AI Article Synopsis
- The study examines the role of mTORC1 activation in stimulating eIF2Bepsilon mRNA translation in skeletal muscle, building on previous research that established mTORC1 as necessary for this process.
- Activation of mTORC1 through leucine and IGF-1 repletion in Rat2 fibroblasts successfully promoted eIF2Bepsilon translation, but not the other eIF2B subunits, demonstrating the specificity of this response.
- The findings suggest that mTORC1 activation is both necessary and sufficient to enhance eIF2Bepsilon mRNA translation, indicating a new mechanism for mTORC1's influence on protein synthesis and cell growth.
Article Abstract
In a previous study we demonstrated a requirement for activation of mTORC1 in the stimulation of eIF2Bepsilon mRNA translation in skeletal muscle in response to resistance exercise. Although that study established the necessity of mTORC1 activation, the experimental model used did not lend itself readily to address the question of whether or not mTORC1 activation was sufficient to produce the response. Therefore, the present study was designed to address the sufficiency of mTORC1 activation, using cultures of Rat2 fibroblasts in which mTORC1 signaling was repressed by serum/leucine-depletion and stimulated by repletion of leucine and/or IGF-1. Repletion with leucine and IGF-1 caused a shift of eIF2Bepsilon mRNA into actively translating polysomes and a stimulation of new eIF2Bepsilon protein synthesis, but had no effect on mRNAs encoding the other four eIF2B subunits. Stimulation of eIF2Bepsilon translation was reversed by pre-treatment with the mTORC1 inhibitor rapamycin. Exogenous overexpression of FLAG-Rheb, a proximal activator of mTORC1, also caused a re-distribution of eIF2Bepsilon mRNA into polysomes and a stimulation of eIF2Bepsilon protein synthesis. The stimulation of eIF2Bepsilon mRNA translation occurred in the absence of any effect on eIF2Bepsilon mRNA abundance. RNAi-mediated knockdown of eIF2Bepsilon resulted in reduced cellular proliferation, a result that phenocopied the known cytostatic effect of mTORC1 repression. Overall the results demonstrate that activation of mTORC1 is both necessary and sufficient to stimulate eIF2Bepsilon mRNA translation and that this response may represent a novel mechanism through which mTORC1 can affect mRNA translation initiation, rates of protein synthesis, and cellular growth/proliferation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2601645 | PMC |
| http://dx.doi.org/10.1016/j.biocel.2008.04.010 | DOI Listing |
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