinard,
Richard F Lamb
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ABSTRACT: The innate immune response is influenced by the nutrient status of the host. Mitogen-activated protein kinases (MAPKs), such as extracellular signal-regulated kinase 1 (ERK1) and ERK2, are activated after the stimulation of macrophages with bacterial lipopolysaccharide (LPS) and are necessary for the optimal production of proinflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha). We uncovered a role for the extracellular nutrient arginine in the activation of ERK1/2 in LPS-stimulated macrophages. Arginine facilitated the activation of MAPKs by preventing the dephosphorylation and inactivation of the MAPK kinase kinase tumor-promoting locus 2 (TPL-2). Starvation of mice decreased the concentration of arginine in the plasma and impaired the activation of ERK1/2 by LPS. Supplementation of starved mice with arginine promoted the subsequent activation of ERK1/2 and the production of TNF-alpha in response to LPS. Thus, arginine is critical for two aspects of the innate immune response in macrophages: It is the precursor used in the generation of the antimicrobial mediator nitric oxide, and it facilitates MAPK activation and consequently cytokine production.
Science Signaling 01/2010; 3(135):ra61. · 7.50 Impact Factor
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ABSTRACT: The activation of the AGC (protein kinase A/protein kinase G/protein kinase C)-family kinase SGK1 (serum- and glucocorticoid-induced kinase 1) by insulin via PI3K (phosphoinositide 3-kinase) signalling has been appreciated for almost 10 years. PDK1 (phosphoinositide-dependent protein kinase 1), a kinase that phosphorylates the SGK1 catalytic domain at Thr(256), is known to play a critical role in SGK1 activation. However, the identity of the protein kinase(s) responsible for phosphorylation of Ser(422), a site outside the catalytic domain (the so-called hydrophobic motif, or HM) that promotes activation of the kinase by PDK1, was unclear. In work reported in this issue of the Biochemical Journal, García-Martínez and Alessi have revealed the identity of a 'PDK2' kinase that catalyses Ser(422) phosphorylation as mTORC2 (mammalian target of rapamycin complex 2), a multiprotein kinase that phosphorylates a similar site in PKB (protein kinase B).
Biochemical Journal 01/2009; 416(3):e19-21. · 4.90 Impact Factor
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ABSTRACT: The mTOR (mammalian target of rapamycin) signalling pathway is a key regulator of cell growth and is controlled by growth factors and nutrients such as amino acids. Although signalling pathways from growth factor receptors to mTOR have been elucidated, the pathways mediating signalling by nutrients are poorly characterized. Through a screen for protein kinases active in the mTOR signalling pathway in Drosophila we have identified a Ste20 family member (MAP4K3) that is required for maximal S6K (S6 kinase)/4E-BP1 [eIF4E (eukaryotic initiation factor 4E)-binding protein 1] phosphorylation and regulates cell growth. Importantly, MAP4K3 activity is regulated by amino acids, but not the growth factor insulin and is not regulated by the mTORC1 inhibitor rapamycin. Our results therefore suggest a model whereby nutrients signal to mTORC1 via activation of MAP4K3.
Biochemical Journal 05/2007; 403(1):13-20. · 4.90 Impact Factor
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ABSTRACT: Gain-of-function mutants of Ras and Rho family small GTPases have proven to be important tools in analyzing signaling downstream of these small GTPases. The Ras-related GTPase Rheb has emerged as a key player downstream of TSC1-2 in activating signaling to mammalian target of rapamycin (mTOR) effectors of cell growth such as S6K and 4E-BP1. The TSC1-2 tumor suppressor complex has been shown to act as a RhebGAP, converting Rheb from a GTP-bound to a GDP-bound form. Here we report the identification of a mutant Rheb (S16HRheb) that exhibits gain-of-function properties. At endogenous levels of expression S16HRheb exhibits increased GTP loading in vivo and is resistant to TSC1-2 GAP in vitro. Compared with wild-type Rheb, S16HRheb is more active at promoting the phosphorylation of the mTOR effectors S6K1 and 4E-BP1. Thus S16HRheb will help to identify proximal signaling events downstream of Rheb and allow potential Rheb-independent functions downstream of TSC1-2 to be investigated.
Journal of Biological Chemistry 08/2006; 281(29):19793-7. · 4.77 Impact Factor
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Enzymes 28:77-97.
